aseismic construction 中文意思是什麼

aseismic construction 解釋
抗震建築
  • aseismic : 不受震動的
  • construction : n 1 建築,結構,構造,架設,鋪設;建設;設計;工程;建築法,構造法,建築物;【戲劇】搭置,布景,...
  1. Civil engineering new technology research institute of xi ' an university of architecture and technology, meeting the nation ' s call for wall reform, industrialization and continuable progress, invented a new structural system - multi - ribbed slab structure ( mrss ). the new structure is characterized by low self - weight and high strength, high efficiency in saving energy, construction convenience and low cost. previous study showed mrss is super ior to masonry structure in economy, technology and aseismic performance

    西安建築科技大學建築工程新技術研究所研製開發的密肋壁板結構體系,具有輕質高強、高效節能、施工簡便、造價低廉等顯著優點,並且前期的研究表明,密肋壁板結構的各項經濟技術指標和抗震性能都優越于磚混結構,因而用前者取代後者具有重要而深遠的現實意義。
  2. But there is still a lot to be advancedresearch, complement in the development application process of new construction system. the paper, through the test of shear property and the factor analysis, studied rigdity and restoring force characteristic of multi - ribbied slab. finished work as following : though aseismic test of nine 1 / 2 - scaled model and one 1 / 4 - scaled model slabs, the paper studied breakage form, bearing capacity and energer consume, questioned stagnant speciality and contrast analyzed all kinds of factors influenting rigidity

    本文是在總結課題組前期研究工作的基礎上,通過對墻板模型的抗剪性能試驗及因素分析,就密肋復合墻板的剛度及恢復力特徵進行了研究,完成的主要工作如下:通過對9塊1 2比例及一塊1 4比例墻板模型抗震性能試驗,研究了墻板的破壞形態、承載力、變形及耗能;探討了墻板的滯回特性;同時對影響剛度的各種因素進行了對比分析。
  3. Abstract : this peper briefly expounds the significance of building ' s aseismic design and puts forward some opinions on aseismic design. the first is to stop using hollow plates in residential construction, the second is to make the architectural plan satisfy the requirements of seismic code, the third is to treat well building ' s foundation, and the fourth is to adopt structural reinforcing measures to building ' s weak positions

    文摘:簡述了建築抗震設計的重要性,並對抗震設計提出了幾點建議,一是在民用建築中停止使用空心板,二是建築方案要滿足抗震規范的要求,三是確實處理建築物的地基,四是對建築物薄弱部位採取構造加強措施。
  4. This peper briefly expounds the significance of buildings aseismic design and puts forward some opinions on aseismic design. the first is to stop using hollow plates in residential construction, the second is to make the architectural plan satisfy the requirements of seismic code, the third is to treat well buildings foundation, and the fourth is to adopt structural reinforcing measures to buildings weak positions

    簡述了建築抗震設計的重要性,並對抗震設計提出了幾點建議,一是在民用建築中停止使用空心板,二是建築方案要滿足抗震規范的要求,三是確實處理建築物的地基,四是對建築物薄弱部位採取構造加強措施。
  5. The pseudo - dynamic test of 1 / 3 - scale model six - story building assembled with hollow shear wall with seams. the internal forces, the deformation and the failure mechansm of the building under earthquake are studied. the rules of frequency, damping and response spectrum are studied. the characters of earthquake response such as structure displacement, interstory drift, action of earthquake, the amplificatory coefficient of acceleration and the rule of strain are discussed. at last, this paper presented the design method of this structure based on the aseismic style and put forward the construction

    進行了帶縫空心剪力墻結構六層樓房的1 3模型的擬動力試驗,研究了結構在水平地震作用下的受力特點、變形特徵、破壞形態等力學性能;得到了結構在不同受力階段的頻率、阻尼、反應譜等動力特性變化規律;討論了結構各樓層的水平位移、層間位移、地震力、加速度放大系數及構件應力分佈規律等結構地震反應特徵;指出了結構的抗震類型、薄弱層及薄弱部位;提出了多層帶縫空心剪力墻結構的第一階段設計方法和相應構造措施。
  6. During the last few years, the buried structures have been widely used in water power engineering, transportation engineering, urban construction, military and people ' s air defense project, the aseismic design and performance evaluation of buried structures have become a more and more important subject to engineers

    近些年來,地下結構在水利水電、交通運輸、市政建設、軍事和人防工程中得到了廣泛的應用。隨著地下結構建設規模的不斷擴大,地下結構的抗震設計及其安全性評價越來越成為工程界所關心的重要課題。
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