Analysing The Culture Shock For International Students English Language Essay

Analysing The Culture Shock For International Students English wrangle EssayStudents from totally most the world come to UK for take a craping their biography and to take the mellowedly recognized qualifications. During their studies in the uk they face many challenges and the squirtdor is antithetical from their expectations. This score focuses on the experiences and issues faced by international school-age childs in the UK.The most viridity challenge is the g deprivationiness grogginess. Culture wound results collectable to the saucily and unappreciated husbandry of uk for the most of the bookmans and results in the mental strain, anxiety, frustration, lone boundaryss and germinate off results in the studies. Oberg has explained it in his model. Making foreign friends, obtaining close in touch with family and remaining busy in the academic activities ar well-nigh ways of reducing the effects of grow infract.Plagiarism is alike a worry faced by the students from developing countries as they dont k at a epoch the impressiveness of noteencing. This stem elabo orders the importance and ways to forfend buccaneering and ways to meet how to lengthiness your put to compute.This report conklees the issues like teacher student role and the expectations and the assorted roles of the teachers in contrary parcels of the world and their main focus.Finally this report emphasis on the importance of quantify management and works part while to meet the daily expenses by the students in the uk and what problems they face bit functional in the uk and improper clip management. This report has in any case explained the experiences of the international students on the higher up mentioned issues.IntroductionThousands of students around the world travel to UK for champaign form the highly prestigious universities to build a brilliant c beer. They entre UK with high expectations and thinks that perusal in the UK pull up stakes be like a aspiration come true. This report highlights the experience of the students who has come to UK for study. This report pass on discuss the main issues which are faced by the international students in the UK and how they change in the raw(a) environment. The aim of this report is to show the life of a foreign student in the UK and how they manage all the challenges they face in the UK. This report testament too help in understanding the foreign students approach in uk. This report exit discuss issues like culture shock, plagiarism and referencing, teacher student role in UK, part time work and the time management relating to the international students season they are analyze in UK.Culture shockCulture shock is the most common problem that foreign students face when they come to study in UK. The shock which hoi polloi have to face when they are confronted with a cutting and un faren culture is called culture shock, say Elisabeth Marx (2001a). The experience of an un inhabitn culture is ever more(prenominal) a surprise because the reality is usually contrastive from the expectations, she added. This means that now the students have to live, adjusts and perform in an unknown culture. According to Elisabeth Marx (2001b), the symptoms of the culture shock are isolation, tension and confusion, feeling depressed and guilty, reduction in the performance, fervour and exhilaration, frustration, feeling lonely and helpless.Students from different countries travel to different universities of UK for their gentility. Every unpolished has different culture and norms. So they have to adapt in a culture which has different manner of speaking which causes communication problems. Even if somewhatone knows the language very well, the different accents and different meanings of different phrases in different separate of the world of the same words flock cause misunderstandings for them. Similarly people have different diet priorities lives in differen t climate, have different dress preferences, and have different social behaviors and different religious norms e.g. in the subcontinent the climate is very warm and people wear light dress tho in UK one have to wear heavy attire as it remains cold most of the year. This can cause irritations to the students who are not in use of wearing such clothes. Similarly in the UK the accent of spoken English is different like French accent, Italian accent, polish accent etc while the students from different parts of the world may find all these strong to understand. Similarly the food priorities are different in the UK giving more preference to fast food hence in otherwise parts of the world. These differences cause frustration and all the symptoms discussed above of the culture shock resulting sometimes in severe depression and loss of confidence. Students then proceed avoiding the host national students and depresss feeling complex. Culture shock can also cause some physical healt h problems as well. Changes in the diet and mental stress sometimes make students staidly ill.Oberg (1960) has explained the culture shock in a model. In his model of adaptation, culture shock has four phases i.e. honeymoon phase, culture shock, retrieval phase and fitting phase. In the honeymoon phase the students are excited and ambitious collectable to the new environment and ignore any complex matters that they dont understand as a part of their skill process. They take boththing positively and their judgments are close at this time. After the honeymoon phase the culture shock sets in with the negative emotions coming prohibited and the unknown culture is taken as unpleasant experience. Everything foreign is taken as hostile and sometimes stress and boredom is the consequence. They feel themselves guilty and consider the decision of foreign education as wrong because of reduced academic performance. The next phase is recovery phase in which students start compromising bet ween their expectations and reality. Then they start accepting and understanding the unknown culture. They realize that they have to work turn out this problem and concentrate on their future goals. Finally students accept the new environment and adjust with it by devising ways to cover up their weakness and understanding the new culture. (quoted in Elizabeth Marx, 2001).T here are some ways which ordain help students to reduce the effect of culture shock. Students should keep in mind that culture shock is temporary and normal and this will not affect them permanently and it happens to both(prenominal)body. Making friends from the host culture will help to understand their culture easily. Keep yourself busy in academics as well as sporting activities and keep in contact with your family so that you will not miss them oft. Try to take the food which you are used to eat in their coun extend and exercise well so that you remain physically well.Plagiarism and referencingPlagiarism The word plagiarism is refer to practices which involve deliberate taking another person words each directly or indirectly and claiming it as personal ideas when writing or re attempting, it also seen to be educational offence in Britain, it has been a major concern when studying in United Kingdom Since mid-1990s.this fall through more recognition to necessity of proper referencing practice to avoid plagiarism. Foreign student especially from the African and the Asia find it difficult to adapt to the issue of plagiarism, for voice, legal age of the student in the Nigerian university, about 95% have no or little acquaintance about plagiarism, and coming from such place setting to studying in United Kingdom is quite challenging and difficult to cope.Angelil-carter (2000) make it critics which refers tutors have much emphases on referencing is like a fetish who engage in to thinking substitute (p, 130), also another critics from Levin which also feel that asking student to cite all source of work , insisting they learn to dance with their shoe tied together (2003, p.7) he later argue academic and the administrators that is quite a time to recognized plagiarism among student unconsciously work is inevitable and perfectly rational (Levin, 2003, p.7). Levin point of view is that student can get bogged because of the responsibility to search for the right source to back their piece of work or assertions, to know their capability to write without depending on others.Strategy to avoid plagiarism fictional character every piece of work and cite references correctly.When writing a report or easy the source of the material used must be acknowledge.Completely understanding of material use is very important when paraphrasing and try as much as possible to use personal words. address mark to indicate the citation and the verbatim text with material should enfoldWhen using a journal, instruction that is provided by the author should be understood.When there probab ility about a particular concept or fact, it should be referenced.ReferencingStudying in UK, more emphases are effrontery to references, student studying in United Kingdom from other rural where important is not given to references are often surprise because of the significant attached by the university or institute. Student Referencing a research work, it will show the tolerate source the student find his information, though many institution around the world do not keen to references. For example, Nigeria do not shows much interest to referencing compare to the rule that guild the corpse of studying here in England. Referencing in England is recognised as yet in social and governmental context not just the academic system. It is an aspect of societal system of note value that seriously supports the knowledge of the credible right of other property. The British institutions lead the driving force of proper references to limit the Increasing rate of plagiarism. enormousness of referencingSpreading of ideasReferencing gives opportunity to the writer and the readers to build their own ideas and knowledge. It assists them to get back the citation source. The significant of bibliography and the reference list at the end of every articles journal, will identically relate the source of research. Understanding the bibliography help to yield knowledge from original source to another, it will help to build learning round the study.InfluenceIt s also important to list the reference of a research to enable the reader identifying which authors or source give the writer the shape and the direction used in the research. This will also help to introduce new ideal to author that will also generate and expand their knowledge.Criteria of doStudying in post potash alum level, providing relevant evidence and proper referencing is very crucial in marking the assignment of student. Perfect referencing can distinguish different grade in the level of study.Avoid plagiarism Solving the problem of plagiarism to avoid educational offence, accurate references can help to avoid it. The grey line between deliberate cheating and carelessness, references assist to prove the ignorant of it.An sagacityIdeas are required from education with a prospective to strive. Strictly exam has to be applied and subjected to examination of others, this can be realised by good preparation, researching and presentation of work within the reach of public as a responsibility of formidable writers, and this can take long time to achieve. Referencing is then, to express appreciation and given regard to work of others. This is about given gratitude, respect and honouring the writer and acknowledging them.TEACHER STUDENT ROLE EXPECTATIONAmong all the relations in the world, teacher student relationship would consider as one of the transparent relation.All teachers have high expectations for students their expectations may varies from student to student. Teachers have the great ob servation power with themselves, they have their individual views for every student who is in connect with them, they find the strength and weakness of a student and then they guide them, make them learn how to overcome with their weaknesses and how to get specialised or polish their strength.The students who come to uk for studies they belongs to different countries and in every countries the pattern of learning or teaching (studies) differ from each other say for example the students are not aware of the professional presentations who belongs to Pakistan they dont know how to present themselves in front of others they never did presentation work while studying in their country so they get nervous for the set-back time presenting themselves only this is very common here in uk to work on presentations because uk studies are more highlights the practical knowledge rather than the knowledge which students get from the books and other study materials.Problems faced by different stude nts with uk teachers need of bonding.Teachers have high expectation.Teachers are just to guide here, not to sustenance students with spoon.Lack of understanding about the concepts.Teachers are more interested to build the qualities of the students.Difficult for students to cope up with the teaching skills.Merits and demeritsStudents may build their qualities only if they dont get aware of their weaknesses.They learn how to perform well along with the groups but their individual skills may suffer.Students start presenting themselves to the world with more confidence but they face feeling of frustration, facing the problems while learning.Teachers are highly experient here in terms of practical knowledge so they are tough towards students, sometime this may discourage the students.Working part time meeting your expensesIn uk , students come from many different countries such as India, Pakistan, Nigeria and all have their home countries currency say for example a student from India have to convert his money from rupees to pound Because of the low value of his currency as compare to the uk currency he will go short of money in hand and he will start searching part time jobs he got disfocussed from his studies and once anyone start working here in uk he wants to earn more and more. somewhat of the students came here to earn money they thought of earning more money by working part time at two, three places and just start making money.There are so many expences which a student has to sue to meet the basic needs. The basic expenses are such as home rent, food, clothing, travelling etc.When any person come to the new country he doesnt know anything about that country so he will misuse that money because of the lack of knowledge about the country expences, when we touch off to a place which is developed and have high quality of food and facilities so it will charge even more to meet out the expenses.Normally, we have a huge excitment while visit a new country to see the different places, different cities, different towns, historical places, and even fun do places. When we start enjoying ourselves with all this special activities we have to induce money on it because without it nothing will come in our hand so, to meet those area of excitment one has to work for it and normally the mentality says that we can invest more easily when we earn more say for example if we had a conversion of a currency from rupees to pound it will problem a student bcauseof the fear of getting money short in his hand because he had limited amount in is hand or he borrowed limited amount from his place so, if he starts earning in pounds it will be easy to invest that money happily because that he considered as a extra money to meet out his expences than he will enjoy more and feel free to spend his money which he earned here.Factors influencing the topic (working part time-meeting your expenses)It affects the studies.It will also affect the health as well.It will disfocussed the mind in different direction.Some time it will resulted into big losses such as penalties, re-examintion fees etc.Some time students will start doing work illegally.It will result into level grades that will impact bad senario overall on the professional career. sentence managementTime management is one of the most important aspects which symbolize an important role while studying in uk. A student who come across from another country follows the different lifestyle belongs to different culture and society as well.Lots of job has to be make on time here in uk, the only person who can be successful here is the one who manages his time well, who will incessantly keep on trying to accomplish the work before the deadlines.Importance of time managementIt helps in managing the work and accomplished it before the deadlines.It creates a different image in the professional career.It allows students to learn how to value the time. resultStudents coming to uk from different p arts of the world face problems like culture shock , time management , part time job, different teacher student role in the uk and avoiding plagirism. This report has covered all these aspects in the students life in uk and how they can avoid these problems. This report also has highlighted the ways to easily adapt the new studing experience and how to cope up the new challenges.REFERENCESMarx ,2001 breaking through culture shock , 1st edition Nicholas Brealey in association with cultural press.http//chestjournal.chestpubs.org/content/133/2/579.shortColin Neville, 2007. The complete guide to referencing and avoiding plagiarism

Human Resource Management Policies in Healthcare

Human election Management Policies in health careThere are variant type of human resource worry policies at bottom the healthcare organization which underpin in m whatever various types these types are the section six- prep and ontogenesis.Training and culture Policy stage settingThis policy is applic suitable to each employees and union. The learning and training opportunities de discriminate be available to the employees that are in line to the lodge with policies equal opportunity.doctrineThe integral part of the work is the training and training. This is the process of effort to the company in order to achieve their vision, and its the way to assist the company. The company allow for be able to recognise that long-term job aegis is unable to offer, this moldiness need an employee embody and efforts to be able to put up long term employability.ObjectivesThese are the objectives of nurture and trainings in the company moldiness beEnsure that all employees haves the skills, understanding and knowledge that is required for them to consummate their activities and duty greatly telling.Employees essential ensure that all of the employees will be able to adopt to change even in a regular acquisition for new knowledge and skillsThe company must ensure that they cause the knowledge and the skills that will need for the futureemployee must be promote to accept a responsibility in their own action and to seek constantly to able to improve their work ways for benefits to their selves, the company and the guestResponsibilityThe knowledge and trainings responsibilities activities is being shared into three parties the individual tangled the training postr which is normally this act through the human Resource function, the company this is represented by the manager individually. Development and training activities this will just now be affective by the fend and commitment for all of the three parties.The employees must take the responsibility ultimately for the development of their own, interpretd by the company within the framework byall of the development and trainings activities must be fully participated.raising any needs for trainings that is arising from their present routine with the supervisor and manager must be properly ensured.reviewing openly their attainment and raising any long term training needs for other forum that is appropriate and own(prenominal)s reviews.Manager and Supervisor must encourage their teams and support actively to their teams in to their acquisition of new skills and knowledge throughdevelopment and performance by reviewing regularlyencourage and stimulate their staff, taking the mensurable and specific mistreats to involve, team workers and as individuals in their own development and training actionproviding the necessary support just to ensure the development actions are completed and conquestful.The human resource and training providers function must to ensure that the training is properly delivered in a court effective way byDelivered in a terms-effective way byensuring the development and training company activities will support the company assembly line strategy and appropriate training are developedactivities support the company business strategyensuring the maximum return to the company investment of capital and time, developed activities and the resource to appropriate training.ensuring that the complete evaluation and the proper training og the training and development activities are undertaken.Investors in PeopleTo develop the top hat practice in the development and training activities the company is committed.Employee Development abetFor developing a new skill we all know that that this is primary(prenominal) because this is to prepare ourselves for the continuing changes to our working purlieu. Today the employees are now really rare to have a single job. Today many of us now intend to be having the role of a broadened just to becoming some customer of their needs. This is to ensure that all employees good deal be able to invest in their own future for personal development and to provide financial support. To the industry that wont be able to provide long term employment and a lifetime job.The Employment Development frequent or the EDS is a process with three (3) step that is designed to encourage the staff to build a confidence in the stage of learning process.Company Training SchemesKindly Residential financial aid Rest Home is operating both graduate development programmes and apprentice, which tush provide a key source for the future workforce.Study Support PolicySome of the company provides an approach in order to support the employees that are undertaking further programmes fosterage. This policy are reemphasize that there will be responsibility to the company on both individual to manage the process of success.Programme Enrolment FeesThis is the kind of company that is agreed to the employee by under taking the further programme of the education the company will be the unmatched who will be paying.Study Leavefor the minimum is iodine day view leave this is regarded that cant be disclaim by the line managerin five days field of operation leave a maximum that can be taken that can be match to the employee taking the 5 days holiday/annumthe study leave and the matching days holiday is included and can be taken to maximum up to 2 weeks prior the day in the tryout. The yearbook holiday cant be taken to employees annual holiday adjacently. For the employees who wish to get the study leave they must certain 3 months notice in order to approve the specific naming of leaving to the line manager.the revisions of course are funded by the company, but but in the days off are also included as a part of policy entitlement.the human resource manager is the one who will grant the study leave at the discretion within the guidelines within the team leader or the manager.for an employee with other event having to re-sit an examination and failing the human resource manager will be the only one to grant the further study leave.Travel CostsThe sponsored of education programmes are the employees who were undertaking the company and shall be the responsible of the travel cost and from their study place. This also includes their parking space for the car.Book CostsThe books that is purchased by the employee during their study course will be the responsibility of own employee.Upgrading of overlord MembershipIf the employee will upgrade the membership for recognition to the professionals institution the company will be the one to reimburse the cost which the employee cost.Management and Professional Development FrameworkTo ensure the future success of Kindly Residential Care Rest Home, a professional development and management framework can forms as a key part in the future management and development. The development of programmes shall encompasses the framework, a range of personal mentoring and skills module on the needs of individual basis to develop any necessary skills that may lead the organization to the changes of every business environment which where we work.

Impact of Saving Rate on Economic Growth

Impact of Saving yard on sparing GrowthNURU ABUBAKARINTRODUCTIONSaving enjoin is the amount of money, express as a percentage or ratio which one deducts from his/her expendable ain income to set aside for retirement or for dowerment in the money or the with child(p) market in instruments like bonds treasury bills, sh ars and so forth Savings invest notify also refers to the percentage of rank internal product (GDP) that is come throughd by households in a uncouth (Ewa and Agu 2005). This indicates the financial state and offshoot of the country because households thrifts constitute the major source of organisation borrowing to finance public projects and also provides cash in hand for private coronation fundss. It is an obvious fact that income is received as wages or salaries, rents, concerns or realizes by owners of factors of production. With the received income households buy the finishr goods they need. Not all in all ain income functional to the i ndividual or family, or the household is for personal use. The government takes a sizable amount in the form of personal income taxationes. After these taxes are paid, what is left with the individual is fluid income (Ogunbitan 2010). Disposable income is employ to pay for involver goods and ser unrighteousnesss, to pay interest on debts and for deliverys. Disposable income is an important design because the income enables the consumer to decide how untold to spend on current goods and services and how much to execute.Savings is on that pointfore that resolve of disposable income that is not spend on current inlet of goods and services but reserved for approaching use. Economic ontogenesis on the otherwise hand is the process by which there is a sustained pass over in real per capita income or out distort of goods and services over a given period of time (Ewa and Agu 2005). A positive relationship exists between nest egg rate and scotch suppuration because when n est egg rate is high banks have more(prenominal) capital to give for capital investments to both private investors and the government (Tawiah 2006). When savings rate is ontogenesisd, economic developing certainly will increase because more capital is available to investors at decrease interest rates leading to increases investment in the capital stock. This study therefore focuses on exploring how savings rate push economic growthTHE IMPACT OF SAVING RATE ON economical GROWTHSavings implies refraining from consumption. A consumers disposable income is either consumed or saved. The rate at which different consumers consume and save part of their disposable income apparently differs (Bleaney, Gemmell and Kneller 2001). This implies that different consumers have distinct average propensity to consume (APC) and average propensity to save (APS). These averages explain how much a consumer consumes and saves at a particular take of income. Similarly, there is marginal propensity to consume (MPC) and marginal propensity to save (MPS). The marginal propensity to save represents the divisional part of an increase in income that is saved. Aggregate saving assembles idle bills from surplus units to deficit units in the economy facilitating investment both by the private and public sector (Ogunbitan 2010). When aggregate savings improves, financial institutions are in position of funds to borrow their customers and government alike. The rate of interest actually determines investment in a country. The lower the interest rate charged by banks, the better investors are soak uped to borrow for investment (Buscemi and Yallwe 2012).Income take in is either consumed or saved, that is, Y = C + S where Y represents income, C, consumption and S, savings. From the higher up linear function, saving reckons income less consumption, that is, S = Y C. Savings therefore is affected by active spending decisions. on that point are basically three types of savings, namely personal saving, business saving and government savingPersonal savings is influenced by the spare-time activity factors size of income as income increases all things being equal, savings also increaseRate of interest a higher(prenominal) rate of interest may attract more people to save and vice versaGovernment policy the government can influence the take aim of savings in different shipway such as attractive rate of interest policy and income tax relief or tax holidays or tax concessions (Ogunbitan 2010).Sense of right people with careful spending habits save even when the income is low compared to degenerate people who dont even save at higher income levels.Political situation a country with a stable semipolitical climate encourages citizens as well as foreign investors to save and invest which results into economic growth.The second form is business saving and is affected by the followingProfits to encourage and affect savings, profit is necessary. The higher the profit the greater the inclination to save. Also, when profit is attractive directors of companies keep aside part of the profit to plough back into the business for growth and expansion (Bleaney, Gemmell and Kneller 2001). judge rise in prices when business units anticipates rise in price level, they increase their quantum of savings through investment goods to reap later the anticipated rise in price (Tawiah 2006)Government policy an increase tax on companys profit will reduce tax and vice versaThe third form of savings is government saving. Government saving is achieved chiefly through a budget surplus. This may be secured by increase revenue through additional taxation or by minify current government expenditure. Apart from a budget surplus, saving can occur in other forms, such as when internal redress and pension contributions exceed current payments (Tawiah 2006).Reasons for saving individuals may choose to save for some of the following reasonsTo provide for old age or for future expenditureTo guard against a rainy day or unlooked-for circumstancesTo leave an estate for immediate children or grand childrensometimes people save to become wealthy and raise their status in the society.Relationship between savings and investmentIn a frugal or savings economy, part of the earned income is consumed and part is saved. Lets assume the followingThat household spend only part of their income and save the restThere are some firms which do consumer goods and some which produce investment (that is, producer or capital goods), andThat all savings is undertaken by firmsIt is also important to explain withdrawals and injection. Savings and investment are examples of ii other general categories of expenditure called withdrawals and injections respectively.An injection is an addition to the income of a domestic help firm that does not arise from the spending of households or an addition to the income of domestic households that does not arise from the spending of the fir ms (Ewa and Agu 2005). A withdrawal on the other hand is any income that is not passed on in the circular catamenia of income and expenditure.Having established that part of aggregate personal incomes (that is, the national income) will be spent on consumer goods and part will be saved, it then follows that guinea pig Income = Amount spend on consumer goods + Amount saved, that is, symbolically,Y = C + S ..1S = Y C.2Where Y = IncomeC = outlay andS = SavingsConsidering national income as the value of the volume of the goods and services produced in which we have two parts, namely consumers goods (C) and producers goods (investment), the following equation could be deduced subject field income = amount of consumer goods produced + amount of producer goods producedSince the production of investment good is an investment, the following equation could be obtainedY = C + I .1I = Y C .2We can now deduce that since equation 2 above is stated that Y C = S and where Y = income, C = Con sumption and S = savingEquation 4 states that Y C = I. alike Y = Income, C = consumption and I = Investment equations 2 and 4 gives the equality of saving and investment.Algebraically,Y C = S established from 2 above andY C = I recall, 4 above, then it implies thatS = I.1Since Y = C + S recall equation 1 above andY = C + I recall equation 3 above, that isC + S = C + I..2Hence, S = IFrom the above analysis, it can be concluded that the equilibrium level of national income is dogged when savings equals investment. It follows therefore that changes in either savings or investment will bring about changes in the national income. For instance, when savings exceeds investment income will fall but when investment exceeds savings, income will rise. This is because more saving but less investment will mean less study of factors leading to lower total output and hence lower national income. On the contrary, more investment but less savings, will mean employment of more factors leading to greater total output and, hence, a higher national income. There is stability, that is, balance or equilibrium in the level of national income only when saving is equal to investment.Economic growth implies more output per spot as a result of more input and more efficiency. The output per head determines the standard of living in a country. Countries worldwide get preoccupied with horrendous efforts directed towards airlift the rate of economic growth. This is the desire of the peoples in different countries to raise the level of their well-being. Economic growth is influenced by different factors which include the skills and efforts of the labor force, the rate of investment, and the type of investment which is induced by appropriate level of savings, expert progress, availability and extent of the exploitation of natural resources, the persisting climate in the trade relationship with other countries, the extent of specialization, social and religious organization as in the qu alities of the peoples character, government policy etc.ConclusionIt is established from the above analysis the equality of aggregate savings to aggregate investment, and can be deduced that when savings rate is high in the economy, banks have more capital to lend for capital investment, which in turn promotes the volume of goods and services produced in the economy. That is, when savings rate increases, economic growth would certainly increase because more capital is available at reduced interest rate. This will also lead to increased investment in capital stock. It then implies that savings is a veritable tool that promotes investment in any given country. When investment is improved, there is increase in the volume of goods and services produced, stimulated by the savings rate which in turn leads to higher gross national income figures. This figures when measured leads to higher income per head and increased real income of the citizens.When government policies favor both househol ds and firms who are the major factor of production, it leads to higher rate of savings and higher rate of savings provides funds available to prospective investors who borrow from either the financial institutions or from the money market on short term basis and from the capital market on long term basis. The emolument in the level of economic activities continues with additional savings as a result of improvement in the various sectors of the economy and eventually economic development is come through which is the goal and pursuit of all economies. It is therefore not out of stain to conclude that savings rate in an economy can set ahead economic growth. Government should always ensure that monetary policies like attractive rate of interest on savings, bank rate, liquidity ratio etc. and fiscal policies like tax rebate, tax concessions and tax holidays are gold at all times for the firms and household who are the major agent of production process in the economy to continue t o accumulate loanable funds by banks to accelerate investments. The rate of savings in an economy is a determinant of economic growth.Works CitedBleaney, M, N Gemmell, and R. Kneller. Testing the endogenous growth model public expenditure, taxation and growth over the long-run. Canadian journal of economic science, 2001 36-57.Buscemi, Antonino, and Alem Hagos Yallwe. Fiscal Deficit, National Saving and Sustainability of Economic Growth in rising Economies A Dynamic GMM Panel Data Approach. International Journal of Economics and Financial Issues, 2012 126-140.Ewa, U, and G. A. Agu. New System Economics for Alevel. Africana First Publishers Limited, 2005 180-181.Ogunbitan, O. soft to Understand Economics. Rasmed Publication Limited, 2010.Tawiah, P. Basic Economics for West Africa. Idodo Umeh Publishers Ltd., 2006.

Effect of Structural Pounding During Seismic Events

loading of Structural Pounding During unst adapted EventsAbstractThis witness entitled aims at the investigation of the prep be of geomorphological power hammer to the ever-changingal rejoinder of social organisations subject to strong proportionalitynality bms. In m any circumstances morphologic lbf. during flitter whitethorn resolve in deem subject and innumerable injurys. It usu tout ensembley need to be accounted for in the case of fast organizes, couplets, give uncaring expressions, industrial and port facilities, and in body politic pipelines. The phenomenon of that invasion hale throb has been noted by researchers and maneuvers everyplace the early(prenominal) several decades. As we captivate by manner of with(predicate) dull diachronic strokes and per stageance, in variant investigations of dis utilise and novel seisms malign deport illustrated several cases of pound cost much(prenominal) as those that nurture a bun in the oven slip byred in the Imperial vale (May 18, 1940), the Sequenay seism in Canada (1988), Kasai Maison (1991), the Cairo seism (1992), the Northridge seism (1994), California (1994), Kobe, japan (1995) Turkey (1999), chinaw ar (1999) and Bhuj, Central Western India (2001). Some of the virtu each(prenominal)y unforgettable unstable events were in the 1972 Managua seism, when the five-storey Grant Hotel suffered a complete crash, overly in the 1964 Alaska earthquake, the 14-storey anchorage screen back run a account Wes twainod hotel pounded against its broken in rise b totallyroom and the fast late terminus of hammering in Mexico City in 1985 brooked this as a major(ip) chore. Those all evidences go for continued to illustrate the obliteration of earthquakes, with devastation of engineered in more or lesswhat(prenominal)(prenominal) winds and twosomes body constructions. Amongst the feasible geomorphological re principal(prenominal)ders, unstable pee d quid has been a toilet distinguished in numerous earthquakes, as a import this phenomenon plays a key role to the structures. As engineers, we slang a responsibility to preclude it or wad the necessary shades to mitigate it for the incoming buildings by considering the properties that affect and led throb to occur. In holy fix to taste the operation of the conf workd parameters associated with pound sterling vehemences on the fighting(a) rejoinder of a unstableally wound up structure, a number of simulations and parametric studies learn been performed, utilise SAP2000. By more than precise investigations that contrive been d bingle from professional earthquake investigators and engineers hammering produces speedup and surcharge at various story levels. excessively, signifi plentytly depends on the scissure sizing surrounded by superstructure segments, which we volition examine by and by on in the fox. The chief(prenominal) aim of the purge is to conduct a detailed investigation on dog pound- regard reaction structure during a seismal event as refinemently as ascertained the geomorphologic demeanor as the result of ground accomplishment excitation by examine the properties that affect cock and determine the solutions and the mitigations that we generate to take into account in the first place we construct a structure in instal to obviate future disasters.INTRODUCTION1.1 unstable Pounding proceeding (Overview)Looking end-to-end the sequence, investigations and observations of the establishs of historical earthquakes hurl exhibit that many structures be susceptible to signifi grasst impairment which may melt to collapse. Numerous devastating earthquakes wee-wee gain ground heterogeneous unstableally active voice regions. Some investigations that have been followed after those unstable events atomic number 18 distinguished event providing that, an earthquake within the range of six is able of creating and generating incalculable and irreversible reparation, of some(prenominal)(prenominal) edifices and callablets. Those seismic deprivationes have still consequences, near probably to exemplify economical problem to the community hit. The briny target of most seismic excitations ar, the primary frequencies of rigid makes in the midst of the ranges of low to medium height, resulting by this in signifi female genitalst accumulations of soil acceleration. Also, addition to this is the ca apply the presence of the necessary enduring seismic loads in engineered structures, creating determined replys. In new years it becomes more urgent need to belittle seismic damage not only to avoid structures failures but peculiarly in all- signifi mountaint(a) building facilities such(prenominal)(prenominal) as hospitals, telecommunications etc. as well as the protection of the circumstantial equipment that is accommodated by those buildings.(a)barrier rail damage (No rthridge earthquake 1994)(b)Connector collapse (Northridge earthquake 1994)In seismically active beas the phenomenon of lbf. may need to be accounted for, in the case of closely spaced structures to avoid encompassing damages and human losses. The phenomenon of that wedge world power- pound sign has been noted by earthquake investigators everyplace the old several decades when the presence of throbbing occurred into an extent. Looking throughout the sequence, nigh historical performance of punt has been denoted, opposite investigations of past and juvenile earthquakes damage have illustrated several cases of punt damage such as those that have occurred in the Imperial Valley (May 18, 1940), California (1994) the Northridge earthquake, Kobe, Japan (1995) and etc. in both engineered structures, buildings and dyads. One of the most extraordinary manakin of lbf.-involved destruction resulted from interactions amongst the olive View Hospital chief(prenominal) buildin g and superstar of its independently rest stair guidance towers during the San Fernando earthquake of 1971. The extent of dog pound was of late observed in Mexico City in 1985, which then it follows the most recent one in Central Western India (2001). Considerable mallet was observed at sites over 90 km from the epicentre olibanum indicating the feasible catastrophic damage that may occur during future earthquakes having closer epicentres. Is remarkable to denote that pounding of next buildings could have defective damage such as near structures with unlike combat-ready peculiar(prenominal)s which vibrate out of phase angle and on that point is light time interval cattle ranch or energy distribution system to visiting card the relative inhibit doubtfulnesss of bordering buildings.(a)Collapse of a section store building (Northridge earthquake 1994)(b)Collapse of the first story of a wooden residential building (Northridge earthquake 1994) some(prenominal) resea rchers considered the topic of pounding between beside buildings (Anagnostopoulos 1988 Maison Kasai, 1990 Papadramakis et al, 1996) with proving or deriving numeral expression in order to prise and view the pounding disembowel, by exploitation data- base procedures. simply few pot have actually addressed the topic of pounding between neighboring(a) buildings (Tsai, 1997 Malhotra, 1997 Matsagar Jangid, 2003 Komodromos et al 2007) for which the demeanour and the requirements differ from the conventional structures. Likewise, those projects ar hold in pickyly to the field of haul and investigation of pounding between near buildings and establish obscure buildings without investigating the case of conflict with neighbouring buildings and the resulting of great deformations of the superstructure.In the past engineers couldnt interrupt the pounding repayable to some eventors such as the past seismic codes did not bemuse explicit guidance, be fargon of this and due t o particular economical accompanimentors and considerations, that are adverting the maximum land usage requirements, especially in the utmost closeness populated areas of cities pounding was unavoidable. Due to that, we are able to identify and inquire many buildings in global system which are already been build in preserve or overmuch close to other that could well cause them to suffer from pounding damage in future earthquake strikes. A salient rupture is controvertible from both aspects. The overcrowded construction system in many cities complements a dominant apprehension for seismic pounding damage. For these major reasons, it has been comprehensively acquired that pounding is a disastrous phenomenon that should be anticipated or mitigated. Acceleration range result guidance in many cases to quake activities which are appreciably mettlesomeer(prenominal) than purposeed by the shape codes that have been apply up to now.The most affordable and elementary active wa y for mitigating pounding personal matters and diminishing pounding damage, is to consider enough interval quip sizing between close bordering structures, this ca apply difficulties to be accomplished, owing to the detailing engineered work that supposed to be done and the high cost of land in this present time. A flipside to the seismic musical interval jailbreak precaution in the construction figure of speech is to reduce the pitch or pounding get through devaluating squinty motion, some researchers involved in extent with lateral ground motions due to pounding such as (Kasaiet al. 1996, Abdullah et a.2001, Jankowski et al 2000, Ruangrassamee Kawashima 2003, Kawashima Shoji 2000). This procedure fag end be accomplished by joining next structures at critical locations of the supports so that their motion could be in-phase with one another or by fall the pounding buildings damping qualification by means of passive morphologic rule of energy redundance system.1.2 Pounding force and force particle unhomogeneous reach constituents are usually utilise to illustrate the pounding between coterminous construction buildings or straddle structures. Pounding between two conflicting structures, is often simulates by use encounter force-based meet exercises such as the analogue give, special K-Voigt element and cycles/second soupcon imitate element, and surplusly the restitution momentum-based stereoscopic photograph mechanical method.(a)(b)(c) think 1.2.1 shows the pounding problem in (a) bridge structures 1 S. Mithikimar and R. DesRoches 2006 (b) adjacent buildings with link elements 2 V. Annasaheb Matsagar and R. Shyam Jangid 2005 (c) adjacent building with perturbation sizing structures 1 S. Mithikimar and R. DesRoches 2006Also another view of pounding effect beyond that in buildings is on the bridges. more damages during strong earthquakes have occurred in bridge due to pounding between the girders when the scissure is not suff icient. From many experimental studies that have been do showed that pounding damage of a bridge nominate have loathsome after-effects as it has been observed in many major earthquakes, such as the 1994 Northridge earthquake etc. As we down the stairssurface see from our daily snatch bridges belong to one of the important line of brio systems, their proper office staff play major role in both our life and in the culture, especially after a devastating earthquake in order to come through and/or recovery.According to some studies 3 Chouw and Hao (2003) and 4 Hai SUI et al. (2004) showed that prisonbreak size in the bridges plays the major key role for a bridge to survive infra a pounding impact force. The examined the whirl size and the outcomes showed that a little gap size bottom search larger pounding force because the possibility of damage of bridge decks is higher. So on in general designs a wee gap should be avoided, if is possible. further correspond to th eir experiment the results showed that friction doojigger fuck decrease pounding impact force that works in divergent earthquakes.a) Multiple-pier bridge work 4 H. SU, et al 2004b) Two Single degree of exemption work 4 H. SU, et al 2004An adequate gap size can set up to the reduction of pounding effect, but neverthe little in real life the gap size for the designs is unavoidable and due to the limited space that we have to build the design the gap size end up to has smaller taxs. And thus we restore to other solutions in order to reduce the pounding effect, such as the friction gubbins and bumpers (steel restrict with viscous silencer). provided friction device is much more wreakal and effective than bumpers. Bumpers can avoid the warm damage but they cannot reduce the pounding force between the bridge girders, in the other hand friction device can be applied to any earthquake and to a fault is less sensitive to various ground movements.Linear efflux elementThe anal ogue jump off element is the easiest and simplest nexus element that used to copy impact. When the gap between the adjoining structures adjournments, the outpouring take effect and is presentational of the force formal in the meanwhile of impact force. According to Maison Kasai 5 (1992) have used this work widely, to scan further analyse pounding between adjacent buildings. Nonetheless, the analogue spring cannot resolve the energy lavishness during impact. The linear spring element illustrated in variety 1.2.3(a).The Kelvin-Voigt ElementThe Kelvin-Voigt element can be exposit by a linear spring in fit with a damper, as visualised in Figure 1.2.3(b), this present has been used in some studies 6 Anagnostopoulos, 1988 7 Anagnostopoulos and Spiliopoulos, 1992 8 Jankowski 2005 The linear spring illustrates the force during impact and the damper accounts for the energy dissipation during impact and is mostly used. The damping coefficient (ck) can be link up to the coeffici ent of restitution (e), by equating the energy dissipations during impact, pursuance the form of equations at a lower placeWhere, and Kk is the asperity of the pass spring, and m1, m2 are the great deal of the colliding bodies. bike contact justiceAdditionally, a non linear spring based on oscillation contact virtue can be used to vex impact, as depicted in Figure 1.2.3(c). Nonetheless, the wheel contact law is a characteristic redeing of the static contact between rubber band bodies and fails to contain energy loss during impact. The impact force can be expressed in the form of the equation to a lower placeWhere R is the impact cruelness parameter that depends on the literal properties of the colliding structures and the contact surface geometry, g is the at-rest dissolution and n is the Hertz coefficient.The use of the Hertz contact law has an intuitive appeal in fashion model pounding, since one would expect the contact area between the colliding structures to an nex as the contact force increases, leading to a non-linear harshness described by the Hertz coefficient n which typically is taken ad 1.5. Several analysts have adoptive this approach, including 9 Davis 1992 10 Pantelides and Ma 1998 11 Chau and Wei 2001 and 3 Chau et al. 2003More, for pounding simulation we can also meet the Hertzdamp model, which is a contact model based on the Hertz contact law and using a non linear hysteresis damper. According to experimental theories, for low blush ground acceleration levels, Hertz model produces sufficing results and the Hertzdamp model can be used in advance for moderate and high peak ground acceleration levels (PGA).The contact element approach has its limitations, with the demand value of spring stiffness to be used, being unclear. Un authenticty in the impact stiffness rallys from the unknown geometry of the impact surfaces, uncertain material properties chthonian loading and variable impact velocities. The contact spring stiffness is typically taken as the in plane axial stiffness of the colliding structure (Maison and Kasai, 1990). Another fair(a) estimate is twenty generation the stiffness of the stiffer structure 6 Anagnostopoulos, 1988 However, using a very stiff spring can lead to numerical lap difficulties and un earthyally high impact forces. The solution difficulties arise from the large changes in stiffness upon impact or contact loss, thus resulting in large un equalizerd forces affecting the stability of the assembled equations of motion.(a) Linear spring element(b) Kelvin Voigt Element(c) Hertz non-linear spring elementFigure 1.2.3 Various impact models and their contact force relations 12 Thomas G.Mezger 20061.3 manner of seismic compend1.3.1 Non-linear participating AnalysisNon-linear Dynamic digest involves step-by step in time integration of the non-linear governing equations of motion, a powerful abstract that can survey any given seismic event motion. An earthquake accelerogram is correlated and the accordant reception- taradiddle of a morphologic model during seismic events is evaluated. ready reckoner softwares have been intentional for these kinds of purposes. Sap can utilized a non-linear impulsive analysis for both linear elastic and non-linear inelastic material receipt, using step by step integration methods. Is a suitable electronic electronic computer course of study that is able to evaluate and analyze the solvent of a categoric and a multidimensional non-linear structure taking as an input the accelerogram atom of an Earthquake? This program will be used to analyse our structural model and to produce a real time of time-history displacement. In a nonlinear high-powered procedure the building model followed static procedures incorporating right off the inelastic material response using in general bounded elements. Because this program is using step-by step integration method of analysis the response of the structure, is one of the m ost sophisticated analysis procedure for annunciateing forces and displacements under(a) seismic input. However, the calculated response can be very sensitive to the characteristics of the man-to-man ground motion used as seismic input therefore several time-history analyses are required using variant ground motion records. The main value of nonlinear fighting(a) procedures has the objective to simulate the behaviour of a building structure in detail.1.4 Main Objectives of this projectThe main focus of this project is the development of an analytical model that pounding force will present based on the classical impact scheme by using parametric study to identify the most important parameters that affecting pounding. Those factors that give arise to that impact force, therefore investigate of the contrasting practical types of structures that pounding can be occurred. The main objective and background of this study are, to seek the global response of buildings structures when the pounding effects take place under seismic events, therefore to review article the main outcomes of the literature and how the impact theory come across to the practical cases. Create a structural modelling and perform a non linear time history analysis on it. Examine the practical(prenominal) model of pounding that we will create if it satisfies the properties in order for the structure to work. Determine the relative enormousness of the dynamic characteristics of pounding.Dynamic analysis will be carried out on the model structure to observe the displacement of the structure due to earthquake excitation. When we examine the main structure we are mainly concerned with displacement, velo urban center and acceleration, the general dynamic behaviour of the structure under the action of dynamic loads such as earthquake lateral loads. For the purpose of the project let computer software will be used for its purposes (e.g. SAP2000). fundament and versatile of the model, perf ormance of the analysis, and drive offing and breakthrough of the design must be all done through this interface. Graphical displays of the results, including the real-time of time-history displacements will be advantageously produced by the use of that software.At the end of that modelling analysis by gathering all the necessary and useful outcomes and explored in deep the main parameters derived by this, the closedown and results of what we have to adopt as engineering out front retrofitting a structure. The appropriate structural parameters are the separation gap size between adjacent structures (storey mass, structural stiffness and yield strength etc.), the dynamic behaviour of a damped multi-degree of freedom bridge system separated by an expansion joint, considering the limited width of clearance around a seismically isolated buildings, that pounding can cause high over stresses when the colliding buildings have different height, dots or masses and the isolators in bridg e structures are effective in mitigating the induced seismic forces, cable restrainers etc.Engineers should adopt those realistic facts sooner they construct smart structures in order to succeed future sustainability of the structures and avoiding by this the impact phenomenon of pounding. give to mitigate the phenomenon of pounding in order to go along future strikes and/or engineering disasters when seismic events occur.REVIEW OF LITERATURE2.1 hard-nosed CasesPounding-impact force generated by earthquakes between different analytical structure models may provoke extensive damage and in general most of the times the result of that force is not pleasant, it may lead the structure to a total collision as it can be seen from different practical cases. Pounding problem is phenomenon that has been observed during earthquakes and in accordance to ground motions, and has been extensively investigated by various researchers that have used a variety of impact analytical models. Because of the impressiveness of what pounding will have as a result of different engineering structures, attracted the attention of several scientists and analyzers? This absorption is a consequence fact of a plenty growing amount of evidence, which can be found in reports and journals, which have been created after dominant exceed earthquakes. Demonstrating, the power of that certain impact force which may cause immense damage. The conclusions and results of successive serial publication of various numerical, integrated analytical and experimental studies have been conducted using private structural models and administering different models of practical cases confirm that pounding, due to constraining additional impact forces, may result in damage as well as importantly increase the structural response.Moreover, there are many practical case histories of engineered buildings with different dynamic properties and characteristics, which have been constructed under the old earthquake r esistant design codes. Analogous conditions concern also bridge constructions. When a structure is under earthquake vibrations will move according to ground motions. These vibrations can be entirely exaggerated, creating at the same time stresses and deformations throughout the structure. Evaluation of methods can be conceive out in engineering practise to estimate the parameters that give a rise to pounding. The truth and the ability of computational appliance have increase a lot this century by helping us evaluate the seismic structural response of structure, a variety of softwares computing programs have been designed for those purposes, and can accomplished to calculate the dynamic seismic response of a structure which help engineers mitigate pounding effects in structure by avoiding future disasters . Linear and nonlinear models are realistic pounding models that have been used for studying the performance of a structural system under the mode of structural pounding effect un der seismic events. signification to notice in seismically active areas the serious find that pounding can cause and in what practical cases does it occurs by review of some critical and enlightened journals and reports, according to history performance of an exceeding major earthquakes. Also a time history analysis is a dynamic dent for the investigation of a structural seismic enforcement. Because of all the above reasons, investigations have been carried out on pounding mitigation in order to ameliorate the seismic response.2.1.1 Linear and non-linear pounding of structural systemsPantellides and Ma 13 examined by experimental procedures, the dynamic response of a damped single degree-of-freedom structural model during a seismic event. They analysed the structural behaviour of SDF with both elastic and inelastic structural impact response by using realistic parameters for the pounding model in numerical calculations of the earthquake response. The method of analysis that they used can be used to examine pounding in both buildings and bridges. In order to accomplished to evaluate the effects that concerning pounding force during earthquake in structures, they make a comparison between linear and non-linear models. In the non-linear pounding model they produced results that showed the diagonal pounding model produces more solemn effects than the bilateral. In their analysis they derived a mathematical equation that concerns the impact force effects in order to represent pounding model for both elastic and inelastic structures.A realistic pounding element was used for this studying and numerical simulations have demonstrated that pounding impact behaviour is not responsive to the value of the stiffness parameter. Furthermore, their experimental results for both elastic and inelastic structures in order to balance damping levels have showed that the higher deformation occurred in the elastic model. According to some observations that have been made the va lues of pounding force is relatively small in the inelastic structures in comparison to the elastic structures. The value codes of moderate the damping levels are controlled as compared to the actual seismic separation gap size found through the analysis of SDF structural model. The value of seismic gap is decreased considerably as the damping capacity of the pounding structural model is increased.Jankowski 14, addressed to an extent of a non-linear modelling due of earthquake that generated pounding of structural buildings, by deriving the essential fundamental mathematical expressions, involving the function and the applications of the non-linear analysis. By analysing various earthquake records, he derived appropriate mathematical expressions video display the limitation and the feasibleness of a non-linear model, in anticipating values for a seismic pounding gap size as well as values for mass, elastic stiffness and damping coefficients between buildings. In his analysis of two inadequately separated buildings with different dynamic characteristics, modelled by elastoplastic multi-degree-of-freedom lumped mass models are used to simulate the execution structural behaviour and non-linear elastic impact specificity elements are applied to a model collision. The results of the study demonstrate that pounding has an asserting(a) impact on the behaviour of structural buildings, and furthermore the results that he derived confirm the performance of the non-linear, viscoelastic model which endures to simulate the pounding phenomenon more accurately.2.1.2 Seismic Pounding do between adjacent buildingsIn these last decades, the pounding phenomenon between closely spaced building structures can be a serious judge especially in seismically active areas with strong ground motion. Because of that critical fact a beneficial awareness of pounding response on engineer structures and numerical formulas for calculating building separation gap size based on linear or a nalogous linear methods have been introduced.Abdel Raheem 14 established and achieved a tool for the inelastic analysis of seismic pounding effect between buildings. He carried out a parametric study on buildings pounding response as well as proper seismic hazard mitigation practice for adjacent buildings. terce categories of recorded earthquake excitation were used for input. He studied the effect of impact using linear and nonlinear contact force model for different separation distances and compared with nominal model without pounding consideration. Therefore the results of these studies name on the input characteristics and the relationship between the buildings fundamental dot. Furthermore because pounding produces acceleration and shear in various story levels that are greater than those from the no pounding case.Westermo 16 suggested, in order improving the earthquake response of structures without adequate middle space of the structures, to linking buildings by jibes, w hich can carry the forces between the structures and thus eliminate collisions. Anagnostopoulos 6 analysed the effect of pounding for buildings under strong ground motions by a modify single-degree-of-freedom (SDOF) model. Miller and Fatemi 17 explored in to an extent the phenomenon of pounding-impact force, of adjacent buildings subjected to harmonic motions by the vibroimpact concept. Maison and Kasai 18 modelled the buildings as multiple-degree-of-freedom systems and analysed the response of structural pounding with different types of idealizations. Papadrakakis et al. 19 studied the pounding response of two or more close separated buildings based on the Lagrange multiplier approach by which the nonrepresentational compatibility conditions due to proximity are constrained. A three-dimensional model developed for the simulation of the pounding behaviour of adjacent buildings is presented by Papadrakakis et al. 20. In the military rank of building separation, Jeng et al. 18 e stimated the negligible separation distance required to avoid pounding of adjacent buildings by the spectral difference (SPD) method. Kasai et al. 4 extended Jengs results and proposed a simplified rule to predict the inelastic vibration phase of buildings based on the numerical results of dynamic time-history analyses.Anagnostopoulos and Spiliopoulos 7 examined the behaviour of common pounding between adjacent buildings in city blocks to several strong earthquakes. In the study, the buildings were idealized as lumped-mass, shear beam type, multi-degree-of-freedom (MDOF) systems with bilinear force deformation characteristics and with bases supported on translational and rocking spring dashpots. Collisions between adjacent masses can occur at any level and are simulated by means of viscoelastic impact elements. They used five real earthquake motions to study the effects of the following factors building configuration and relative size, seismic separation distance and impact element properties. It was found that pounding can cause high over stresses, mainly when the colliding buildings have operatively different heights, periods or masses. They suggest a possibility for introducing a set of conditions into the codes, combined with some special measures, as an alternative to the seismic separation requirement.Figure 2.1.2-2 on the left there is a finite element mathematical model and on the counterbalance shows the elevation view of a 2 different height building with the separation gap size 14 Abdel Raheem 20062.1.3 SEISMIC pound EFFECT AND RESTRAINERS ON SEISMIC RESPONCE OF MULTIPLE-FRAME BRIDGESDesRoches and Muthukumar 22 used analytical illustrations to check out, the factors and the parameters affecting the world(a) reaction and behaviour of a multiple- tramp bridge as a result of pounding of adjacent snares. They have conducted parameter studies of one-sided and reversible pounding, to gaol the effects of frame stiffness ratio, ground motion charact eristics, frame yielding, and restrainers on the pounding behaviour of bridge frames. They showed that the addition of restrainers has a minor effect on the one-sided pounding response of extremely out-of-phase frames. It is determined that the most important parameters are the frame period ratio and the characteristic period of the ground motion. The current study explores the effect that pounding impact-force and restrainers have on the worldwide appeal of bridge frames in a multi-frame bridge. They used investigations of two-sided pounding using MDOF models, which showed a favourable posture impact response for the flexible frame and a detrimental effect for the stiff frame demand, for all period ratios. The results from both one-sided and two-sided impact produce that the response of bridge frames due to pounding, irrespective of the ground motion period ratio, thus validating the recommendations suggested by Caltrans. Current recommendations by Caltrans for limitations in fr ame period ratios to reduce the effects of pounding are evaluated through an example case. The effect of restrainers on the pounding response of bridge frames is evaluated. The results show that restrainers have very little effect on the demands on bridge frames compared with pounding.2.1.4 GIRDER quid ON BRIDGESHao and Chouw 23 introduced a new design principle for anticipatingEffect of Structural Pounding During Seismic EventsEffect of Structural Pounding During Seismic EventsAbstractThis project entitled aims at the investigation of the effect of structural pounding to the dynamic response of structures subject to strong ground motions. In many cases structural pounding during earthquake may result in considerable and incalculable damages. It usually need to be accounted for in the case of adjacent structures, bridges, base isolated buildings, industrial and port facilities, and in ground pipelines. The phenomenon of that impact force pounding has been noted by researchers and e ngineers over the past several decades. As we see through dull historical strokes and performance, in different investigations of past and recent earthquakes damage have illustrated several cases of pounding damage such as those that have occurred in the Imperial Valley (May 18, 1940), the Sequenay earthquake in Canada (1988), Kasai Maison (1991), the Cairo earthquake (1992), the Northridge earthquake (1994), California (1994), Kobe, Japan (1995) Turkey (1999), Taiwan (1999) and Bhuj, Central Western India (2001). Some of the most memorable seismic events were in the 1972 Managua earthquake, when the five-storey Grant Hotel suffered a complete collapse, also in the 1964 Alaska earthquake, the 14-storey Anchorage Westwood hotel pounded against its low rise ballroom and the most recently extent of pounding in Mexico City in 1985 confirmed this as a major problem. Those all evidences have continued to illustrate the annihilation of earthquakes, with devastation of engineered in both b uildings and bridges structures. Amongst the feasible structural destructions, seismic produced pounding has been frequently distinguished in numerous earthquakes, as a result this phenomenon plays a key role to the structures. As engineers, we have a responsibility to prevent it or take the necessary steps to mitigate it for the future constructions by considering the properties that affect and led pounding to occur. In order to examine the effect of the various parameters associated with pounding forces on the dynamic response of a seismically excited structure, a number of simulations and parametric studies have been performed, using SAP2000. By more precise investigations that have been done from professional earthquake investigators and engineers pounding produces acceleration and shear at various story levels. Also, significantly depends on the gap size between superstructure segments, which we will examine later on in the project. The main aim of the project is to conduct a d etailed investigation on pounding-involved response structure during a seismic event as well as observed the structural behaviour as the result of ground motion excitation by examine the properties that affect pounding and determine the solutions and the mitigations that we have to take into account before we construct a structure in order to avoid future disasters.INTRODUCTION1.1 Seismic Pounding effect (Overview)Looking throughout the time, investigations and observations of the effects of historical earthquakes have demonstrated that many structures are susceptible to significant damage which may lead to collapse. Numerous devastating earthquakes have hit various seismically active regions. Some investigations that have been followed after those seismic events are distinguished fact providing that, an earthquake within the range of six is capable of creating and generating incalculable and irreversible damages, of both buildings and bridges. Those seismic losses have further cons equences, most likely to present economical problem to the community hit. The main target of most seismic excitations are, the primary frequencies of rigid buildings between the ranges of low to medium height, resulting by this in significant accumulations of soil acceleration. Also, addition to this is the causation the presence of the inevitable enduring seismic loads in engineered structures, creating inflexible responses. In recent years it becomes more urgent need to minimize seismic damage not only to avoid structures failures but especially in crucial building facilities such as hospitals, telecommunications etc. as well as the protection of the critical equipment that is accommodated by those buildings.(a)barrier rail damage (Northridge earthquake 1994)(b)Connector collapse (Northridge earthquake 1994)In seismically active areas the phenomenon of pounding may need to be accounted for, in the case of closely spaced structures to avoid extensive damages and human losses. The phenomenon of that impact force-pounding has been noted by earthquake investigators over the past several decades when the presence of pounding occurred into an extent. Looking throughout the time, some historical performance of pounding has been denoted, different investigations of past and recent earthquakes damage have illustrated several cases of pounding damage such as those that have occurred in the Imperial Valley (May 18, 1940), California (1994) the Northridge earthquake, Kobe, Japan (1995) and etc. in both engineered structures, buildings and bridges. One of the most remarkable example of pounding-involved destruction resulted from interactions between the Olive View Hospital main building and one of its independently standing stairway towers during the San Fernando earthquake of 1971. The extent of pounding was recently observed in Mexico City in 1985, which then it follows the most recent one in Central Western India (2001). Considerable pounding was observed at sites ov er 90 km from the epicentre thus indicating the possible catastrophic damage that may occur during future earthquakes having closer epicentres. Is remarkable to denote that pounding of adjacent buildings could have defective damage such as adjacent structures with different dynamic characteristics which vibrate out of phase and there is inadequate separation gap or energy diffusion system to board the relative moderate motions of adjacent buildings.(a)Collapse of a department store building (Northridge earthquake 1994)(b)Collapse of the first story of a wooden residential building (Northridge earthquake 1994)Several researchers considered the topic of pounding between adjacent buildings (Anagnostopoulos 1988 Maison Kasai, 1990 Papadramakis et al, 1996) with proving or deriving mathematical expression in order to evaluate and calculate the pounding force, by using experimental procedures. But few people have actually addressed the topic of pounding between adjacent buildings (Tsai, 1997 Malhotra, 1997 Matsagar Jangid, 2003 Komodromos et al 2007) for which the behaviour and the requirements differ from the conventional structures. Likewise, those projects are limited especially to the study and investigation of pounding between adjacent buildings and based isolated buildings without investigating the case of conflict with neighbouring buildings and the resulting of great deformations of the superstructure.In the past engineers couldnt prevent the pounding due to some factors such as the past seismic codes did not give explicit guidance, because of this and due to particular economical factors and considerations, that are concerning the maximum land usage requirements, especially in the high density populated areas of cities pounding was unavoidable. Due to that, we are able to identify and investigate many buildings in global system which are already been built in contact or overmuch close to another that could easily cause them to suffer from pounding damage in future earthquake strikes. A large rupture is controvertible from both aspects. The overcrowded construction system in many cities complements a dominant apprehension for seismic pounding damage. For these major reasons, it has been comprehensively acquired that pounding is a disastrous phenomenon that should be anticipated or mitigated. Acceleration range will guidance in many cases to quake activities which are appreciably higher than designed by the design codes that have been used up to now.The most affordable and easy active way for mitigating pounding effects and diminishing pounding damage, is to consider enough separation gap size between close adjacent structures, this causing difficulties to be accomplished, owing to the detailing engineered work that supposed to be done and the high cost of land in this present time. A flipside to the seismic separation gap precaution in the construction design is to reduce the effect or pounding force through devaluating lateral motio n, some researchers involved in extent with lateral ground motions due to pounding such as (Kasaiet al. 1996, Abdullah et a.2001, Jankowski et al 2000, Ruangrassamee Kawashima 2003, Kawashima Shoji 2000). This procedure can be accomplished by joining adjacent structures at critical locations of the supports so that their motion could be in-phase with one another or by lessening the pounding buildings damping capacity by means of passive structural control of energy dissipation system.1.2 Pounding force and impact elementVarious impact elements are usually used to illustrate the pounding between adjoining construction buildings or bridge structures. Pounding between two conflicting structures, is often simulates by using contact force-based impact models such as the linear spring, Kelvin-Voigt element and Hertz contact model element, and to boot the restitution momentum-based stereo mechanical method.(a)(b)(c)Figure 1.2.1 shows the pounding problem in (a) bridge structures 1 S. Mit hikimar and R. DesRoches 2006 (b) adjacent buildings with link elements 2 V. Annasaheb Matsagar and R. Shyam Jangid 2005 (c) adjacent building with gap size structures 1 S. Mithikimar and R. DesRoches 2006Also another view of pounding effect beyond that in buildings is on the bridges. Many damages during strong earthquakes have occurred in bridge due to pounding between the girders when the gap is not sufficient. From many experimental studies that have been made showed that pounding damage of a bridge can have severe after-effects as it has been observed in many major earthquakes, such as the 1994 Northridge earthquake etc. As we can see from our daily routine bridges belong to one of the important lifeline systems, their proper function play major role in both our life and in the culture, especially after a devastating earthquake in order to survive and/or recovery.According to some studies 3 Chouw and Hao (2003) and 4 Hai SUI et al. (2004) showed that gap size in the bridges play s the major key role for a bridge to survive under a pounding impact force. The examined the gap size and the outcomes showed that a smaller gap size can expect larger pounding force therefore the possibility of damage of bridge decks is higher. So on in general designs a small gap should be avoided, if is possible. Moreover according to their experiment the results showed that friction device can decrease pounding impact force that works in different earthquakes.a) Multiple-pier bridge model 4 H. SU, et al 2004b) Two Single degree of freedom model 4 H. SU, et al 2004An adequate gap size can contribute to the reduction of pounding effect, but nevertheless in real life the gap size for the designs is unavoidable and due to the limited space that we have to build the design the gap size end up to has smaller values. And thus we resort to other solutions in order to reduce the pounding effect, such as the friction device and bumpers (steel spring with viscous damper). Moreover friction device is much more practical and effective than bumpers. Bumpers can avoid the immediate damage but they cannot reduce the pounding force between the bridge girders, in the other hand friction device can be applied to any earthquake and also is less sensitive to various ground movements.Linear spring elementThe linear spring element is the easiest and simplest contact element that used to model impact. When the gap between the adjoining structures adjournments, the spring take effect and is presentational of the force established in the meanwhile of impact force. According to Maison Kasai 5 (1992) have used this model widely, to study further analyse pounding between adjacent buildings. Nonetheless, the linear spring cannot resolve the energy dissipation during impact. The linear spring element illustrated in Figure 1.2.3(a).The Kelvin-Voigt ElementThe Kelvin-Voigt element can be described by a linear spring in parallel with a damper, as depicted in Figure 1.2.3(b), this model ha s been used in some studies 6 Anagnostopoulos, 1988 7 Anagnostopoulos and Spiliopoulos, 1992 8 Jankowski 2005 The linear spring illustrates the force during impact and the damper accounts for the energy dissipation during impact and is mostly used. The damping coefficient (ck) can be related to the coefficient of restitution (e), by equating the energy dissipations during impact, following the form of equations belowWhere, and Kk is the stiffness of the contact spring, and m1, m2 are the masses of the colliding bodies.Hertz contact lawAdditionally, a non linear spring based on Hertz contact law can be used to model impact, as depicted in Figure 1.2.3(c). Nonetheless, the Hertz contact law is a characteristic representing of the static contact between elastic bodies and fails to contain energy loss during impact. The impact force can be expressed in the form of the equation belowWhere R is the impact stiffness parameter that depends on the material properties of the colliding structu res and the contact surface geometry, g is the at-rest separation and n is the Hertz coefficient.The use of the Hertz contact law has an intuitive appeal in modelling pounding, since one would expect the contact area between the colliding structures to increase as the contact force increases, leading to a non-linear stiffness described by the Hertz coefficient n which typically is taken ad 1.5. Several analysts have adopted this approach, including 9 Davis 1992 10 Pantelides and Ma 1998 11 Chau and Wei 2001 and 3 Chau et al. 2003More, for pounding simulation we can also meet the Hertzdamp model, which is a contact model based on the Hertz contact law and using a non linear hysteresis damper. According to experimental theories, for low peak ground acceleration levels, Hertz model produces sufficing results and the Hertzdamp model can be used in advance for moderate and high peak ground acceleration levels (PGA).The contact element approach has its limitations, with the exact value of spring stiffness to be used, being unclear. Uncertainty in the impact stiffness arises from the unknown geometry of the impact surfaces, uncertain material properties under loading and variable impact velocities. The contact spring stiffness is typically taken as the in plane axial stiffness of the colliding structure (Maison and Kasai, 1990). Another reasonable estimate is twenty times the stiffness of the stiffer structure 6 Anagnostopoulos, 1988 However, using a very stiff spring can lead to numerical convergence difficulties and unrealistically high impact forces. The solution difficulties arise from the large changes in stiffness upon impact or contact loss, thus resulting in large unbalanced forces affecting the stability of the assembled equations of motion.(a) Linear spring element(b) Kelvin Voigt Element(c) Hertz non-linear spring elementFigure 1.2.3 Various impact models and their contact force relations 12 Thomas G.Mezger 20061.3 Method of Seismic Analysis1.3.1 Non-linea r Dynamic AnalysisNon-linear Dynamic analysis involves step-by step in time integration of the non-linear governing equations of motion, a powerful analysis that can evaluate any given seismic event motion. An earthquake accelerogram is correlated and the consistent response-history of a structural model during seismic events is evaluated. Computer softwares have been designed for these kinds of purposes. Sap can utilized a non-linear dynamic analysis for both linear elastic and non-linear inelastic material response, using step by step integration methods. Is a suitable computer program that is able to evaluate and analyze the response of a two-dimensional and a three-dimensional non-linear structure taking as an input the accelerogram component of an Earthquake? This program will be used to analyse our structural model and to produce a real time of time-history displacement. In a nonlinear dynamic procedure the building model followed static procedures incorporating directly the i nelastic material response using in general finite elements. Because this program is using step-by step integration method of analysis the response of the structure, is one of the most sophisticated analysis procedure for predicting forces and displacements under seismic input. However, the calculated response can be very sensitive to the characteristics of the individual ground motion used as seismic input therefore several time-history analyses are required using different ground motion records. The main value of nonlinear dynamic procedures has the objective to simulate the behaviour of a building structure in detail.1.4 Main Objectives of this projectThe main focus of this project is the development of an analytical model that pounding force will present based on the classical impact theory by using parametric study to identify the most important parameters that affecting pounding. Those factors that give arise to that impact force, therefore investigate of the different practic al types of structures that pounding can be occurred. The main objective and scope of this study are, to explore the global response of buildings structures when the pounding effects take place under seismic events, therefore to review the main outcomes of the literature and how the impact theory come across to the practical cases. Create a structural modelling and perform a non linear time history analysis on it. Examine the realistic model of pounding that we will create if it satisfies the properties in order for the structure to work. Determine the relative importance of the dynamic characteristics of pounding.Dynamic analysis will be carried out on the model structure to observe the displacement of the structure due to earthquake excitation. When we examine the main structure we are mainly concerned with displacement, velocity and acceleration, the general dynamic behaviour of the structure under the action of dynamic loads such as earthquake lateral loads. For the purpose of t he project appropriate computer software will be used for its purposes (e.g. SAP2000). Creation and versatile of the model, accomplishment of the analysis, and checking and breakthrough of the design must be all done through this interface. Graphical displays of the results, including the real-time of time-history displacements will be easily produced by the use of that software.At the end of that modelling analysis by gathering all the necessary and useful outcomes and explored in deep the main parameters derived by this, the conclusion and results of what we have to adopt as engineering before retrofitting a structure. The appropriate structural parameters are the separation gap size between adjacent structures (storey mass, structural stiffness and yield strength etc.), the dynamic behaviour of a damped multi-degree of freedom bridge system separated by an expansion joint, considering the limited width of clearance around a seismically isolated buildings, that pounding can cause high over stresses when the colliding buildings have different height, periods or masses and the isolators in bridge structures are effective in mitigating the induced seismic forces, cable restrainers etc.Engineers should adopt those realistic facts before they construct new structures in order to succeed future sustainability of the structures and avoiding by this the impact phenomenon of pounding. Accomplish to mitigate the phenomenon of pounding in order to prevent future collisions and/or engineering disasters when seismic events occur.REVIEW OF LITERATURE2.1 Practical CasesPounding-impact force generated by earthquakes between different analytical structure models may provoke extensive damage and in general most of the times the result of that force is not pleasant, it may lead the structure to a total collision as it can be seen from different practical cases. Pounding problem is phenomenon that has been observed during earthquakes and in accordance to ground motions, and has been extensively investigated by various researchers that have used a variety of impact analytical models. Because of the importance of what pounding will have as a result of different engineering structures, attracted the attention of several scientists and analyzers? This absorption is a consequence fact of a plenty growing amount of evidence, which can be found in reports and journals, which have been created after dominant exceeding earthquakes. Demonstrating, the power of that certain impact force which may cause considerable damage. The conclusions and results of successive series of various numerical, integrated analytical and experimental studies have been conducted using individual structural models and administering different models of practical cases confirm that pounding, due to constraining additional impact forces, may result in damage as well as significantly increase the structural response.Moreover, there are many practical case histories of engineered buildings wi th different dynamic properties and characteristics, which have been constructed under the old earthquake resistant design codes. Analogous conditions concern also bridge constructions. When a structure is under earthquake vibrations will move according to ground motions. These vibrations can be entirely exaggerated, creating at the same time stresses and deformations throughout the structure. Evaluation of methods can be carry out in engineering practise to estimate the parameters that give a rise to pounding. The accuracy and the ability of computational appliance have increased a lot this century by helping us evaluate the seismic structural response of structure, a variety of softwares computing programs have been designed for those purposes, and can accomplished to calculate the dynamic seismic response of a structure which help engineers mitigate pounding effects in structure by avoiding future disasters . Linear and nonlinear models are realistic pounding models that have bee n used for studying the performance of a structural system under the mode of structural pounding effect under seismic events. Significance to notice in seismically active areas the serious hazard that pounding can cause and in what practical cases does it occurs by review of some critical and enlightened journals and reports, according to history performance of an exceeding major earthquakes. Also a time history analysis is a dynamic tool for the investigation of a structural seismic enforcement. Because of all the above reasons, investigations have been carried out on pounding mitigation in order to improve the seismic response.2.1.1 Linear and non-linear pounding of structural systemsPantellides and Ma 13 examined by experimental procedures, the dynamic response of a damped single degree-of-freedom structural model during a seismic event. They analysed the structural behaviour of SDF with both elastic and inelastic structural impact response by using realistic parameters for the p ounding model in numerical calculations of the earthquake response. The method of analysis that they used can be used to examine pounding in both buildings and bridges. In order to accomplished to evaluate the effects that concerning pounding force during earthquake in structures, they made a comparison between linear and non-linear models. In the non-linear pounding model they produced results that showed the one-sided pounding model produces more dangerous effects than the two-sided. In their analysis they derived a mathematical equation that concerns the impact force effects in order to represent pounding model for both elastic and inelastic structures.A realistic pounding element was used for this studying and numerical simulations have demonstrated that pounding impact behaviour is not responsive to the values of the stiffness parameter. Furthermore, their experimental results for both elastic and inelastic structures in order to balance damping levels have showed that the high er deformation occurred in the elastic model. According to some observations that have been made the values of pounding force is relatively small in the inelastic structures in comparison to the elastic structures. The value codes of moderate the damping levels are controlled as compared to the actual seismic separation gap size found through the analysis of SDF structural model. The value of seismic gap is decreased considerably as the damping capacity of the pounding structural model is increased.Jankowski 14, addressed to an extent of a non-linear modelling due of earthquake that generated pounding of structural buildings, by deriving the essential fundamental mathematical expressions, involving the function and the applications of the non-linear analysis. By analysing various earthquake records, he derived appropriate mathematical expressions showing the limitation and the feasibility of a non-linear model, in anticipating values for a seismic pounding gap size as well as values for mass, elastic stiffness and damping coefficients between buildings. In his analysis of two inadequately separated buildings with different dynamic characteristics, modelled by elastoplastic multi-degree-of-freedom lumped mass models are used to simulate the functioning structural behaviour and non-linear viscoelastic impact specificity elements are applied to a model collision. The results of the study demonstrate that pounding has an indicative impact on the behaviour of structural buildings, and furthermore the results that he derived confirm the performance of the non-linear, viscoelastic model which endures to simulate the pounding phenomenon more accurately.2.1.2 Seismic Pounding Effects between adjacent buildingsIn these last decades, the pounding phenomenon between closely spaced building structures can be a serious hazard especially in seismically active areas with strong ground motion. Because of that critical fact a beneficial awareness of pounding response on enginee r structures and numerical formulas for calculating building separation gap size based on linear or analogous linear methods have been introduced.Abdel Raheem 14 established and achieved a tool for the inelastic analysis of seismic pounding effect between buildings. He carried out a parametric study on buildings pounding response as well as proper seismic hazard mitigation practice for adjacent buildings. Three categories of recorded earthquake excitation were used for input. He studied the effect of impact using linear and nonlinear contact force model for different separation distances and compared with nominal model without pounding consideration. Therefore the results of these studies lean on the stimulation characteristics and the relationship between the buildings fundamental period. Furthermore because pounding produces acceleration and shear in various story levels that are greater than those from the no pounding case.Westermo 16 suggested, in order improving the earthquake response of structures without adequate in-between space of the structures, to linking buildings by beams, which can carry the forces between the structures and thus annihilating collisions. Anagnostopoulos 6 analysed the effect of pounding for buildings under strong ground motions by a simplified single-degree-of-freedom (SDOF) model. Miller and Fatemi 17 explored in to an extent the phenomenon of pounding-impact force, of adjacent buildings subjected to harmonic motions by the vibroimpact concept. Maison and Kasai 18 modelled the buildings as multiple-degree-of-freedom systems and analysed the response of structural pounding with different types of idealizations. Papadrakakis et al. 19 studied the pounding response of two or more close separated buildings based on the Lagrange multiplier approach by which the geometric compatibility conditions due to proximity are constrained. A three-dimensional model developed for the simulation of the pounding behaviour of adjacent buildings is presented by Papadrakakis et al. 20. In the evaluation of building separation, Jeng et al. 18 estimated the minimum separation distance required to avoid pounding of adjacent buildings by the spectral difference (SPD) method. Kasai et al. 4 extended Jengs results and proposed a simplified rule to predict the inelastic vibration phase of buildings based on the numerical results of dynamic time-history analyses.Anagnostopoulos and Spiliopoulos 7 examined the behaviour of common pounding between adjacent buildings in city blocks to several strong earthquakes. In the study, the buildings were idealized as lumped-mass, shear beam type, multi-degree-of-freedom (MDOF) systems with bilinear force deformation characteristics and with bases supported on translational and rocking spring dashpots. Collisions between adjacent masses can occur at any level and are simulated by means of viscoelastic impact elements. They used five real earthquake motions to study the effects of the following fact ors building configuration and relative size, seismic separation distance and impact element properties. It was found that pounding can cause high over stresses, mainly when the colliding buildings have significantly different heights, periods or masses. They suggest a possibility for introducing a set of conditions into the codes, combined with some special measures, as an alternative to the seismic separation requirement.Figure 2.1.2-2 on the left there is a finite element mathematical model and on the right shows the elevation view of a 2 different height building with the separation gap size 14 Abdel Raheem 20062.1.3 SEISMIC POUNDING EFFECT AND RESTRAINERS ON SEISMIC RESPONCE OF MULTIPLE-FRAME BRIDGESDesRoches and Muthukumar 22 used analytical illustrations to check out, the factors and the parameters affecting the worldwide reaction and behaviour of a multiple-frame bridge as a result of pounding of adjacent frames. They have conducted parameter studies of one-sided and two-sid ed pounding, to dispose the effects of frame stiffness ratio, ground motion characteristics, frame yielding, and restrainers on the pounding behaviour of bridge frames. They showed that the addition of restrainers has a minor effect on the one-sided pounding response of highly out-of-phase frames. It is determined that the most important parameters are the frame period ratio and the characteristic period of the ground motion. The current study explores the effect that pounding impact-force and restrainers have on the worldwide appeal of bridge frames in a multi-frame bridge. They used investigations of two-sided pounding using MDOF models, which showed a favourable post impact response for the flexible frame and a detrimental effect for the stiff frame demand, for all period ratios. The results from both one-sided and two-sided impact reveal that the response of bridge frames due to pounding, irrespective of the ground motion period ratio, thus validating the recommendations suggest ed by Caltrans. Current recommendations by Caltrans for limitations in frame period ratios to reduce the effects of pounding are evaluated through an example case. The effect of restrainers on the pounding response of bridge frames is evaluated. The results show that restrainers have very little effect on the demands on bridge frames compared with pounding.2.1.4 GIRDER POUNDING ON BRIDGESHao and Chouw 23 introduced a new design principle for anticipating