【正文】 考文獻參考文獻一、 建筑設計部分［1］國家標準. 房屋建筑制圖統(tǒng)一標準（GB／T 50001－2001）. 北京：中國計劃出版社，2002［2］國家標準. 建筑制圖標準（GB／T 50104－2001）.北京：中國計劃出版社，2002［3］（GB500452005）. 北京：中國計劃出版社，2005［4］國家標準. 民用建筑熱工設計規(guī)范（GB 50176－93）. 北京：中國計劃出版社，1993［5］國家標準. 公共建筑節(jié)能設計標準（GB50189－2005）. 北京：中國建筑工業(yè)出版社，2005［6］同濟大學、西安建筑科技大學、東南大學、重慶大學合編. 房屋建筑學. 北京：中國建筑工業(yè)出版社，2005［7］建筑設計資料集編委會. 建筑設計資料集（第8集）. 北京：中國建筑工業(yè)出版社，1998二 、結構設計部分［1］國家標準. 建筑結構荷載規(guī)范（GB 50009－2001）. 北京：中國建筑工業(yè)出版社，2002［2］國家標準. 建筑抗震設計規(guī)范（GB 50011－2001）. 北京：中國建筑工業(yè)出版社，2001［3］國家標準. 建筑抗震設防分類標準（GB 50223－2004）. 北京：中國建筑工業(yè)出版社，2004［4］國家標準. 混凝土結構設計規(guī)范（GB 50010－2002）. 北京：中國建筑工業(yè)出版社，2002［5］國家行業(yè)標準. 高層建筑混凝土結構技術規(guī)程（JGJ 3－200J 186－2002）. 北京：中國建筑工業(yè)出版社，2002［6］國家建筑標準設計圖集. 建筑物抗震構造詳圖（03G329－1）. 中國建筑標準設計研究院出版，2003［7］國家標準. 建筑結構制圖標準（GB/T 50105－2001）. 北京：中國計劃出版社，2002［8］龔思禮主編. 建筑抗震設計手冊（第二版）. 北京：中國建筑工業(yè)出版社，2002［9］. ［10］豐定國、王社良主編. 抗震結構設計（第2版）. 武漢：武漢工業(yè)大學出版社，2003［11］霍達主編. 高層建筑結構設計. 北京：高等教育出版社，2004［12］梁興文、史慶軒主編. 土木工程專業(yè)畢業(yè)設計指導. 北京：科學出版社，2002浙江海洋學院畢業(yè)設計(論文) 致謝致謝經過了幾個月的緊張工作終于為畢業(yè)設計畫上了圓滿的句號。在這幾個月的設計中，雖然遇到的困難很多，但都一一克服了，從最初的懵里懵懂，到現(xiàn)在對專業(yè)知識的一定掌握，很慶幸這次畢業(yè)設計讓自己有個機會能夠回顧一下大學四年所學的知識，讓自己有個系統(tǒng)的了解。望著厚厚的一本計算書，幾十張改了又改的圖紙擺在了我的面前，緊繃的臉也不由得露出了笑容?；仡櫿麄€設計過程，可以說沒有一點經驗可言。從建筑設計開始就由于考慮不周不得不反復修改，重新論證。這無論是對以后的學習還是科研都是大有益處的。通過這次畢業(yè)設計，我真正體會到了作為工程設計人員的不易和肩上的責任。因為稍微一個疏忽都有可能造成嚴重的后果。這就要求我們要有謹慎和嚴謹的頭腦。只有認認真真的、腳踏實地的、一絲不茍的做好每一步，我們才能最終把事情做好。一旦有一個環(huán)節(jié)出了問題，結果是付出的心血將付之東流。 完成這份設計除了自身的努力，更離不開老師的指導。真心感謝指導我畢業(yè)設計的田美靈老師。在建筑設計階段，老師有開闊的視野、思想，能從很別具一格的視角發(fā)現(xiàn)我建筑方案的不足，并對我提出建議。在結構設計階段又給我灌輸很多新的理念，給我講解設計中的難點和疑點。 最后，我要特別感謝我的父母。感謝他們的養(yǎng)育之恩，感謝他們多年來在精神和經濟給予我的支持。這些年來他們一直在默默地為我而奉獻著。在我大學四年期間，他們受了不少苦，我一直都很感激他們，我現(xiàn)在還無以回報，我唯一能做的就是搞好自己的專業(yè)知識，將來做一名優(yōu)秀的工程師。浙江海洋學院畢業(yè)設計(論文) 附錄附錄：Introduction to Civil Engineering PapersCivil Engineering for the development of a key role, first as a material foundation for the civil engineering construction materials, followed by the subsequent development of the design theory and construction technology. Every time a new quality of building materials, civil engineering will be a leapstyle development. People can only rely on the early earth, wood and other natural materials in the construction activities, and later appeared in brick and tile that artificial materials, so that the first human to break the shackles of natural building materials. China in the eleventh century BC in the early Western Zhou Dynasty created the tile. The first brick in the fifth century BC to the third century BC, when the tomb of the Warring States Period. Brick and tile better than the mechanical properties of soil, materials, and easy to manufacture. The brick and tile so that people began to appear widely, to a large number of housing construction and urban flood control project, and so on. This civil engineering technology has been rapid development. Up to 18 to the 19th century, as long as two thousand years, brick and tile has been a major civil engineering construction materials, human civilization has made a great contribution to the even was also widely used in the present. The application of a large number of steel products is the second leap in civil engineering. Seventeen 1970s the use of pig iron, the early nineteenth century, the use of wrought iron bridges and the construction of housing, which is a prelude to the emergence of steel. From the beginning of the midnineteenth century, metallurgical industry, smelting and rolling out high tensile and pressive strength, ductility, uniformity of the quality of construction steel and then produce highstrength steel wire, steel cables. As a result of the need to adapt to the development of the steel structure have been flourishing. In addition to the application of the original beam, arch structure, the new truss, a framework, the structure of network, cable structures to promote the gradual emergence of the structure of Yan in the form of flowers. From the brick building longspan structures, stone structures, a few meters of wood, steel structure to the development of tens of meters, a few hundred meters, until modern km above. So in the river, cross the bridge from shelves, on the ground since the construction of skyscrapers and highrise tower, even in the laying of underground railway, to create an unprecedented miracle. In order to meet the needs of the development of steel works, on the basis of Newton39。s mechanics, material mechanics, structural mechanics, structural engineering design theory came into being, and so on. Construction machinery, construction technology and construction organization design theory also development, civil engineering from the experience of rising to bee science, engineering practice and theoretical basis for both is a different place, which led to more rapid development of civil engineering. During the nineteenth century, 20, made of Portland cement, concrete has e out. Concrete can aggregate materials, easytoconcrete structures forming, but the tensile strength of concrete is very small, limited use. By the middle of the nineteenth century, the surge in steel production, with the emergence of this new type of reinforced concrete posite construction materials, which bear the tension steel, concrete bear the pressure and play their own advantages. Since the beginning of the 20th century, reinforced concrete is widely used in various fields of civil engineering. From the beginning of the 1930s, there have been prestressed concrete. Prestressed concrete structure of the crack resistance, rigidity and carrying capacity, much higher than the reinforced concrete structure, which uses an even wider area. Civil Engineering into the reinforced concrete and prestressed concrete dominant historical period. Concrete buildings to bring about the emergence of new economic, aesthetic structure in the form of engineering, civil engineering so that a new