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超高强材料与装配式结构 被引量:13

ULTRA-HIGH STRENGTH MATERIALS AND PRECAST CONCRETE STRUCTURES
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摘要 日本实际用于超高层建筑的混凝土设计强度已经突破200N/mm2,而且绝大多数都是采用装配式的建造方法。这股超高层钢筋混凝土建筑的热潮,可以说在很大程度上是由于开发高强材料,完善相应的设计方法,以及施工技术的革新所带来的。在该领域,日本技术领先于世界。该文在介绍日本该领域最新动向的同时,概述超高强材料与装配式结构相互之间的关系,并结合作者本人及其团队近几年的研究,介绍关于超高强材料和装配式混凝土结构若干问题的研究成果。 The design strengh of the concrete used for ultra-high-rise buildings in Japan has already surpassed 200N/mm2. The overwhelming majority of which were built with the precast construction method. This fasion of ultra-high-rise RC buidings is largely due to the development of ultra-high-strength materials, the conception of new design methodologies, and the innovation in construction technologies. In this area, Japan is the technology leader in the world. This paper includes an introduction of the latest trends of this area in Japan, as well as an overview of the relationship between the ultra-strong materials and a precast concrete structure. It provides also an insight into the recent researches and achievements of the author and his team.
作者 赵唯坚
机构地区 沈阳建筑大学现代建筑产业技术研究院
出处 《工程力学》 EI CSCD 北大核心 2012年第A02期31-42,共12页 Engineering Mechanics
基金 十二五国家科技支撑计划项目(2011BAJ10B04)
关键词 超高强材料 装配式结构 超高层钢筋混凝土建筑 装配式(PCa)工法 超高强纤维增强混凝土(UFC) 装配式预应力混凝土(PCaPC) ultra-high strength material precast concrete structure high-rise RC building precast concrete construction method ultra-high strength fiber reinforced concrete precast pre-stressed concrete
分类号 TU528 [建筑科学—建筑技术科学] TU741 [建筑科学—建筑技术科学]
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参考文献10

  • 1Yoshihiro MASUDA. Future perspective on new RC - the ministry of construction total technological development project "development of ultra-lightweight and high-rising technology of reinforced concrete construction building" [J]. Japan Testing Center for Construction Materials, 1994, 30(9): 6- 12. (in Japanese).
  • 2Keiki Yamamoto, Tohru Nakajima, Satoshi Watanabe, Yoshihiro Shimizu, Hiroshi Jinnai, Kaoru Tsujiya, Yutaka Yoshida. Practical application of ultra high strengthprecast concrete with a design strength of 200MPa [J]. Report of Taisei Technology Center, 2011, 44: 21.1- 21.6. (in Japanese).
  • 3李晓明.装配式混凝土结构关键技术在国外的发展与应用[J].住宅产业,2011(6):16-18. 被引量:83
  • 4Hiroshi Jinnai, Shusuke Kuroiwa, Satoshi Watanabe, Satoru Namiki. Production and quality control of low shrinkage type 150MPa high strength concrete [J]. Report of Taisei Technology Center, 2007, 40: 13.1- 13.8. (in Jananese).
  • 5JISF. Architecture space built with ultra high strength steel slender pillars [J]. Journal of Steel Design, 2011, 18: 4- 15. (in Japanese).
  • 6纪颖波.我国住宅新型建筑工业化生产方式研究[J].住宅产业,2011(6):7-12. 被引量:36
  • 7Kunihiko Kawai, Mitsutaka Hayakawa, Hiroshi Jinnai. Basic study on construction method of high rise RC building using high strength concrete [J]. Journal of Structural and Construction Engineering, Transactions of AIJ, 2006, 601: 1 - 8. (in Japanese).
  • 8Kazumasa Imai, Atsushi Hattori, Dai Iwamuro, Hirohumi Inada. Compressive behavior of joint mortar on ultra high strength precast concrete columns [J]. Concrete Journal, 2010, 48(2): 24-30.
  • 9Kuniyoshi Sugimoto, Yasuhiko Masuda, Hiroaki Eto. Experimental study on bond characteristics of column reinforcement passing through precasted RC beam-column joints [J]. Japan Concrete Institute Conference, 2004, 26(2): 817- 822. (in Japanese).
  • 10Tsutomu Komuro, Takeyoshi Korenaga, Takao Kai. Development of precast prestressed concrete beam (PCaPC) using ultra-high-strength concrete [J]. Journal of Construction Planning, Japan Construction Machinery and Construction Association, 2010(5): 29- 33. (in Japanese).

二级参考文献8

共引文献116

同被引文献152

引证文献13

二级引证文献143

工程力学
2012年 第A02期

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