英语毕业论文的文献看你写什么方向,都是根据题目写文献综述。开始我也不懂,还是师姐给的莫文网,高手就是效率高啊创新艺体生大学英语教学理念研究——基于多元互动智能理论对美英报刊教材编纂的几点思考ESP理论视阈下的大学英语翻译教学新韩剧、新受众、新传播:解读新“韩流”跨文化背景下央视英语新闻节目发展定位分析汉民族植物意象道德内涵的跨文化阐释新时期莫斯科外语教育特色研究跨文化视角下重构英语本土化身份多维-互动理论模式指导下的大学英语听力教学探析英语专业内容依托课程体系改革的影响及其启示功能对等视角下的公示语翻译多元文化背景下大学英语教学培养学生跨文化交际能力的策略探析文化语境对商务英语概念隐喻翻译的制约跨文化意识与英语教师教育摭论英语翻译实践中的文化欠缺和文化建构跨文化传播力概念的新审视生态视域下民族地区教师专业发展松散的连结:物的社会生命史不同民族语言所蕴涵文化意象对比——以词汇语义为例从文化生态视角反思高职学生的“中国文化失语”现象高校大学英语文化教学实践的问题与对策大学英语口语课堂上的情感集中型活动探究谈高等教育国际化给高职英语教学带来的机遇与挑战认知框架制约下的高等学校英语应用能力考试研究论日语专业学生非语言交际能力的培养从英语原声电影观赏看英语教学
持续性交际法对商务英语学习者口语和能力提高的研究分析商务英语中模糊语言的应用及其语用分析从功能对等角度看商务英语翻译基于学生需求分析的商务英语专业英语课程设置研究英语商务付款信函中言语行为的语用策略研究合作学习理论在商务英语谈判课堂中的应用研究商务英语对话中的会话含义研究基于体裁分析的教学法在商务英语信函作教学中的应用中职校电子商务专业英语课程模式的调查研究商务英语教学中跨文化交际能力的培养成人商务英语教学中学生自主学习能力的培养商务英语作中介语错误分析的研究功能对等理论视角下的商务英语翻译商务英语网络课件的评估:TMM个案研究商务英语中复合形容词的研究图式理论在商务英语口译中的应用英语商务谈判中模糊语的顺应论阐释语域理论与英语商务合同汉译关联理论在商务英语阅读教学中的应用商务谈判英语的人际意义研究基于体裁的商务英语阅读教学研究英语商务报告的语体分析商务英语阅读策略和词汇策略相关性研究教师反馈对提高商务英语作准确性作用的研究功能加忠诚模式对商务英语翻译的启示商务英语信函的词汇特点研究商务英语词汇的一词多义现象研究剑桥商务英语证书考试中句子填空的衔接分析论任务型教学法在商务英语作教学中的运用商务英语报忧类信函的人际意义研究商务英语电子邮件的体裁特征研究商务英语信函翻译的语用充实策略任务型语言教学在中等职业学校商务英语中的应用研究跨文化情境下商务英语口译研究基于文化图式理论下的商务英语翻译教学研究迁移理论在大学商务英语口语中的应用研究商务英语中带连字符复合形容词的认知研究关联顺应模式下的商务英语翻译
结论是对文章的总结概括,是作者对所研究课题进行的总体性讨论,具有严密的科学性和客观性,反映本研究课题的价值,同时对以后的研究具有指导意义。结论与序言遥相呼应,因为序言部分介绍了本课题的研究目的,那么结论要告诉读者这些目的是否达到,在研究中做了哪些工作,取得了什么结果,这些结果说明了什么问题,有何价值和意义,研究过程中存在或发现了哪些问题,原因是什 么,建议如何解决等。五方面可以阐释一下:(1) 概括说明本课题的研究内容、结果及其意义与价值。(2) 比较具体地说明本研究证明了什么假设或理论,得出了什么结论,研究结果有何实用价值,有何创造性成果或见解,解决了什么实际问题,有何应用前景等。(3) 与他人的相关研究进行比较。(4) 本课题的局限性、不足之处,还有哪些尚待解决的问题。(5)展望前景,或指出进一步研究的方向。在上面五项内容中,第一、二项是必不可少的。第三、四、五项内容可以根据需要而定。
你可以去找别人的参考文献看看呀,中文的可以看看汉斯出版社的,英文的可以去看看科研出版社的
1.撰写毕业论文是检验学生在校学习成果的重要措施,也是提高教学质量的重要环节。大学生在毕业前都必须完成毕业论文的撰写任务。申请学位必须提交相应的学位论文,经答辩通过后,方可取得学位。可以这么说,毕业论文是结束大学学习生活走向社会的一个中介和桥梁。毕业论文是大学生才华的第一次显露,是向祖国和人民所交的一份有份量的答卷,是投身社会主义现代化建设事业的报到书。一篇毕业论文虽然不能全面地反映出一个人的才华,也不一定能对社会直接带来巨大的效益,对专业产生开拓性的影响。实践证明,撰写毕业论文是提高教学质量的重要环节,是保证出好人才的重要措施。2.通过撰写毕业论文,提高写作水平是干部队伍“四化”建设的需要。党中央要求,为了适应现代化建设的需要,领导班子成员应当逐步实现“革命化、年轻化、知识化、专业化”。这个“四化”的要求,也包含了对干部写作能力和写作水平的要求。3.提高大学生的写作水平是社会主义物质文明和精神文明建设的需要。在新的历史时期,无论是提高全族的科学文化水平,掌握现代科技知识和科学管理方法,还是培养社会主义新人,都要求我们的干部具有较高的写作能力。在经济建设中,作为领导人员和机关的办事人员,要写指示、通知、总结、调查报告等应用文;要写说明书、广告、解说词等说明文;还要写科学论文、经济评论等议论文。在当今信息社会中,信息对于加快经济发展速度,取得良好的经济效益发挥着愈来愈大的作用。写作是以语言文字为信号,是传达信息的方式。信息的来源、信息的收集、信息的储存、整理、传播等等都离不开写作。
英国毕业论文的写作时每位英国留学生都要经历,留学生们想要自己的毕业论文不挂科拿到基本的分数对于英国毕业论文写作的格式就要十分的注意了。下面为大家简要分析一下英国毕业论文写作的格式大家一定要看仔细了。 一、开头部分。主要包括封面、英文题名页、摘要、关键词、目录、插图、和附表目录、必要时还有略缩词。题名要以最恰当、最简明的词语反映论文中最重要的特定内容的逻辑组合,避免不常用的略缩词、首字母缩写字等。摘要是论文内容不加注释和评论的简单陈述,关键词每篇论文选取3-8个次,以显著的字符另起一行。论文中的图表如果较多,可以分别列出并置于目次页之后。 二、正文主题部分。主要包括正文、结论、参考文献。关于字体与间距的设置,论文的正文部分的字体Times New Roman小四号,单倍行距。参考文献即Reference用Times New Roman3号,居中加粗;参考书目的序号如[1]形式等。 三、附录。主要包括必要的各种附录,如发表文章、参与项目、实验数据等。各种附表(包括导师的评语表、答辩委员会评语表)要收录其中。 四、结尾部分。主要包括索引和封底。 留学生们想要自己的英国毕业论文能及格,就要把写作格式这个最基础的要求最好,否则你连写作格式都出错又怎么可能拿到高分呢? 留学生们如果在论文写作上遇到了什么困难可以来找英国智酷论文辅导公司。
结论有总结和小结之分。内容包括主要的结果、结论、数据,目的在于阐明本文的成果和理论。而总结的内容和篇幅较小结为多,多用于综述或讨论类文稿之后,起着概括主题的作用。从内容上说需将全文已论述的问题再扼要概括一遍,是最终的总体的概括,也可写建议、对策、设想,或提出研究中发现的尚待解决的问题内容:本文主要内容的简括说明,重点显示创新成果及其理论意义与实用价值(小结)。或:扼要点明本研究工作与其他文献报道的异同之处, 突出本研究的领先性。 又或:就讨论的结论,提出解决问题的办法或建议。 简述本研究存在的缺欠,需进一步研究的问题,下一步打算。换句话说,结论应是整篇论文的结局,而不是某一局部问题或某一分支问题的结论,也不是正文中各段的小结的简单重复。结论应当体现作者更深层的认识,且是从全篇论文的全部材料出发,经过推理、判断、归纳等逻辑分析过程而得到的新的学术总观念、总见解结论应该准确、完整、明确、精练。该部分的写作内容一般应包括以下几个方面:①本文研 2究结果说明了什么问题;②对前人有关的看法作了哪些修正、补充、发展、证实或否定。③本文研究的不足之处或遗留未予解决的问题,以及对解决这些问题的可能的关键点和方向。英国智酷为你解答
conclusion是总结,写你研究的发现,建议和研究的有限性。conclusion里面的建议可以一带而过,但implication里面的建议就要细写了。
那么英国硕士毕业论文conclusion到底该怎么写?
和其他的文章一样。谢谢研究价值,对现代人的启示。现实意义之类
所谓综述扼要摘要重述英文两种写种文综述用英文直译种文综述意思进行意译第种照本宣科第二种重新编织管哪种两种版本意思应该致
OSF您好我是一名刚毕业走向社会的研究生,现在在一家单位实习,我当初的课题是在网上一个叫做“90硕士网”上订制的,论文我非常满意老师评价也很高的。我算了一下我们班上有4个在他家订制了的,都通过了。所以你可以去订制啊。
文献综述是对某一方面的专题搜集大量情报资料后经综合分析而写成的一种学术论文,它是科学文献的一种。格式与写法文献综述的格式与一般研究性论文的格式有所不同。这是因为研究性的论文注重研究的方法和结果,特别是阳性结果,而文献综述要求向读者介绍与主题有关的详细资料、动态、进展、展望以及对以上方面的评述。因此文献综述的格式相对多样,但总的来说,一般都包含以下四部分:即前言、主题、总结和参考文献。撰写文献综述时可按这四部分拟写提纲,在根据提纲进行撰写工。前言部分,主要是说明写作的目的,介绍有关的概念及定义以及综述的范围,扼要说明有关主题的现状或争论焦点,使读者对全文要叙述的问题有一个初步的轮廓。主题部分,是综述的主体,其写法多样,没有固定的格式。可按年代顺序综述,也可按不同的问题进行综述,还可按不同的观点进行比较综述,不管用那一种格式综述,都要将所搜集到的文献资料归纳、整理及分析比较,阐明有关主题的历史背景、现状和发展方向,以及对这些问题的评述,主题部分应特别注意代表性强、具有科学性和创造性的文献引用和评述。总结部分,与研究性论文的小结有些类似,将全文主题进行扼要总结,对所综述的主题有研究的作者,最好能提出自己的见解。参考文献虽然放在文末,但却是文献综述的重要组成部分。因为它不仅表示对被引用文献作者的尊重及引用文献的依据,而且为读者深入探讨有关问题提供了文献查找线索。因此,应认真对待。参考文献的编排应条目清楚,查找方便,内容准确无误。关于参考文献的使用方法,录著项目及格式与研究论文相同,不再重复。
太长了,超过了10000字发不了。我这里先给你个英文的你加我QQ我给你中文的两部分不会弄,你加我QQ我发给你吧,加分啊395886292 <英文版> Talling building and Steel construction Although there have been many advancements in building construction technology in general. Spectacular archievements have been made in the design and construction of ultrahigh-rise buildings. The early development of high-rise buildings began with structural steel framing.Reinforced concrete and stressed-skin tube systems have since been economically and competitively used in a number of structures for both residential and commercial purposes.The high-rise buildings ranging from 50 to 110 stories that are being built all over the United States are the result of innovations and development of new structual systems. Greater height entails increased column and beam sizes to make buildings more rigid so that under wind load they will not sway beyond an acceptable limit.Excessive lateral sway may cause serious recurring damage to partitions,ceilings.and other architectural details. In addition,excessive sway may cause discomfort to the occupants of the building because their perception of such motion.Structural systems of reinforced concrete,as well as steel,take full advantage of inherent potential stiffness of the total building and therefore require additional stiffening to limit the sway. In a steel structure,for example,the economy can be defined in terms of the total average quantity of steel per square foot of floor area of the building.Curve A in Fig .1 represents the average unit weight of a conventional frame with increasing numbers of stories. Curve B represents the average steel weight if the frame is protected from all lateral loads. The gap between the upper boundary and the lower boundary represents the premium for height for the traditional column-and-beam frame.Structural engineers have developed structural systems with a view to eliminating this premium. Systems in steel. Tall buildings in steel developed as a result of several types of structural innovations. The innovations have been applied to the construction of both office and apartment buildings. Frame with rigid belt trusses. In order to tie the exterior columns of a frame structure to the interior vertical trusses,a system of rigid belt trusses at mid-height and at the top of the building may be used. A good example of this system is the First Wisconsin Bank Building(1974) in Milwaukee. Framed tube. The maximum efficiency of the total structure of a tall building, for both strength and stiffness,to resist wind load can be achieved only if all column element can be connected to each other in such a way that the entire building acts as a hollow tube or rigid box in projecting out of the ground. This particular structural system was probably used for the first time in the 43-story reinforced concrete DeWitt Chestnut Apartment Building in Chicago. The most significant use of this system is in the twin structural steel towers of the 110-story World Trade Center building in New York Column-diagonal truss tube. The exterior columns of a building can be spaced reasonably far apart and yet be made to work together as a tube by connecting them with diagonal members interesting at the centre line of the columns and beams. This simple yet extremely efficient system was used for the first time on the John Hancock Centre in Chicago, using as much steel as is normally needed for a traditional 40-story building. Bundled tube. With the continuing need for larger and taller buildings, the framed tube or the column-diagonal truss tube may be used in a bundled form to create larger tube envelopes while maintaining high efficiency. The 110-story Sears Roebuck Headquarters Building in Chicago has nine tube, bundled at the base of the building in three rows. Some of these individual tubes terminate at different heights of the building, demonstrating the unlimited architectural possibilities of this latest structural concept. The Sears tower, at a height of 1450 ft(442m), is the world’s tallest building. Stressed-skin tube system. The tube structural system was developed for improving the resistance to lateral forces (wind and earthquake) and the control of drift (lateral building movement ) in high-rise building. The stressed-skin tube takes the tube system a step further. The development of the stressed-skin tube utilizes the façade of the building as a structural element which acts with the framed tube, thus providing an efficient way of resisting lateral loads in high-rise buildings, and resulting in cost-effective column-free interior space with a high ratio of net to gross floor area. Because of the contribution of the stressed-skin façade, the framed members of the tube require less mass, and are thus lighter and less expensive. All the typical columns andspandrel beams are standard rolled shapes,minimizing the use and cost of special built-up members. The depth requirement for the perimeter spandrel beams is also reduced, and the need for upset beams above floors, which would encroach on valuable space, is minimized. The structural system has been used on the 54-story One Mellon Bank Center in Pittburgh. Systems in concrete. While tall buildings constructed of steel had an early start, development of tall buildings of reinforced concrete progressed at a fast enough rate to provide a competitive chanllenge to structural steel systems for both office and apartment buildings. Framed tube. As discussed above, the first framed tube concept for tall buildings was used for the 43-story DeWitt Chestnut Apartment Building. In this building ,exterior columns were spaced at 5.5ft (1.68m) centers, and interior columns were used as needed to support the 8-in . -thick (20-m) flat-plate concrete slabs. Tube in tube. Another system in reinforced concrete for office buildings combines the traditional shear wall construction with an exterior framed tube. The system consists of an outer framed tube of very closely spaced columns and an interior rigid shear wall tube enclosing the central service area. The system (Fig .2), known as the tube-in-tube system , made it possible to design the world’s present tallest (714ft or 218m)lightweight concrete building ( the 52-story One Shell Plaza Building in Houston) for the unit price of a traditional shear wall structure of only 35 stories. Systems combining both concrete and steel have also been developed, an examle of which is the composite system developed by skidmore, Owings &Merril in which an exterior closely spaced framed tube in concrete envelops an interior steel framing, thereby combining the advantages of both reinforced concrete and structural steel systems. The 52-story One Shell Square Building in New Orleans is based on this system. Steel construction refers to a broad range of building construction in which steel plays the leading role. Most steel construction consists of large-scale buildings or engineering works, with the steel generally in the form of beams, girders, bars, plates, and other members shaped through the hot-rolled process. Despite the increased use of other materials, steel construction remained a major outlet for the steel industries of the U.S, U.K, U.S.S.R, Japan, West German, France, and other steel producers in the 1970s Early history. The history of steel construction begins paradoxically several decades before the introduction of the Bessemer and the Siemens-Martin (openj-hearth) processes made it possible to produce steel in quantities sufficient for structure use. Many of problems of steel construction were studied earlier in connection with iron construction, which began with the Coalbrookdale Bridge, built in cast iron over the Severn River in England in 1777. This and subsequent iron bridge work, in addition to the construction of steam boilers and iron ship hulls , spurred the development of techniques for fabricating, designing, and jioning. The advantages of iron over masonry lay in the much smaller amounts of material required. The truss form, based on the resistance of the triangle to deformation, long used in timber, was translated effectively into iron, with cast iron being used for compression members-i.e, those bearing the weight of direct loading-and wrought iron being used for tension members-i.e, those bearing the pull of suspended loading. The technique for passing iron, heated to the plastic state, between rolls to form flat and rounded bars, was developed as early as 1800;by 1819 angle irons were rolled; and in 1849 the first I beams, 17.7 feet (5.4m) long , were fabricated as roof girders for a Paris railroad station. Two years later Joseph Paxton of England built the Crystal Palace for the London Exposition of 1851. He is said to have conceived the idea of cage construction-using relatively slender iron beams as a skeleton for the glass walls of a large, open structure. Resistance to wind forces in the Crystal palace was provided by diagonal iron rods. Two feature are particularly important in the history of metal construction; first, the use of latticed girder, which are small trusses, a form first developed in timber bridges and other structures and translated into metal by Paxton ; and second, the joining of wrought-iron tension members and cast-iron compression members by means of rivets inserted while hot. In 1853 the first metal floor beams were rolled for the Cooper Union Building in New York. In the light of the principal market demand for iron beams at the time, it is not surprising that the Cooper Union beams closely resembled railroad rails. The development of the Bessemer and Siemens-Martin processes in the 1850s and 1860s suddenly open the way to the use of steel for structural purpose. Stronger than iron in both tension and compression ,the newly available metal was seized on by imaginative engineers, notably by those involved in building the great number of heavy railroad bridges then in demand in Britain, Europe, and the U.S. A notable example was the Eads Bridge, also known as the St. Louis Bridge, in St. Louis (1867-1874), in which tubular steel ribs were used to form arches with a span of more than 500ft (152.5m). In Britain, the Firth of Forth cantilever bridge (1883-90) employed tubular struts, some 12 ft (3.66m) in diameter and 350 ft (107m) long. Such bridges and other structures were important in leading to the development and enforcement of standards and codification of permissible design stresses. The lack of adequate theoretical knowledge, and even of an adequate basis for theoretical studies, limited the value of stress analysis during the early years of the 20th century,as iccasionally failures,such as that of a cantilever bridge in Quebec in 1907,revealed.But failures were rare in the metal-skeleton office buildings;the simplicity of their design proved highly practical even in the absence of sophisticated analysis techniques. Throughout the first third of the century, ordinary carbon steel, without any special alloy strengthening or hardening, was universally used. The possibilities inherent in metal construction for high-rise building was demonstrated to the world by the Paris Exposition of 1889.for which Alexandre-Gustave Eiffel, a leading French bridge engineer, erected an openwork metal tower 300m (984 ft) high. Not only was the height-more than double that of the Great Pyramid-remarkable, but the speed of erection and low cost were even more so, a small crew completed the work in a few months. The first skyscrapers. Meantime, in the United States another important development was taking place. In 1884-85 Maj. William Le Baron Jenney, a Chicago engineer , had designed the Home Insurance Building, ten stories high, with a metal skeleton. Jenney’s beams were of Bessemer steel, though his columns were cast iron. Cast iron lintels supporting masonry over window openings were, in turn, supported on the cast iron columns. Soild masonry court and party walls provided lateral support against wind loading. Within a decade the same type of construction had been used in more than 30 office buildings in Chicago and New York. Steel played a larger and larger role in these , with riveted connections for beams and columns, sometimes strengthened for wind bracing by overlaying gusset plates at the junction of vertical and horizontal members. Light masonry curtain walls, supported at each floor level, replaced the old heavy masonry curtain walls, supported at each floor level , replaced the oldheavy masonry. Though the new construction form was to remain centred almost entirely in America for several decade, its impact on the steel industry was worldwide. By the last years of the 19th century, the basic structural shapes-I beams up to 20 in. ( 0.508m) in depth and Z and T shapes of lesser proportions were readily available, to combine with plates of several widths and thicknesses to make efficient members of any required size and strength. In 1885 the heaviest structural shape produced through hot-rolling weighed less than 100 pounds (45 kilograms) per foot; decade by decade this figure rose until in the 1960s it exceeded 700 pounds (320 kilograms) per foot. Coincident with the introduction of structural steel came the introduction of the Otis electric elevator in 1889. The demonstration of a safe passenger elevator, together with that of a safe and economical steel construction method, sent building heights soaring. In New York the 286-ft (87.2-m) Flatiron Building of 1902 was surpassed in 1904 by the 375-ft (115-m) Times Building ( renamed the Allied Chemical Building) , the 468-ft (143-m) City Investing Company Building in Wall Street, the 612-ft (187-m) Singer Building (1908), the 700-ft (214-m) Metropolitan Tower (1909) and, in 1913, the 780-ft (232-m) Woolworth Building. The rapid increase in height and the height-to-width ratio brought problems. To limit street congestion, building setback design was prescribed. On the technical side, the problem of lateral support was studied. A diagonal bracing system, such as that used in the Eiffel Tower, was not architecturally desirable in offices relying on sunlight for illumination. The answer was found in greater reliance on the bending resistance of certain individual beams and columns strategically designed into the skeletn frame, together with a high degree of rigidity sought at the junction of the beams and columns. With today’s modern interior lighting systems, however, diagonal bracing against wind loads has returned; one notable example is the John Hancock Center in Chicago, where the external X-braces form a dramatic part of the structure’s façade. World War I brought an interruption to the boom in what had come to be called skyscrapers (the origin of the word is uncertain), but in the 1920s New York saw a resumption of the height race, culminating in the Empire State Building in the 1931. The Empire State’s 102 stories (1,250ft. [381m]) were to keep it established as the hightest building in the world for the next 40 years. Its speed of the erection demonstrated how thoroughly the new construction technique had been mastered. A depot across the bay at Bayonne, N.J., supplied the girders by lighter and truck on a schedule operated with millitary precision; nine derricks powerde by electric hoists lifted the girders to position; an industrial-railway setup moved steel and other material on each floor. Initial connections were made by bolting , closely followed by riveting, followed by masonry and finishing. The entire job was completed in one year and 45 days. The worldwide depression of the 1930s and World War II provided another interruption to steel construction development, but at the same time the introduction of welding to replace riveting provided an important advance. Joining of steel parts by metal are welding had been successfully achieved by the end of the 19th century and was used in emergency ship repairs during World War I, but its application to construction was limited until after World War II. Another advance in the same area had been the introduction of high-strength bolts to replace rivets in field connections. Since the close of World War II, research in Europe, the U.S., and Japan has greatly extended knowledge of the behavior of different types of structural steel under varying stresses, including those exceeding the yield point, making possible more refined and systematic analysis. This in turn has led to the adoption of more liberal design codes in most countries, more imaginative design made possible by so-called plastic design ?The introduction of the computer by short-cutting tedious paperwork, made further advances and savings possible.
In the past decade, the concept of a second-order or an advanced analysis has been described in various national design codes of practice such as the Load and Resistance Factor Design Specifi- cation for Structural Steel Buildings ( 1986 ) and the Australia standards ( AS4100 1990 ) . Unlike the 1inear analysis where checking of member strength against instability and second-order effect is carried out by the element design formulas in the codes, the second-order analysis automatically includes the effects of these nonlinear terms. As aresult of this, stress, allowing for the second- order P-δand P-△ effects,can be automatically computed and compared with the factored yield stress, or the design strength, in the analysis so that the empirical approach to amplify the moment due to a large change of geometry becomes unnecessary, resulting in much convenience and accuracy. In addition, the second-order and advanced analysis--including various linear and nonlinear terms for a more accurate computation of member forces and moments-provides a much more effective and accurate means of assessing the strength, stability, and serviceability of a structure and is expected to be widely accepted by the engineer, provided that an effective and robust analysis method is available This "integrated design and analysis approach "is aimed at using a sophisticated second-order analysis to design practical steel frames fulfilling the design code requirements. A literature survey shows that typical second-order analysis methods ignore many important characteristics and requirements for practical design, including the member initial imperfection and its direction, consistency between the linear and the nonlinear models due to the need to use several elements per member for a second-order analysis, and loads along members. The proposed method includes these terms so that it can be used to directly design real and practical steel frames fulfilling the advanced analysis requirement. 中文:过去十年中,二阶或高等分析的概念在各种国内设计规范中被描述,例如结构钢建筑负载和抗性因子设计规格( 1986 ) 和澳大利亚标准 ( AS4100 1990 ) 。不同于线性分析用规范中的元设计方程来执行构件强度反不稳定性和二阶效应的检查,二阶分析自动地包括这些非线性条件的效果。结果是应力允许二阶P-δ和P-△效应,可被自动地计算并与屈服应力或设计强度相比较,以便在分析中不再需要因几何形状的巨变而扩大力矩的经验方法,结果更方便、精确。此外,二阶与高等分析--包括更精确的构件力-力矩计算的各种线性和非线性条件,并提供更有效和更精确的结构强度、稳定性和适用性估计方法,可望被工程师广泛接受,提供一个有效的分析法是可行的。"综合设计和分析进展"针对使用复杂的二阶分析去实施规范需要的应用钢框架设计。一篇文献调查认为典型的二阶分析法忽视了许多重要的特性和实践设计需要,包括构件初始不完整性和它的方向,线性和非线性模型之间的一致性因为需要对每构件几个元件作二阶分析,和沿构件的负载。建议的方法包括这些条款以便它能直接用于实现高等分析要求的设计和应用钢框架。
土木工程专业的英文论文格式
导语:土木工程专业的英文的论文格式包括哪些内容呢?土木工程是建造各类工程设施的科学技术的统称。下面是我分享的土木工程专业的英文的论文格式,欢迎阅读!
土木工程专业的英文论文格式均以美国土木工程师协会出版社发布的标准格式为准。
英语论文用激光打印机打印,打印稿为黑白稿,彩色打印件会影响出版效果。
版心:a4纸,上、下页边距3.5 cm,左、右页边距均为3.25 mm。论文内容宽不得超过14.5cm, 长不得超过22.5cm。
字体和字号:正文,标题,作者联络信息和图表中的文字均为times new roman 12号字。可以跟据需要使用同类字体中的粗体,斜体。
行距:单倍行距。
页码: 论文正文和文后所附图例都需添加页码。页码为阿拉伯数字,位于页面下方居中。
文体: 文章应语法正确,技术用词准确。标题应该以最简洁的语言概括文章内容。如果标题较长,请采用title: subtitle的形式。
数学公式:文中的数学公式不得手写,必须打印。公式如果在文中多次被引用,应该编号。公式之间,公式和正文之间都应该空一行。 单位: 文中所用的度量衡单位应为国际单位。可在括号内,单位对应表中列出其他单位。有关国际单位的使用(standard practice for use of the international system of units)可以通过电话1-向asce索取。其他相关使用参考文献,如anmc metric editorial guide, 5th ed,1992 可向美国国家公制协会 索取(american national metric council, 1735n. lynn street, suite 950, arlington, va 22209-2022)
图表:
标题说明和图例:插入的图表应该以出现顺序编号(figure 1,figure 2,table 1,table 2)。图的说明和标题,包括图的序号应该位于图的下方。表的说明和标题,包括表的序号应该位于表格上方。
位置: 图可以插入到正文中,或者集中放在文章最后。如果在正文中插入图,尽量放在页面的.顶部或尾部。不要选择文字环绕图形的对齐方式,可选择上下环绕方式。
底纹: 插图中不要选择带阴影或底纹,否则会影响印刷效果。
照片:如果文中需要附上照片,在文中出现照片的地方贴上其黑白光面冲洗照片,标题说明位于照片下方。照片将和正文一起缩印,请不要提供彩色照片,以免影响印刷效果。
扫描图: 印刷后的扫描图不如原件清晰。如果文中有扫描图,请提供灰色色标扫描图。
作者联络信息:请用横线和正文隔开。联络信息可以为一位作者或所有作者的,包括以下内容:作者全名;所属学会;学历或授予的荣誉;所在单位;通讯地址和电子邮箱;电话和传真。
参考文献: 所有参考文献为单倍行距,放在文章最后,按照第一作者姓氏的字母顺序排列。如有同一作者的两篇以上文献,按出版年代先后排列。正文中引用参考文献时,作者和出版年代应该放入括号内。由于上标缩印后会变小,难于辨认,正文中不使用上标标注参考文献。所列出的参考文献应当在正文中都有所引用,如果正文中没有引用,请将文献列入文章最后的附加信息(additional information)部分,或者相关材料(related materials)部分。
1.《建筑结构制图标准》GB/T50105-2001
2.《建筑结构荷载规范》GB5009-2001(2006版)
3.《混凝土结构设计规范》GB50010-2002
4.《建筑地基基础设计规范》GB5007-2002
5.《砌体结构设计规范》GB5003-2001
6.《建筑抗震设计规范》GB5011-2001
7.《钢结构设计规范》GB50017-2003
8.《建筑结构构造资料》(合订本),中国建筑工业出版社,1998年。
9.《混凝土结构构造手册》,中国建筑工业出版社,2002年。
10.《地基基础设计手册》,上海科技出版社,1998年。
11.《混凝土结构设计手册》,中国建筑工业出版社,2002年。
12.《建筑结构静力计算手册》,中国建筑工业出版社,1999年
13.《建筑结构强制性国家标准》(简装本),中国建筑工业出版社,2001年9月
14. 任全宏、常建军.钢筋混凝土多层框架结构房屋结构设计中应注意的几个问题。陕西建筑2007,145(7).
15. 范俊梅. 钢筋混凝土多层框架结构设计问题分析. 科技资讯2008,3.
16. Basic Principles for Reinforced Concrete Structure Design
17.建筑、结构设计有关图集资料以及专业课程教材等。
这个人是直接在网上复制的!不是他写的!
是啊,你的主题是什么啊?不过我这有一篇,你看看行不行呢.....谈中医药院校英语专业复合型人才的培养摘要:综合院校英语专业复合型人才如何培养,在贯彻新的荚语专业教学大纲十年来的今天已成为一个热点议题。本文以全国九所中医药院校英语专业建设现状为依据,探讨复合型人才培养目前所实施的策略及所面临的问题,以期这一剖析能为全国中医药院校的英语专业人才培养提供借鉴.引言:十余年来,《高等学校英语专业英语教学大纲》在全国各类综合院校的英语专业办学过程中,已经得到不同程度的贯彻与实施。各校英语专业办学的成果既是目前回顾与研讨的依据,也是复合型外语人才培养向纵深方向发展的一个新的起点。本文以全国9所中医药院校英语专业建设现状为依据,探讨复合型人才培养目前所实施的策略及所面临的问题,以期这一剖析能为全国综合院校的英语专业人才培养提供借鉴。结论:2l世纪对外语教育的挑战是巨大的,但新世纪为外语教育提供的机遇也是巨大的。我国外语专业本科教育的改革迫在眉睫,这里不仅需要改革的热情和勇气,也需要有冷静的头脑和科学的精神。中医药院校的英语专业要根据社会的需求与自身所在校的资源优势,实事求是,因校制宜地确立自己的人才培养模式与复合专业,创出专业人才培养的特色,以热情、勇气、清醒的头脑和科学的态度去迎接挑战,去获取和享受机遇。------------------------------------------------------------------你看行不?
1、论文题目:要求准确、简练、醒目、新颖。2、目录:目录是论文中主要段落的简表。(短篇论文不必列目录)3、提要:是文章主要内容的摘录,要求短、精、完整。字数少可几十字,多不超过三百字为宜。4、关键词或主题词:关键词是从论文的题名、提要和正文中选取出来的,是对表述论文的中心内容有实质意义的词汇。关键词是用作机系统标引论文内容特征的词语,便于信息系统汇集,以供读者检索。 每篇论文一般选取3-8个词汇作为关键词,另起一行,排在“提要”的左下方。主题词是经过规范化的词,在确定主题词时,要对论文进行主题,依照标引和组配规则转换成主题词表中的规范词语。5、论文正文:(1)引言:引言又称前言、序言和导言,用在论文的开头。 引言一般要概括地写出作者意图,说明选题的目的和意义, 并指出论文写作的范围。引言要短小精悍、紧扣主题。〈2)论文正文:正文是论文的主体,正文应包括论点、论据、 论证过程和结论。主体部分包括以下内容:a.提出-论点;b.分析问题-论据和论证;c.解决问题-论证与步骤;d.结论。6、一篇论文的参考文献是将论文在和写作中可参考或引证的主要文献资料,列于论文的末尾。参考文献应另起一页,标注方式按《GB7714-87文后参考文献著录规则》进行。中文:标题--作者--出版物信息(版地、版者、版期):作者--标题--出版物信息所列参考文献的要求是:(1)所列参考文献应是正式出版物,以便读者考证。(2)所列举的参考文献要标明序号、著作或文章的标题、作者、出版物信息。
英语专业本科毕业论文模板
姓 名: 吕 仁 爱
系 别: 外语学院
专 业: 英 语
学 号: 00000000
指导教师: 赵 草 稿
20xx年5月
Thesis Writing Standard for English Major Undergraduates:With a Thesis Pattern
by
Lü Ren’ai
Shangqiu Normal University
May 20xx
摘 要
{摘要是论文的浓缩,应包括结论等内容,是完整的短文,具有独立性,可以单独使用。即使不看论文全文的内容,看摘要仍然可以理解论文的主要内容。切忌把导论(introduction)的内容作为摘要内容。在下段键入中文摘要内容,并用论文的关键词替换“关键词”后的词(删除多余的词)。如果需要输入顿号(、)、间隔号(·)、书名号(《》)、破折号(——)等标点符号,不会键入请从这里复制。中文摘要要求在200~300字。}
关键词:词1;词2;词3;词4;词5
Abstract
{英文摘要及关键词内容与中文内容完全一致。注意看懂附录部分标点符号部分的内容,不要用不规范的形式输入标点符号,更不要输入错误符号。在下段键入英文摘要内容并用论文的关键词替换“Key words”后的词(删除多余的词)。}
Key words: word 1; word 2; word 3; word 4; word 5
Contents
摘 要 I
Abstract II
Contents III
1 简介 1
2 电子版与纸质版 1
3 模板的使用 1
3.1 键入文本 2
3.2 应用格式 2
4 论文结构与写作要求 2
4.1 封面与题目 3
4.1.1 封面 3
4.1.2 题目 3
4.2 从摘要到目录 3
4.3 正文 3
4.3.1 总体要求 3
4.3.2 标题和层次 3
4.3.3 例句及其他列表项 4
4.3.4 脚注 4
4.3.5 引用标识与参考文献 4
4.3.6 附录(可选) 6
4.3.7 页眉 6
5 其他要求及注意事项 6
References 7
附录 标点符号的计算机输入 7
简介
{本科毕业论文是本科生毕业前的最后一个重要学习环节,是学习深化的重要过程。它既是学生学习、研究与实践成果的全面总结,又是对学生素质与能力的一次全面检验,也是申请学士学位的依据。论文写作是在前人研究的基础上提出自己的观点,严禁抄袭、剽窃。外语学院参照商丘师范学院本科毕业论文撰写规范,结合英语专业的实际情况,特制定本撰写规范兼论文模板,作为英语专业毕业论文写作的标准。本规范未尽事宜,在导师指导下自行处理。务必在仔细、完整地阅读本规范之后再开始写作论文。
考虑到软件可能存在问题,本规范的DOC版在显示时可能走样,附件1是本规范的PDF版本,其样式是标准样式。}
电子版与纸质版
{论文须提交初稿、二稿及终稿的电子版和纸质版。用Microsoft Word软件打开本规范的DOC版,以新文件名另存到自己存放毕业论文资料的文件夹,要求文件格式为DOC格式(Microsoft Word 1997~2003/XP版本的默认保存格式);2007及以后的版本的默认保存格式是DOCX,建议尽量使用较老版本的Microsoft Word,若使用新版,请确保保存格式为DOC。另存后,直接按照本规范的要求操作直到初稿完成;每一稿都先作另存的操作再开始修改。注意在整个论文写作期间都做好U盘与网络双备份工作。
纸质文件采用A4复印纸单面打印,左侧装订。提交的纸质论文必须与提交的电子版内容完全一样。如果在写论文时安装、使用了非系统自带字体(如国际音标字体),请随电子版提交该字体文件。}
模板的使用
{本规范的DOC格式电子文件是毕业论文的写作模板,提供论文写作所需样式,便于写作和修改,并对格式进行统一要求。下面对模板的使用作一简要说明。}
键入文本
{用花括号扩起来的内容是模板说明性内容,在初稿写作完毕后删除。把插字符打到正文任何一个段落(包括标题)末尾,按回车,即可键入论文内容。请仔细阅读附录,以便正确输入标点符号。}
应用格式
{本模板规定的格式有:[ 注意例子中的换行符(向下的直箭头)。想使编号段落的上下两行左对齐,需要换行而不分段,单击“插入”“分隔符”,选“换行符”,然后单击“确定”。]
a. 1标题1:用于一级标题;b. 1.1标题2:用于二级标题:c. 1.1.1标题3:用于三级标题:d. 正文不缩:用于一般正文段落;e. 正文左缩:用于独立成段的引文;f. 正文编号:用于按规定必须编号的段落;g. (1) 编号:用于按规定必须编号的段落;h. 参考文献:用于参考文献条目。
其中除了 (1f) 和 (1g) 要求必须用格式刷复制、粘贴格式(详见第4.3.3部分的说明),其他格式都必须从格式窗格中选。默认格式是“正文不缩”(本段使用的就是这种格式)。根据不同部分内容要求的要求按照下述方法应用格式,不能擅自更改或更换(可根据实际情况作字体倾斜等操作):把插字符打到某段,单击菜单栏里的“格式”,选“样式和格式”,在右边出现的格式窗格中单击所需格式即可。出现在格式窗格中但 (1) 中没列的格式不能随便应用。}
论文结构与写作要求
{论文必须包括外封面(中文封面)、内封面(英文封面)、中文摘要(附中文关键词)、英文摘要(附英文关键词)、目录、正文、参考文献。在参考文献之后可有附录。}
封面与题目
封面
{封面包括两个:外封面(中文封面)和内封面(英文封面),封面样式严格依照模版。}
题目
{用论文题目替换模板题目,不能改变格式。论文题目应该简短、明确、有概括性。中文字数不超过25个字,外文题目不超过15个实词,题目末不使用标点符号,中外文题名应一致。标题中尽量不用英文缩写词,必须采用时,应使用本行业通用缩写词。中英文标题均占一至两行。中文标题如有副标题,主副标题各占一行,副标题前加中文破折号;英文副标题不单独成行,与主标题之间用冒号(后加空格)隔开。英文题目用标题式大小写格式,由于标题式大小写没有统一的标准,本规范要求除了不位于主、副标题开头和结尾的冠词、介词(不论长短)、并列连词、动词不定式标志to等词,所有的词(包括复合词的连字符后的部分,但不包括像twenty-one这样的复合数词的连字符后面的部分)都大写。}
从摘要到目录
{具体要求见第I至III页。不要改动用罗马数字编号的页码部分的标题。}
正文
总体要求
{论文正文应包括引论、主体(主体至少分两大部分)及结论等部分,一共最少四部分,最多六部分。正文用英文写,拼写形式全文统一为英式或美式(直接引用时例外),不能英美式混杂。用阿拉伯数字编写页码的部分字数不少于3000字(英文单词)。}
标题和层次
{标题要求除了有编号、字号不同和不能有副标题这几点外,其他要求同论文英文题目。层次根据实际需要用两层或三层(即标题最多有两到三级),主体部分至少有一部分包含两层。可以直接替换本规范的标题(选定后不删除而直接键入),根据需要添加、删除标题。三层标题的格式分别采用“1标题1”、“1.1标题2”和“1.1.1标题3”。编号用的是Word的多级编号,在增删标题时编号会自动调整,无需手工调整。}
例句及其他列表项
{根据需要,例句、规则等尽量单独成段,统一编号,编号用 (1),(2),(3) ……的形式(顶格),全文从 (1) 开始统一连续编号(自动编号,增删编号段落后编号会自动调整),样式参照本规范的编号段落。该类段落的规定格式是“正文编号”;要求用格式刷从本规范的任何一个这类编号段落复制、粘贴格式,不要从格式窗格中选这类段落的样式。复制格式的方法是:把插字符打到任何一个此类已编号的段落中,单击“格式刷”按钮,然后再单击需要编号的段落。脚注中的例句编号用小写罗马数字i、ii、iii的形式,段落和文字格式不作特别要求。现再举例如下 (由于连续编号,故号码继续前面的 (1),是 (2) 和 (3)),作为翻译和对话类例句的参照格式:
John likes Mary.约翰喜欢玛丽。
A: Do you like apples?B: Yes.}
脚注
{对文中内容的注释采用脚注形式[ 注释分脚注和尾注两种主要形式,前者的内容位于每页下面,后者的内容位于文章末尾。本规范规定论文写作使用脚注,不使用尾注。把插字符打到正文中需要注释的地方,单击“插入”“引用”,在展开的子菜单中单击“脚注和尾注”,再单击“确定”,键入注释内容。本注释就是脚注的形式。],全文连续编号(自动调整编号)。}
引用标识与参考文献
{引文是论证的辅助手段,应忠于原意,准确切题。除非特别必要,不要引用非学术文献,如通俗读物等,尤其不要引用非专业人士(如名人或领袖)的话或观点作为自己观点的支撑(尽量避免诸如“Einstein says”、“Confucius claims”这样的话,如果确实有必要引用一定要详细注明出处)。根据情况用直接引语或间接引语的语法形式;直接引用文字超过四至六行字时,或诗歌超过两行时,应独立成段,应用“正文左缩”格式,下面是该格式的样式:
text texttext text text. (Zhang 2005, 88)
在论文中引用文献时,应加以标识,详细说明见附件2。引用的文献如果是用中文书写的,不能直接引用中文文本,必须将其意思用英文表达,一般用间接引语的.形式安排,在必要时可用直接引语的形式,在后面以加方括号,方括号内注明translation mine)。
参考文献直接反映论文的质量。要求在论文正文后的References下面列出在论文中引用或参考过的论文、专著及其他资料(采用“参考文献”格式),所有条目按照作者姓氏的字母顺序排列,不要编号。不能罗列文中没有引用的文献。文献条目应以与论文工作直接相关的近年的学术文献为主,包括期刊论文、博士学位论文、论文集里的文章、专著等;至少十条,且以期刊论文为主,近五年的文献占五条以上,发表在《中文核心期刊要目总览》收录的期刊上的论文占三条以上。
毕业论文的引用及参考文献体例以Chicago体例(Chicago Style)的作者—年代制(author-year system)为标准。附件2包含了该标准的主要内容,请尽量按该标准写作。请注意大小写、正斜体、空格、姓与名的相对顺序、缩写形式、标点符号等。特别注意连数符不是连字符(-),而是en dash(–),可从这里复制。下面把该标准的大小写和正斜体原则略述如下:
大小写:仅同名连续出版物(如期刊journal)的名称用标题式大写,其他的主副标题名称(包括书名)用句子式大写;
正斜体:广义的书名(包括期刊名等)用斜体,文章名(包括书的章节标题、学位论文标题)用正体。
中文文献,按照附件2第9、12页的红字的范例的样式,把汉字形式的文字转写成拉丁字母形式(注意ü不能用v代替),并把标题翻译成英文(置于方括号内)。其姓名与普通英文姓名一样处理,第一作者姓前名后,姓、名之间用逗号 + 空格隔开,非第一作者用名前姓后(不加逗号)的形式。}
附录(可选)
{不宜放在正文中但有重要参考价值的内容(如问卷、测试题等)可编入论文的附录中,位于参考文献之后。附录采用Appendix(只有一个)或Appendix A、Appendix B(两个以上)的形式,后面加两个空格再键入附录的标题,使用格式“1标题1”,删除标题前面的自动编号。}
页眉
{见第I页右上角的说明。}
其他要求及注意事项
{在写作时请注意以下几点:
除在直接引语中,尽量避免用缩略词(如isn’t, don’t, etc.等),尽量使用is not, do not, and others等形式。
罗马数字用西文字符,如i和ii,II和IV等(在英文输入状态下分别键入i、v、I、V等字母来组合),不要用中文字符ⅰ、ⅱ、ⅳ、Ⅰ、Ⅱ、Ⅳ等。
区别元语言与对象语言。用英文写作,元语言是英文,对象语言是谈到的语言成份,可能是英文,也可能是其他语言,如英文字母、语素、词、短语、句子等。如果对象语言的文字是拉丁字母形式(如英文、法文、德文等),一律用不加引号的斜体字(编号例句除外),保留字母上面的两点等附加符号。在写非翻译研究类论文时,非拉丁字母文字(如日文、中文)一般应转写成拉丁字母形式,用不加引号的斜体字;在非用汉字不可的情况下(区别歧义、说明字型等)在拉丁字母形式的字词(斜体)后跟相应汉字(楷书、正体)或日文假名等字符;汉语无特殊情况其拉丁化标准一律采用汉语拼音(本规范要求词内无空格,词间有空格,略去调号),注意ü不能用v代替。翻译研究类文章可不转写成拉丁字母形式而直接使用汉字例句(用不加引号的正体字)。用单引号而不是双引号表各种意思,尤其是词(句)的语义解释(双引号作一般引用或强调时使用,双引号内再用引号时用单引号)。下面几个例子可以说明对象语言的处理方式和单引号的用法:the Chinese word heiban ‘blackboard’ is a compound; similarly, the English word blackboard is also a compound;hongcha means ‘black tea’;the letter a;the suffix -ful;the sentence John hates Mary;the articles the, a, an。注意在最后一个例子中,第一个定冠词属于元语言,不用斜体,第二个定冠词和两个不定冠词是对象语言,用斜体,属于对象语言的三个词之间的逗号属于元语言,用正体。}
References
{此标题不要改动。条目格式见第4.3.5部分的要求,下面提供参考文献条目的样式:
附录 标点符号的计算机输入
{在Word中,中文标点符号在设计时留好了空位,在打字时不要人工键入空格,但英文标点符号往往需要人工键入空格。英文词右标点符号(逗号、句号、冒号、分号、问号、惊叹号、右括号、右引号等)左不空格,右边与相邻的单词间空一格;词左标点符号(左括号、左引号等)左边与相邻的单词间空一格,右边不加空格;相邻的同侧标点符号之间不加空格,相邻的异侧标点符号之间都加空格。在一个词内部的所有标点符号(包括连字符、撇号等),都不与空格连用(空格是用来把词与词分开的)。注意英文没有顿号和书名号,用逗号体现中文顿号的功能,用斜体体现书名号的功能。
由于某些英文标点符号的使用存在不同标准,本规范作如下要求。破折号用Times New Roman的em dash(—),左右都不加空格,数字间的连数符用Times New Roman的en dash(–),左右都不加空格。如果不会键入可从此处复制。省略号用三个句点,相邻两点间加一个空格(. . .),省略号左右与相邻的单词或标点间都加一个空格)。撇号用弯撇号(’),其形状与右引号相同;不能用直的('),引号用弯引号(‘ ’、“ ”),注意不要弯错方向;不能用直的(' '、" ")。Word的默认设置是在键入时自动用弯的替换直的。本规范要求单、双引号分别表不同的意思,其使用规定和例子见 (8)。
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