«ÉÏһƪ/Previous Article|±¾ÆÚĿ¼/Table of Contents|ÏÂһƪ/Next Article»

¡¶½¨Öþ¿ÆѧÓ빤³Ìѧ±¨¡·[ISSN:1673-2049/CN:61-1442/TU]

¾í:

32¾í

ÆÚÊý:

2015Äê01ÆÚ

Ò³Âë:

58-63

À¸Ä¿:

³ö°æÈÕÆÚ:

2015-01-30

ÎÄÕÂÐÅÏ¢/Info

Title:

Nonlinear Analysis of Concrete-filled Steel Tubular ª¤Columns Under Blast Load

×÷Õß:

²ÜÑ©Ò¶£¬ÕÔ¾ùº££¬Àî ÑÞ

³¤°²´óѧ½¨Öþ¹¤³ÌѧԺ

Author(s):

CAO Xue-ye, ZHAO Jun-hai, LI Yan

School of Civil Engineering, Chang¡¯an University

¹Ø¼ü´Ê:

±¬Õ¨ºÉÔØ; ¸Ö¹Ü»ìÄýÍÁÖù; Í³Ò»Ç¿¶ÈÀíÂÛ; ËÜÐÔ¼«ÏÞÍä¾Ø; µÈЧµ¥×ÔÓɶÈÄ£ÐÍ; Öð²½»ý·Ö·¨

Keywords:

blast load;  concrete-filled steel tubular column;  unified strength theory;  plastic ultimate moment;  equivalent single degree of freedom model;  step by step integration method

·ÖÀàºÅ:

-

DOI:

-

ÎÄÏ×±êÖ¾Âë:

A

ÕªÒª:

»ùÓÚͳһǿ¶ÈÀíÂÛ£¬ÍƵ¼Á˸ֹܻìÄýÍÁÖùµÄËÜÐÔ¼«ÏÞÍä¾ØºÍ¾ù²¼ºÉÔØ×÷ÓÃϼòÖ§ÁºµÄ¼«ÏÞλÒÆ¡£¿¼ÂDZ¬Õ¨·´Ó¦¹ý³ÌÖиֹܻìÄýÍÁÖùÖÊÁ¿ºÍ¸Õ¶È¸Ä±ä²úÉúµÄ·ÇÏßÐÔÓ°Ï죬²ÉÓõÈЧµ¥×ÔÓɶÈÄ£ÐͺÍÖð²½»ý·Ö·¨£¬·ÖÎöÁ˱¬Õ¨ºÉÔØ×÷ÓÃϸֹܻìÄýÍÁÖùµÄ¶¯Ì¬ÏìÓ¦¡£½«ÀíÂÛ¼ÆËã½á¹ûÓëÏà¹ØÎÄÏ×¼ÆËã½á¹û½øÐжԱȣ¬ÑéÖ¤ÁËÀíÂÛ¼ÆËã·½·¨µÄÕýÈ·ÐÔ¡£Ñо¿½á¹û±íÃ÷£ºËæ×ÅÌ×¹¿ÏµÊýµÄÔö´ó£¬ËÜÐÔ¼«ÏÞÍä¾Ø¼°¼«ÏÞλÒÆÔö´ó£»Ëæ×ŲàѹϵÊýµÄÔö´ó£¬ËÜÐÔ¼«ÏÞÍä¾ØÔö´ó£»¿¼ÂǸֹܶÔÊÜѹÇø»ìÄýÍÁ¿¹Ñ¹Ç¿¶ÈµÄÌá¸ß±È²»¿¼ÂÇʱËÜÐÔ¼«ÏÞÍä¾ØÌá¸ßÁË12%~19%£»Ìá³öµÄ¼ÆËã·½·¨Âú×ã¸Ö¹Ü»ìÄýÍÁÖù¿¹±¬·ÖÎöµÄ¾«¶ÈÒªÇ󣬿ÉΪ¸Ö¹Ü»ìÄýÍÁÖùµÄ¿¹±¬Éè¼ÆºÍ·À»¤Ìṩ²Î¿¼¡£

Abstract:

The plastic ultimate moment of concreteª²filled steel tubular and the ultimate displacement of the simply supported beam under uniformly distributed load were derived based on unified strength theory. Considering nonlinear impact of mass and stiffness changed in the process of the reaction, the dynamic responses of concreteª²filled steel tubular columns under blast load were analyzed by the equivalent single degree of freedom model and step by step integration method. The results of this method were compared with relevant literatures and the accuracy of the method was verified. The study results show that the plastic ultimate moment and the ultimate displacement increase along with the increase of hoop coefficient; the plastic ultimate moment also increases along with the increase of lateral pressure coefficient; the plastic ultimate moment considering the improvement of the compressive strength of concrete increases 12%ª²19% than that without considering the improvement. The proposed method is satisfied for the requirement of the analytical precision, and can be referred for the research and the safety of concreteª²filled steel tubular columns under blast load.

²Î¿¼ÎÄÏ×/References:

ÏàËÆÎÄÏ×/References:

[1]Ò¦Óî·É,ʦÑ೬,ÀîÖÒÏ×.±¬Õ¨ºÉÔØϸֽî»ìÄýÍÁ¿ò¼Ü½á¹¹Á¬Ðøµ¹Ëú·ÖÎö·½·¨±È½Ï[J].½¨Öþ¿ÆѧÓ빤³Ìѧ±¨,2015,32(01):64.
¡¡YAO Yu-fei,SHI Yan-chao,LI Zhong-xian.Comparison of Progressive Collapse Analysis Methods for RC Frame Structures Under Blast Loads[J].Journal of Architecture and Civil Engineering,2015,32(01):64.
[2]Ìï Á¦,·¶Æ仪.¶à²ã¿ò¼Ü½á¹¹ÔÚÆäµØÏÂÊÒÄÚ²¿±¬Õ¨³å»÷ϵÄÁ¬Ðøµ¹Ëú»úÀíÑо¿[J].½¨Öþ¿ÆѧÓ빤³Ìѧ±¨,2016,33(01):46.
¡¡TIAN Li,FAN Qi-hua.Research on Progressive Collapse Mechanism of Multi-layered Frame Structure Under Blast Impact in Internal of Basement[J].Journal of Architecture and Civil Engineering,2016,33(01):46.
[3]¹ùÓñÈÙ,ÀîÑ×Ýè,»ô¾²Ë¼,µÈ.ˮƽ³å»÷ºÉÔØ×÷ÓÃϸֹܻìÄýÍÁÖù¶¯Á¦ÏìÓ¦ÊÔÑéÓëÊýֵģÄâ[J].½¨Öþ¿ÆѧÓ빤³Ìѧ±¨,2017,34(06):28.
¡¡GUO Yu-rong,LI Yan-zhen,HUO Jing-si,et al.Dynamic Response Experiment and Numerical Simulation of CFST Columns Under Lateral Impact Load[J].Journal of Architecture and Civil Engineering,2017,34(01):28.
[4]ÕÅÓñ×Á,Áõ½ø¡,Ðì Ù»,µÈ.¸Ö¹Üúí·Ê¯»ìÄýÍÁÖáѹ¶ÌÖù¼«ÏÞ³ÐÔØÁ¦¼ÆËã·½·¨Ñо¿[J].½¨Öþ¿ÆѧÓ빤³Ìѧ±¨,2023,40(03):50.[doi:10.19815/j.jace.2021.11148]
¡¡ZHANG Yuzhuo,LIU Jinlong,XU Qian,et al.Steel tube coal gangue concrete axial pressure short column ultimate bearing capacity calculation method research[J].Journal of Architecture and Civil Engineering,2023,40(01):50.[doi:10.19815/j.jace.2021.11148]

±¸×¢/Memo

±¸×¢/Memo:

³£Óù¦ÄÜ

¸üÐÂÈÕÆÚ/Last Update: 2015-02-03