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铝合金桥梁发展的研究与探讨 被引量:7

Research and Exploration on the Development of Aluminium Alloy Bridge
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摘要 研究目的:随着金属铝冶炼技术发展以及铝合金材料性能的不断提升,铝合金材料在桥梁工程中的应用越来越广泛。为了促进铝合金桥梁的应用,对铝合金桥梁的发展进程以及特性进行研究。研究方法:通过对国内外已建造的铝合金桥梁的结构介绍和使用情况分析,探讨铝合金桥梁的优、缺点。研究结论:虽然铝合金材料成本较高,但因其强度-重量比高、易于装配、耐久性好、养护费用低。通过合理设计,将具有良好的应用前景。 Research purposes: With the development of smelting technology of aluminium and improvement of the performance of aluminium alloy materials, aluminium alloy materials have been used widely. The researches are clone on the development progress and characteristics of aluminium alloy bridge for the purposes of promoting application of aluminium alloy bridge. Research methods: The exploration is made on the advantages and disadvantages of aluminium alloy bridge making through analyses of the structure and application situations of existing aluminium alloy bridges at home and abroad. Research conclusions:Although aluminium alloy materials need much investment, but it still has a bright applicable prospect because of its high strength - weight ratio,
作者 王斐峰 王琨
机构地区 东南大学 南京航空航天大学
出处 《铁道工程学报》 EI 北大核心 2007年第9期27-29,共3页 Journal of Railway Engineering Society
关键词 铝合金桥梁 发展 铝元素 强度-重量比 耐久性 aluminium alloy bridge development easy assembly, perfect durability and low maintenance cost. aluminium element strength - weight ratio durability
分类号 U44 [建筑科学—桥梁与隧道工程]
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参考文献7

  • 1Mazzolani FM. Aluminium alloy structures [ M ]. London : HE &FN Spon, 1995, 1 -85.
  • 2British Standards Institution. BS 8118. Structural use of aluminium, Parts 1 - 2 [ S ].
  • 3M.J. Ryall, G. A. R. Parke and J. E. Harding. Manual of bridge engineering [ M ]. London : Thomas Telford Publishing, 2000, 699-714.
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  • 5Christina Radlbeck, Eszter Dienes, Dimitris Kosteas. Sustainability of aluminium in buidings [ J ]. Structural Engineering International, 2004, 14(3) : 221 - 224.
  • 6F. Soetens, I. van Straalen. Design and analysis of aluminium bridges [ A ]. In : IABSE. Report of IABSE Symposium Shanghai 2004 [ C ]. Zurich : IABSE, 2004, 214 - 215.
  • 7Federico M. Mazzolani. Competing issues for aluminium alloys in structural engineering[ J ]. Progress in Structural Engineering and Materials,2004,6(4) :185 -196.

同被引文献41

  • 1李征.大跨度铝合金网壳结构的应用[J].工程设计与建设,2005,37(3):14-17. 被引量:16
  • 2夏,熊建武,王德禹.铝合金舟桥甲板结构优化设计[J].上海交通大学学报,2005,39(5):678-681. 被引量:4
  • 3中华人民共和国建设部.铝合金结构设计规范[s].北京:中国计划出版社,2008.
  • 4SIWOWSKI T. Aluminium bridges--past, present and future[J]. Structural Engineering International, 2006, 16(4) : 286--293.
  • 5SOETENS F, STRAALEN VAN I. Design and analysisof aluminum bridges[C]// Report of IABSE Symposium Shanghai 2004. Zurich; IABSE, 2004:214--215.
  • 6DAS S K, KAUFMAN J G. Aluminum alloys for bridges and bridge decks[J]. The Minerals, Metals & Materials Society, 2007, 61--72.
  • 7DOBMEIER J M, BARTON F W. Failure study of an aluminum bridge deck panel[J]. Journal of Performance of Constructed Facilities, 2001,15 (2) : 68-- 75.
  • 8TORSTEN H, BERT N. Static design of aluminum structures[J]. Structural Engineering International, 2006,16(4):301--304.
  • 9MAZZOLANI F M.Aluminum Alloy Structures[M].2nd ed.London:Chapman &Hall,1995.
  • 10SOETENS F,STRAALEN I V.Design and Analysis of Aluminum Bridges[C]∥Proceedings of IABSE Symposium Shanghai 2004.Zurich:IABSE,2004:214-215.

引证文献7

二级引证文献19

铁道工程学报
2007年 第9期

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