建筑学专业英语

1．The client's needs and desires must be the starting point in planning, as the house will be for him. Some of the factors involved are simple and need no explanation, while others are more complex and will be discussed.客户的需求和心愿必须首先考虑，因为房子是为他设计的。

有一些方面是简单的，不需要解释，然而有一些是复杂的，需要讨论的。

2.Since the 1990s, China has obviously speeded up its steps to open the architectural field to the outside world. That is fully testified by its extensive adoption of the competition mechanism, introducing international bidding for some important constructions. As a result, visions of domestic architects have been expanded, their mentality updated, and a number of prominent masterworks created.自1990年代以来,中国明显加快步伐向外界开放建筑领域。

通过广泛采用竞争机制说充分证实，为一些重要建筑物引入国际招标。

因而，国内的建筑师视野开放了，他们的心态提升了，并且创造了一些杰出的作品。

3.The first step in the development of the floor plan is to determine the approximate area requirements of the client, and to separate them into the three basic areas of a house:sleeping area, living area, and working area.建筑平面图发展的第一步是按照客户的要求决定大概的范围，并且把它分离成三个基础区域：睡眠区、生活区和工作区。

建筑学专业英语建筑学是一门广受欢迎的学科，涵盖了建筑设计、结构工程、材料科学等方面的知识。

对于那些热爱建筑并希望在这个领域取得成功的人来说，学习建筑学专业英语是非常重要的。

本文将探讨建筑学专业英语的重要性以及如何提高学习效果。

首先，掌握建筑学专业英语对于建筑师来说至关重要。

建筑师需要与客户、供应商和其他专业人员进行沟通和合作。

没有良好的英语沟通能力，建筑师可能会面临与他人交流困难的问题，这可能会导致误解和错误。

因此，学习建筑学专业英语可以帮助建筑师更好地表达和理解各种建筑概念和设计原则。

其次，建筑学专业英语还能够为建筑师提供更广阔的发展机会。

在当今全球化的社会中，建筑师需要具备跨文化交流的能力。

通过学习建筑学专业英语，建筑师能够与来自不同文化背景的人进行合作，并获得更多的国际项目机会。

此外，具备良好的英语能力还可以帮助建筑师参与国际性的建筑竞赛和展览，扩大自己的知名度和影响力。

那么如何提高建筑学专业英语的学习效果呢？首先，建议学生在课堂上积极参与讨论和演讲。

通过与同学和教师的交流，可以提高自己的口语表达能力和听力理解能力。

同时，可以参加一些建筑论坛和研讨会，与其他建筑专业人士进行交流和分享经验。

其次，建议使用专业英语教材和学习资源。

建筑学领域有许多专业词汇和概念，通过学习专业英语教材，可以系统地掌握这些知识。

此外，还可以使用互联网上提供的建筑学术论文和资料，积累更多的专业词汇和知识。

此外，建议参观建筑相关的展览和作品。

在实际建筑环境中观察和体验，可以帮助学生更好地理解建筑概念和设计原则。

通过观察和研究建筑作品，可以加深对建筑学专业英语的理解和运用。

最后，建议进行实践项目。

通过参与实际的建筑项目，学生可以将所学的建筑学专业英语应用到实践中。

与客户和供应商的交流过程中，可以提高自己的沟通能力和解决问题的能力。

同时，通过实际项目的参与，可以提高自己的综合素质和实践能力。

总之，建筑学专业英语对于建筑师来说具有重要的意义。

翻译一The environmental crisis and sustainable developmentIt has been suggested that the publication of Silent Spring by Rachel Carson in 1962 was the start of the modern environmental movement (Dobson, 1991). However, the roots of environmentalism may be muchdeeper. Farmer (1996) has traced the development of ‘Green Sensibility’ in architecture back to folk buildings and the cult of the cottage through the nineteenth century in the writings of Ruskin, the work of the Arts and Crafts movement to the twentieth century and the organic ideas inModern Architecture. The planning profession could also cite its list of planners with green credentials. Amongst these father figures of the planning world would be Geddes (1949), Howard and the Garden City Movement (1965), and Mumford (1938) with his analysis of the ‘Rise and Fall of Megalopolis’. No doubt other disciplines could legitimately cite their own lists of people with deep concerns for the environment, many of them working long before the term ‘sustainable development’was coined. While it is not the intention to downgrade these fine scholarly traditions, nevertheless, for the purpose of this study,and for convenience, the beginnings of the modern environmental movement will be placed in the 1960s. The mood of environmentalism quickened with Rachel Carson’s analysis of the inevitable damage caused by large-scale and indiscriminate use of chemical pesticides, fungicides and herbicides. Carson’s influence was widespread, affecting pressure groups such as Friends of the Earth, in addition to the stimulus she gave to the development of green politics and philosophy. From the USA, Ian McHarg, the Scottish e´migre´, published his seminal work Design with Nature in 1969, seven years after Carson’s warning cry. McHarg’s ecological thesis spans the disciplines of landscape, architecture and planning: he is one of the founding fathers of sustainable development.McHarg argued that human development should be planned in a manner that took full account of nature and natural processes. Design with Nature in addition to articulating a philosophical position also provided atechnique for landscape analysis and design using overlays, a technique which now forms the basis of GIS, Geographic Information Systems, an important tool for current planning and design. While McHarg was writing in the 1960s, the thrust of his argument still applies today in the twenty-first century. ‘It is their (the merchant’s)ethos, with our consent, that sustains th e slumlord and the land rapist, the polluters of rivers and atmosphere. In the name of profit they pre-empt the seashore and sterilize the landscape, fell the great forests, fill protective marshes, build cynically in the flood plain. It is the claim of convenience – or – its illusion – that drives the expressway through neighbourhoods, homes and priceless parks, a taximeter of indifferent greed’.Small is Beautiful by Schumacher (1974) is another milestone in the analysis of the causes of environmental problems and in the development of green principles. One cause of environmental problems according to Schumacher is the notion that we can continue to produce and consume atever-increasing rates in a finite planet. Schumacher warned that the planet which is our stock of capital is being threatened by overproduction: in effect, the human race is consuming its capital at an alarming rate, endangering the tolerance margins of nature, and so threatening the life support systemsthat nurture humankind. A further landmark in green analysis was ‘The Trage dy of the Commons’ (Hardin, 1977). Hardin argued that if everyone maximized his or her own gain from commonly held property, whetherland, sea or air (the commons), the result would be the destruction of those commons. Where populations are comparatively small the ‘commons’ are not under great threat. With rising world populations, the commons now under threat include the air we breathe, the ozone layer that protects us from the sun’s rays, and the ecological systems that deal with the waste we cause. How far The Limits to Growth (Meadows et al., 1972) for the Club of Rome’s Project on ‘The Predicament of Mankind’ progressed the aims of the environmental movement is problematical. It attempted to plot the depletion of resources and to warn of the danger of exponential growth, to the ultimate destruction of a global environment fit for human occupation. The book has been described as mechanistic and non-scientific. It has also been criticized for overstating the case, therefore damaging the environmental or green cause. To some extent these criticisms have been addressed in Beyond the Limits (Meadows et al., 1992). The Limits to Growth did attempt, however, to study some aspects of the global environment holistically, concentrating on linkages and adopting a systems approach to environmental analysis, all being common features of a ‘green method’.THE ‘SKEPTICAL ENVIRONMENTALIST’The publication by Lomborg, in Danish, of his book, Verdens Sande Tilstand (1998) –later translated into English as The Skeptical Environmentalist (2001) – was a further landmark in the environmental debate. Acc ording to Lomborg’s assessment, conditions on earth are generally improving for human welfare: furthermore, future prospects are not nearly as gloomy as environmental scientists predict. Those working in the field of sustainable deve lopment cannot ignore Lomborg’s thought-provoking analysis, even though most reputable environmental scientists have rebutted his complacent view of the global environment (see Bongaarts, Holdren, Lovejoy and Schneidr in Scientific American, January, 2002). Like Meadows in his Limits to Growth, Lomborg may have overstated his case. Unfortunately, his thesis has given credence to the views of those advocating an environmental ‘free for all’, par ticularly those to the right of American poli tics (see ‘Bush bending science to his p olitical needs’; Guardian, 19th February, 2004).翻译二POPULATIONAn important contributory factor affecting the deterioration of the environment is population growth. According to Bongaarts (2002), Lomborg’s assertion that the number of pe ople on this planet is not ‘the problem’, is simply wrong. The population of the planet was approximately 0.5 billion in the mid-seventeenth century. It was then growing at approximately 0.3 per cent per annum, which represented a doubling of population every 250 years. By the beginning of the twentieth century, the population was 1.6 billion but growing at 0.5 per cent per annum, which corresponds to a doubling time of 140 years. In 1970, the global population was 3.6 billion, with a growth rate of 2.1 per cent per annum. Not only was the population growing exponentially but the rate of growth was increasing. From 1971 to 2000 the population grew to about 6 billion, but the growth rate fell to 1.5 per cent per annum. This change in population growth rate is a significant improvement and means a reduction in the rate at which total world population grows. The population growth rate is expected to fall further to about 0.8 per cent per annum by 2030. Despite this fall in population growth rate, the absolute growth will remain nearly as high as levels in the last decades of the twentieth century, simply because the population base rate keeps expanding: the global population is expected to be about 8 billion by 2030 and to reach about 10 billion by 2050. These global figures mask details of unprecedented demographic change, which are highly significant for the impact they may have on the environment. The world’s poorest nations of Africa, Asia and Latin America have rapidly growing and young populations, while in the wealthy nations of Europe, North America and Japan, population growth is zero or in some cases negative. By 2030, over 85 per cent of the world’s population will live in these poorer nations of the developing world. Three- quarters of global population growth occurs in the urban centres of these poorer nations, and half of this increase is by natural growth within cities. This urban growth in, and rural-urban migration to, the cities of the poor ‘South’ is occurring in a context of far higher absolute population growth, at extremely low income levels, very little institutional and financial capacity, and few opportunities to expand into new frontiers, foreign or domestic. ‘While urban poverty exists and is indeed growing in all cities of the world, it characterizes aspects of the rapidly growing cities of the developing countries. There, urban poverty disproportionately affects women and children; fuels ethnic and racial tensions; and condemns large sections, and sometimes the majority of urban dwellers to a downward spiral of marginalization, social and economic exclusion and unhealthy living environments’(United Nations, Habitat, 2001). Over 1 billion people live in absolute poverty, living on less than $1 per day. A total of 420 million people live in countries that no longer have enough cropland on which to grow their own food, and 500 million people live in regions prone to chronic drought: by 2025, this number is likely to be 2.4 to 3.5 billion people. Clearly, population pressures will induce migratory movements throughout the world, so that in Europe – including Britain –we can expect to see a continuing influx of economic migrants: some – but not all –in this country would see this immigration of young economically active people as essential to sustain our aging population (Observer, 25 January, 2004). Suchpopulation movements will not be without conflict.‘Poverty and environmental degradation are closely interrelated. While poverty results in environmental stress, the major cause of environmental deterioration is an unsustainable pattern of consumption and production, particularly in the industrialised countries, which aggravates poverty and imbalances’ (UN, 1992b). The cause of the problem does not lie in the poor South, but in the ‘over-consumption’in the rich North: over-consumption being a euphemism for the much shorter and more accurate word ‘greed’, as used by McHarg. Nevertheless, a reduction in population growth rates through education and family planning is of great importance in establishing a sustainable future for humankind: alone, however, it is insufficient. It is worth noting that one child born in Europe or the USA will usethe same resources and be responsible for using the same energy and producing the same waste as perhaps thirty or forty born in less advantaged countries. The problems are ‘increasingly international, global and potentially more life-threatening than in the past’ (Pearce, 1989). Fifteen years on from the time when Pearce wrote those words, global conditions have, if anything, deteriorated. The development of a global environment of quality, in addition to the reduction in population growth in the Developing World, is dependent upon establishing sustainable patterns of consumption and production in the Developed World, which in part is related to the way in which we build and use cities.FOOD PRODUCTIONBarring catastrophe, the global population over the next thirty years will grow from 6 billion to 8 billion people. Most of this growth will be in cities of the Developing World. Bongaarts (2002) believes that the demand for feeding this extra population, will be a g reat challenge: ‘The ability of agriculturists to meet this challenge remains uncertain’. He goes on to say that, ‘. . . the technological optimists are probably correct in claiming that the overall food production can be increased substantially over the next few decades’. This agricultural expansion will be costly. The expansion will probably take place on soils of poor quality, located in places less favourable for irrigation, than existing intensively farmed land. Water – as we read constantly in our daily newspapers – is in increasingly short supply, while its demand grows not only for purposes of irrigation.翻译三CLIMATE CHANGEMost weeks we read in the press, that climate change is upon us and that matters can only get worse. The re is even a ‘suspicion abroad’ that conditions are worse than we think. Recently, official pronouncements reported in the press added to the concern: they have led to headlines such as: ‘End of the World is nigh –it’s official’; ‘Human race is killing the planet says Meacher’; and ‘Risk to the environment poses the same dangers as terror, wa rns Blair’ (The Guardian, March 2003). Scientists are, however, more circumspect. As Pearce pointed out as far back as 1989, ‘. . . there is uncertainty about the nature and effect of these changes to climate. For example, there is uncertainty about the exact trace gas emissions which will enter the atmosphere and the precise fuel mix which will be used in the future. There is also uncertainty about the nature and extent of the ecological changes which will be brought about by pollution; in particular, there is uncertainty about the ways in which the climate will respond, either at a global or in a regional context. There is also uncertainty about environmental thresholds–that is, points at which an environmental catastrophe occurs or where particular processes cannot be reversed. Above all, there is great uncertainty about the ways in which man will respond to any changes to the environment that may occur. Human response to a real or perceived environmental threat may be part of a natural adaptation process and include responses at a personal, institutional or governmental level. The response may range from the small-scale installation in the home of more thermal insulation to a process of mass migration from areas of drought or flooding’. More recently, Schneider (2002) also stressed the uncertainty surrounding the whole vexed question of climate change:‘Uncertainties so infuse the issue of climate change that it is impossible to rule out either mild or catastrophic outcomes’. Temperatures in 2100 may increase by 1.4 degrees Celsius or by 5.8 degrees. The first would mean relatively easy adaptable change: the larger figure would induce very damaging changes. The most creditable international assessment body in this field, The Intergovernmental Panel on Climate Change (IPCC) endorse this range of possibilities so that we could be lucky and see a mild effect or unlucky and get catastrophic outcomes. Since a large body of the scientific community believe that climate change in part is due to human activities, a reasonable behaviour would be for humankind to take preventative measures. As Schneider (2002) points out, ‘It is precisely because the responsible scientific community cannot rule out such catastrophic outcomes at a high level of confidence that climate mitigation policies are seriously proposed.’ U ntil the Scientific community, acting on its research findings, advises otherwise, it would seem prudent to propose development strategies, which reduce, as far as possible, the pressures on a fragile global environment. Here it is intended to continue to advocate ‘the precautionary pri nciple’ as a guide for environmental design: this principle is fundamental to the theory of sustainable development, which advocates a cautious approach to the use of environmental resources, particularly those which result in the pollution of the atmosphere with greenhouse gases.SUSTAINABLE DEVELOPMENTThere seems to be widespread agreement that solving global problems means the adoption of policies and programmes that lead to sustainable development. Sustainable development, however, has many different meanings (Pearce, 1989). The shades of meaning given to sustainable development closely mirror –or perhaps match – the writer’s intellectual or emotional position along the spectrum of green philosophy. There is also a great danger that the concept will become meaningless, or simply be used as another wordy panacea instead of action for dealing with the environmental ills that befall the planet. The pursuit of a sustainable future for the human race in an environment of quality will require the design of effective policies and programmes which directly address the related problems of unsustainable activities and environmental degradation; they must also be politically acceptable in the jurisdiction where they are proposed. If these policies and programmes are grouped beneath the generic term ‘sustainable development’, then that term must have a generally accepted meaning which does not reduce it to an anodyne instrument for political obfuscation. A generally accepted definition of sustainable development, and a good point to begin an exploration of this concept, is taken from the Brundtland Report:‘Sustainable development is development that meets the needs of the present generation without compromising the ability of future generations to meet their own needs’ (World Commission on Environment and Development, 1987). This definition contains three key ideas: development, needs, and future generations. According to Blowers (1993), development should not be confused with growth. Growth is a physical or quantitative expansion of the economic system, while development is a qualitative concept: it is concerned with cultural, social and economic progress. The term ‘needs’ introduces the ideas of distribution of resources: ‘meeting the basic needs of all and extending to all the opportunity to satisfy their aspirations for a better life’ (World Commission on Environment and Development, 1987). These are fine sentiments, but in reality the world’s poor are unable to achieve their basic needs of life, while the more affluent effectively pursue their aspirations, many luxuries being defined by such groups as needs. There will naturally be environmental costs if the standards of the wealthy are maintained while at the same time meeting the basic needs of the poor. These environmental costs, furthermore, will increase dramatically if the living conditions in developing countries improve, let alone if the aspiration is to bring those conditions in line with the more affluent developed world. A choice may be inevitable: meeting needs therefore is a political, moral and ethical issue. It concerns the redistribution of resources both within and between nations.翻译四SUSTAINABLE DEVELOPMENT: OFFICIAL RESPONSESSustainable development was placed on the political agenda in 1987 with the publication of Our Common Future: The Brundtland Report (World Commission on Environment and Development, 1987). In Britain, the Government commissioned a report by Pearce et al. (1989) called Blueprint for a Green Economy. Pearce suggested ways in which the constraints could be introduced into the economic system of the United Kingdom. Later, the Government published a White Paper called This Common Inheritance, B ritain’s Environmental Strategy(Department of the Environment, 1990). While full of fine sentiment, the White Paper paid little attention to the argument developed in the Pearce Report. Consequently, no new lead was given in this policy area. The environmental movement was given a European dimension when the European Commission published its Green Paper on the Urban Environment (Commission for the Economic Communities, 1990). The early 1990s in Britain saw the publication of a number of official documents addressing environmental issues. Development Plans: A Good Practice Guide (Department of the Environment, 1992a) has a section on Environmental Issues which attempts to show how concerns about environmental issues can be reflected in a Development Plan. It discusses: ‘achieving a balance between economic growth, technological development and environmental considerations’. It does not attempt to define the point of balance, nor does it enter the thorny argument about development versus growth. The section on energy goes a little further, incorporating some of the ideas on energy-efficient urban form that appear in Energy Conscious Planning (Owens, 1991), a report prepared for the Council for the Protection of Rural England, 1992 saw the publication of Planning Pollution and Waste Management, which formed the basis of planning guidance (Department of the Environment, 1992b), while in 1993 Reducing Transport Emissions Through Planning was published: this was a document prepared jointly by the Department of the Environment and the Department of Transport (1993a). The document states that: In recognition of the problem of global warming the UK Government has signed the Climate Change Convention. This calls for measures to reduce CO2 emissions to 1990 levels by 2000. If the transport sector is to contribute to this reduction, there are three mechanisms through which this could be achieved:(1) Through reductions in overall travel demand;(2) Through encouraging the use of more emissions-efficient modes of travel; and(3) Through changes in the emissions efficiency of transport.Item (1) is simply advocating more energy-efficient urban form, and item (3) is also without political pain –it is the straightforward suggestion to improve transport technology. Item (2) was – and still remains – the area with the greatest potential for short-term reduction in CO2 emissions.This course of action, however, causes the most difficulty for a conservative Government with a prejudice in favour of the road lobby and a propensity to support a roads solution to transport problems.Favoring public transport rather than support for the building of more roads has proved equally problematic for the present Labour Government. Item (2) in essencemeans the development of an efficient, cheap and effective integrated public transport system. The development of such a public transport system means the transfer of resources from the car user to those who use public transport. The transfer of resources may take two forms. First, it may mean higher costs for the motorist in terms of petrol prices, road taxes and road pricing: this will make motoring more costly. Second, the transfer of resources takes the more direct form of the development of costly public transport infrastructure at the expense of road improvements. Competition between our political parties means that no Government, of whatever political persuasion, can afford to alienate too many voters. Most of us living in Britain own a car: we use it daily and with it we conduct a long and tender love affair. How many voters in ‘Middle England’ will gladly accept the undoubted pain accompanying any restriction in car use? One simple and effective way in which the car user in this country was asked to pay for the environmental damage caused by too much petrol consumption was through the mechanism of the ‘price accelerator’: this was introduced by the last Conservative Government in the mid-1990s as a clever procedure to increase the price of petrol annually at each budget by an amount in excess of inflation. The Labour Government of 1997 accepted the ‘accelerator’, but as a policy it floundered with the threatened‘petrol strike’ and the blockading of petrol stations in 1999. The Conservative opposition Party denounced the ‘accelerator policy’of the Government, despite having introduced it during their period in office. The public anger about petrol prices threatened the Gove rnment’s commanding lead in the polls, which caused a re-think of a perfectly reasonable, environmentally friendly, petrol- taxing policy. The Labour Government’s declared moratorium on road building soon after coming to power in 1997 has taken a setback with recent announcements for further motorway-widening and other major road-building projects. For those who believe that it is impossible to build your way out of the present traffic chaos these announcements, along with transport plans, appear to weaken the resolve to tackle the apparently intractable problem of strategic transport. The introduction of road pricing in London however – and its apparent success – has made it more likely that this innovation will be introduced more widely throughout the country. A Framework for Local Sustainability (1993) was a response by UK local government to the UK Government’s first strategy for sustainable development. The report was prepared by the Local Government Management Board setting a framework for considering Local Agenda 21 for the United Kingdom: it built upon Agenda 21 signed by 178 nations (including the UK) at the United Nations Conference on Environmental Development, Rio de Janeiro in 1992. It is closer to the Brundtland report than earlier documents originating in the UK, discussing equity in these terms: ‘Fairness to people now living must accompany sustainabi lity’s concern for fairness to future generations’.翻译五POLITICS AND SUSTAINABLE DEVELOPMENTThe meaning of ‘sustainable development’ is largely determined by an individual’s ideological viewpoint. The present Labour Government in this country – and its Conservative predecessor, along with many major parties in Europe, on discovering the environment as a political issue –would consider itself steward rather than master. This vi ew of man’s relationship to the environment and the difficulties the world community faces is shared by the United Nations, the European Union and most of the scientific community, including many in the city planning and design professions. The stewardship perspective is the one that, in the main, has been presented so far in this chapter. It represents the views of those who believe that environmental problems can be solved within the present political and economic system. It is not the only viewpoint. Dobson (1990) distinguishes two diametrically opposed views on sustainability and the environment. The establishment viewpoint he l abels ‘green’ with a lower-case‘g’, while those who believe that sustainability depends on the system being fundamentally changed he describes as ‘Green’ with a capital ‘G’. The literature on the topic however, would indicate a spectrum of greens rather than a strict dichotomy: the ideology of all those shades along the spectrum of greenness is determined by their attitude to the environment. The ‘Green’ ideology or ‘ecologism’ takes The Limit s to Growth (Meadows, 1972) as an axiom: ‘Greens will ad mit that the report’s estimates as to the likely life expectancy of various resources are over-pessimistic and they will agree that the Club of Rome’s worl d computer models were crude, but they will subsc ribe to the report’s conclusion that the days of uncontrolled growth . . . are numbered’ (Dobson, 1991). Green ideology also questions the current dominant paradigm with its foundation in The Enlightenment, science, technology and the objective of rational analysis (Capra, 1985). The Gree n’s world view removes man from centre stage: Green politics explicitly seeks to decentre the human being, question mechanistic science and its technological consequences, to refuse to believe that the world was made for human beings –and it does this because it has been led to wonder whether dominant post-industrial ism’s project of material affluence is either desirable or sustainable. (Dobson, 1990) Ecologism goes beyond human- instrumental or paternalistic care for the natural world, and argues that the environment has an independent value that should guarantee its existence. Green ideology puts forward the idea that a new paradigm is necessary for solving the problems now faced by mankind. Such a paradigm should be based upon holism –a systems view of the world –and interconnectedness rather than the present mechanistic and reductionist view of nature. Two most interesting books – Greening Cities, edited by Roelofs (1996) and Design for Sustainability by Birkeland et al. (2002) – move the tone and content of the discussion of design for sustainable development along the spectrum of greens from the paler tints associated with the establishment view towards the full-bodied saturated hue of Green associated with ‘Eco-f eminism’: ‘Feminist theory delves into the reasons for this marginalisation of people and nature in environmental design. Feminists . . . have explained how physical and social space is shaped by dichotomies in Western thought. Mind, reason, spirit order, public and permanence have been。

建筑学专业英语翻译概述：本文档提供了建筑学专业中常用的英语术语的翻译，以帮助学生在研究和研究过程中更好地理解相关内容。

内容：1. 基础概念：- 建筑学 - architecture- 结构 - structure- 设计 - design- 施工 - construction- 建筑材料 - building materials2. 建筑元素：- 地基 - foundation- 地板 - floor- 墙体 - wall- 窗户 - window- 门 - door- 屋顶 - roof- 楼梯 - stairs3. 常用房间：- 卧室 - bedroom- 客厅 - living room- 厨房 - kitchen- 浴室 - bathroom- 书房 - study room- 阳台 - balcony4. 建筑样式：- 古典建筑 - classical architecture - 现代建筑 - modern architecture - 摩天大楼 - skyscraper- 山墙建筑 - vernacular architecture5. 建筑工程管理：- 施工图 - construction drawings- 预算 - budget- 进度管理 - schedule management- 资源分配 - resource allocation- 质量控制 - quality control6. 建筑法规：- 建筑许可证 - building permit- 建筑规划 - building regulations- 环评 - environmental impact assessment7. 建筑项目类型：- 住宅 - residential- 教育 - educational- 医疗 - healthcare- 文化 - cultural- 娱乐 - entertainment结论：本文档提供了建筑学专业英语翻译的参考，有助于学生更好地理解和应用相关术语。

建筑工程专业英语词汇1建筑工程专业英语词汇 1英语小札 2009-12-03 10:22:00 阅读49 评论0 字号：大中小订阅建设,建筑,修建 to build, to construct建筑学 architecture修筑,建筑物 building房子 house摩天大楼 skyscraper公寓楼 block of flats (美作:apartment block)纪念碑 monument宫殿 palace庙宇 temple皇宫,教堂 basilica大教堂 cathedral教堂 church塔,塔楼 tower十层办公大楼 ten-storey office block柱 column柱列 colonnade拱 arch市政 town planning (美作:city planning)营建许可证,建筑开工许可证 building permission绿地 greenbelt建筑物的三面图 elevation设计图 plan比例尺 scale预制 to prefabricate挖土,掘土 excavation基 foundations, base, subgrade打地基 to lay the foundations砌好的砖列 course of bricks脚手架 scaffold, scaffolding质量合格证书 certification of fitness原材料 raw material底板 bottom plate垫层 cushion侧壁 sidewall中心线 center line条形基础 strip footing附件 accessories型钢 profile steel钢板 steel plate熔渣 slag飞溅 welding spatter定位焊 tacking引弧 generating of arc熄弧 quenching of arc焊道 welding bead坡口 beveled edges外观检查 visual inspection重皮 double-skin水平方向弧度 radian in horizontal direction 成型 molding直线度 straightness accuracy焊缝角变形 welding line angular distortion 水平度 levelness铅垂度 verticality翘曲变形 buckling deformation角尺 angle square对接焊缝 butt weld母材 parent metal法兰密封面 flange sealing surface夹层 interlayer表面锈蚀浓度 surface corrosion concentration挠曲变 bending deformation超声波探伤 ultrasonic testing/ ultrasonic examination 压力容器 pressure vessel预制下料 prefabrication baiting排版直径 set-type diameter焊缝 welding line中幅板 center plate测量方法 measuring method基准点 datum mark跳焊 skip welding允许偏差 allowable variation补强板 stiffening plate开孔 tapping对接接头 banjo fixing butt jointing角钢 angle iron安装基准圆 installation fundamental circle吊装立柱 hoisting upright column焊接钢管 welded steel pipe向心斜拉筋 centripetal canting pull rope带板 band plate槽钢胀圈 channel steel expansion ring环口 collar extension局部变形 local distortion环缝 circumferential weld顶板 top plate拱顶 vault顶板加强肋 stiffening rib对接 butt joint胎具 clamping fixture卷板机 plate bending rolls中心支架 center bearing bracket椭圆度 ovality等分线 bisectrix搭接宽度 lap width点焊 spot welding搭接焊 overlap welding对称 symmetrically螺旋爬梯 cockle stairs放料阀 baiting valve液位计 content gauge芬兰维萨拉 Vailsla OY美国美科 "Met-coil, USA"集中式空调系统 centralized air conditioning system 裙房 annex热源 heat source平面位置的空间 space of planimetric position密封性能 sealing performance机房 machine room节点 timing专业 "profession or discipline 都可以,要根据上下文"连体法兰 coupling flange垂直井笼 vertical well cage变风量 variable air rate施工面展开 construction unfolds违约行为 noncompliance合同交底- contract presentation管理承包商 Management Contractor party工程量 work amount实施的形象进度 progress of implementation完工资料 as-built documentation文整 clear-up审核 review汽车式起重机 Autocrane深化图纸 deepen drawing设备配置计划 equipment furnishment plan结构预埋配合阶段 Structure pre-embedment assistance stage精装修阶段 Fine fitment stage工程施工阶段 Construction stage工程竣工阶段 Completion stage台钻 Bench drill冲击钻 Churn drill手电钻 Electric portable drill砂轮切割机 Abrasive cutting off machine角钢卷圆机 Angle iron rolling machine管道切断器 Pipe cutting machine铜管调直机 Copper pipe straightening machine管道压槽机 Book joint setting machine for pipes管道压槽机 Book joint setting machine for pipes角向磨光机 Angle polishing machine电动套丝机 Electric threading machine电动卷扬机 Electric winch电动试压泵 Motor-driven pressure test pump手动试压泵 Manual pressure test pump阀门试压机 Valve pressure test device阀门试压机 Valve pressure test deviceTDC(F)风管加工流水线 TDC(F)air ductwork fabrication stream line等离子切割机 Plasma cutting machineTDC(F)法兰条成型机 TDC(F) flange strip shaping mill勾码成型机 Forming machine for flange clampTDC(F)风管加工成型机 TDC(F) duct fabrication shaping mill 多普勒超声波流量检测仪 Doppler ultrasonic flow detector 温、湿度传感器 "Temperature, humidity senor"精密声级计 Precision sound level meter风管漏风量测试仪、风室式漏风测试装置 "Duct air leakage tester, airchamber air leakage testing device"风罩式风量测试仪 Air hood air rate tester微压计、毕托管、热球（电）风速仪 "Micromanometer , pitot tube, hot bulb(electrical) anemoscope"潜水泵 Submerged pump电动弯管机 Electric pipe bender铜管弯管机 Copper pipe bender液压弯管机 Hydraulic pipe bender电动剪刀 Electric clipper液压铆钉钳 Hydraulic riveting clamp线槽电锯 Trunking electric saw开孔器 Tapper电动空压机 Electric air compressor液压千斤顶 Hydraulic jack液压手推车 Hydraulic trolley焊条烘干箱 Welding rod drying box手拉葫芦 Chain block道（垫）木 Sleeper转速表 Tachometer电流钳型表 Clip-style ammeter压力表 Pressure gauge接地电阻测试仪 Earthing resistance testing device 氧气表 Oxygen gauge乙炔表 Acetylene gauge对讲机 Walkie talkie文件和资料 documents and information?建设单位 Construction unit安装单位 Installation unit二、道路工程英语词汇桥梁 bridge公路干道 highway工程工程学 engineering公路工程 highway engineering路基 roadbase路面 pavement构造物建造构成制造 construct施工（名） construction试验室 laboratory现场检测 field test（名）试验检验（不）进行试验 experiment试验检测测量 test质量上流社会的 quality合格，取得资格 qualify材料 material沥青柏油以沥青铺（一般指沥青路）asphalt沥青（指原材料） bitumen沥青的 bituminous沥青混合料 bituminous mixture混凝土 concrete钢筋混凝土 RC (reinforced concrete)信誉信用贷款 credit进度快慢 tempo计划 plan评定 evaluation检查（名）检验 inspection标准水准规格标准的合格的 standard技术性的工业的 technical技术技巧技术的工艺的专门的 technic水泥 cement碎石路碎石路 macadam砂砾碎石砂砾层 gravel钢筋 reinforcing steel bar或reinfored steel 石石头石场石的石制的 stone检查员 inspector测量（名） measuring测量（及）检测（及）勘测测绘（名）survey 设备仪器装置 device申请 application铺路工人 paver经理 manager加强 reinforce（被加强的 reinforced ）sign 签字署名通知list 表名册目录列举tabulation 制表列表表格mapping 绘图制图camera 照相机photo 照片给。

英语专业术语大全以下是一份常用的英语专业术语大全，涵盖了不同领域的专业术语：1. Accounting - 会计学2. Advertising - 广告学3. Anthropology - 人类学4. Architecture - 建筑学5. Biology - 生物学6. Business administration - 企业管理7. Chemistry - 化学8. Computer science - 计算机科学9. Economics - 经济学10. Education - 教育学11. Engineering - 工程学12. Finance - 金融学13. Graphic design - 平面设计14. History - 历史学15. Hospitality management - 酒店管理16. Human resources - 人力资源17. Information technology - 信息技术18. International relations - 国际关系19. Journalism - 新闻学20. Law - 法律学21. Linguistics - 语言学22. Marketing - 市场营销23. Mathematics - 数学24. Medicine - 医学25. Music - 音乐学26. Nursing - 护理学27. Philosophy - 哲学28. Physics - 物理学29. Political science - 政治学30. Psychology - 心理学31. Public administration - 公共管理32. Sociology - 社会学33. Statistics - 统计学34. Tourism - 旅游学35. Visual arts - 视觉艺术以上是一些常见的英语专业术语，希望对您有帮助。

英语作为全球通用语言，在建筑领域也有着广泛应用。

掌握建筑相关的英文词汇，对于建筑师、工程师、设计师等专业人士来说，是非常重要的。

本文将介绍一些常见的建筑领域的英文单词，以帮助读者更好地理解、学习建筑领域的英语术语。

1.Building（建筑物） A structure with a roof and walls standing moreor less permanently in one place.2.Architecture（建筑学） The art or practice of designing andconstructing buildings.3.Construction（建筑施工） The process of building or assembling astructure.4.Foundation（基础） The lowest part of a building, typically belowground level, that provides support and stability.5.Floor（楼层） A level of a building, typically divided horizontally intorooms.6.Wall（墙） A vertical structure that divides or encloses an area.7.Roof（屋顶） The top covering of a building that protects it fromweather conditions.8.Door（门） A movable barrier used to close off an entrance or exit.9.Window（窗户） An opening in a wall or roof that allows light and airto enter a building.10.Staircase（楼梯） A series of steps that allows people to movebetween floors in a building.11.Balcony（阳台） An elevated platform projecting from the wall of abuilding, typically with a balustrade or railing.12.Column（柱子） A vertical structural member that supports weightand provides stability to a building.13.Beam（梁） A long, horizontal structural member that carries loadsacross open spaces.14.Ceiling（天花板） The upper interior surface of a room.15.Facade（正面） The front of a building, typically the most visuallyimpressive side.16.Floor plan（平面图） A scale diagram of the arrangement of rooms ina building as viewed from above.17.Blueprint（蓝图） A detailed plan or drawing that outlines the designand construction of a building.18.Architecture style（建筑风格） The distinctive characteristics of abuilding design, often associated with a particular time period or culture.19.Skylight（天窗） A window installed in a roof or ceiling to allownatural light to enter a building.20.Façade（外观） The exterior face or front of a building.以上是建筑领域中一些常见的英文单词。