«Previous Article|Table of Contents|Next Article»

³¤°²´óѧѧ±¨£¨×ÔÈ»¿Æѧ°æ£©[ISSN:1006-6977/CN:61-1281/TN]

Issue:

2009Äê05ÆÚ

Page:

71-75

Research Field:

Publishing date:

2009-10-20

Info

Title:

Bondª²slip of reinforced layer with steel wire mash and polymer mortar

Author(s):

HUANG Hua;  LIU Boª²quan;  LIU Weiª²duo

School of Civil Engineering, Chang¬ðan University, Xi¬ðan 710061, Shaanxi, China

Keywords:

bridge engineering;  stainless steel wire mesh;  polymer mortar;  reinforcement;  debonding failure;  bondª²slip

PACS:

U445.57£»TU528.01

DOI:

-

Abstract:

For avoiding to premature debonding failure of reinforced layer made up of stainless steel wire mesh and permeability polymer mortar and ensuring the bond performance between polymer mortar and concrete, the experiments about the debonding failure between reinforced layer and concrete were carried out. The characters of the debonding failure between reinforced layer and concrete were analyzed, and the bondª²slip curves were tested. The program ANSYS was used to develop the finite element models for simulating the experimental studies. The experimental results were validated, and the characteristic parameters of bondª²slip were gained, and the bondª²slip relationship of reinforced layer was presented. The comparison analysis on the debonding failure test and numerical simulation shows that the bondª²slip relationship can be used to calculate the practical engineering problems. 2 tabs, 8 figs, 11 refs.

References:

£Û1£Ý»Æ»ª£¬Áõ²®È¨£¬ÐϹú»ª£¬µÈ.¸ßÇ¿²»Ðâ¸Ö½ÊÏßÍøª²Éø͸ÐÔ¾ÛºÏÉ°½¬¼Ó¹ÌµÄTÐÍÁºÇÅÊÔÑé£ÛJ£Ý.Öйú¹«Â·Ñ§±¨£¬2007£¬20(4)£º83ª²90. HUANG Hua,LIU Boª²quan,XING Guoª²hua,et al.Experiment on RC Tª²type beam bridge strengthened with high strength stainless steel wire mesh and permeability polymer mortar£ÛJ£Ý.China Journal of Highway and Transport,2007,20(4):83ª²90.
[2]»Æ»ª.¸ßÇ¿¸Ö½ÊÏßÍøª²¾ÛºÏÎïÉ°½¬¼Ó¹Ì¸Ö½î»ìÄýÍÁÁºÊ½ÇÅÊÔÑéÑо¿Óë»úÀí·ÖÎö£ÛD£Ý.Î÷°²£º³¤°²´óѧ£¬2008.
[3]Äô½¨¹ú£¬Íõº®±ù£¬ÕÅÌìÉ꣬µÈ.¸ßÇ¿²»Ðâ¸Ö½ÊÏßÍøª²Éø͸ÐÔ¾ÛºÏÉ°½¬¿¹Íä¼Ó¹ÌµÄÊÔÑéÑо¿£ÛJ£Ý.½¨Öþ½á¹¹Ñ§±¨£¬2005£¬26(2)£º1ª²9. NIE Jianª²guo£¬WANG Hanª²bing£¬ZHANG Tianª²shen£¬et al.Experimental study on flexural behavior of RC beams strengthened with stainless steel wire mesh and permeability polymer mortar£ÛJ£Ý.Journal of Building Structures£¬2005£¬26(2)£º1ª²9.
[4]ÔøÁîºê.¸ßÐÔÄܸ´ºÏÉ°½¬¸Ö½î(Ë¿)Íø¼Ó¹Ì»ìÄýÍÁÁºÊÔÑéÑо¿ÓëÀíÂÛ·ÖÎö£ÛD£Ý.³¤É³£ººþÄÏ´óѧ£¬2006.
[5]²Ü¿¡.¸ßÇ¿²»Ðâ¸Ö½ÊÏßÍøª²¾ÛºÏÉ°½¬Õ³½áê¹ÌÐÔÄܵÄÊÔÑéÑо¿£ÛD£Ý.±±¾©£ºÇ廪´óѧ£¬2004.
[6]ÕÔÖ¾·½£¬Öܺñ¹ó£¬Ô¬Èº£¬µÈ.ÐÂÀÏ»ìÄýÍÁÕ³½á»úÀíÑо¿Ó빤³ÌÓ¦ÓãÛM£Ý.±±¾©£ºÖйúË®ÀûË®µç³ö°æÉ磬2003.
[7]Chen J F,Teng J G.Anchorage strength models for FRP and steel plates bonded to concrete£ÛJ£Ý.Journal of Structural Engineering,2001,127(7):784ª²791.
[8]Chen J F,Yang Z J.FRP or steel plateª²toª²concrete bonded joints:effect of test methods on experimental bond strength£ÛJ£Ý.Steel and Composite Structures,2001,1(2):231ª²244.
[9]Taljsten B.Defining anchor lengths of steel and CFRP plates bonded to concrete£ÛJ£Ý.International Journal of Adhesion and Adhesives,1997,17(4):319ª²327.
[10]ÈÎ࣬ºØË©º££¬ËÎÒ»·².̼ÏËά²¼¼Ó¹Ì¾ßÓгõÓ¦Á¦µÄ¸Ö½î»ìÄýÍÁÁº¿¹¼ô¼«ÏÞ³ÐÔØÁ¦£ÛJ£Ý.³¤°²´óѧѧ±¨£º×ÔÈ»¿Æѧ°æ£¬2004£¬24(4)£º40ª²45. REN Wei£¬HE Shuanª²hai£¬SONG Yiª²fan.Ultimate shear capacity of RC beam rehabilitated with carbon fiber reinforced plastic (CFRP) under loading case£ÛJ£Ý.Journal of Chang¬ðan University:Natural Science Edition£¬2004£¬24(4)£º40ª²45.
[11]½ÐÂÕ÷.FRPª²»ìÄýÍÁ½çÃæÐÐΪÑо¿£ÛD£Ý.±±¾©£ºÇ廪´óѧ£¬2004.

Memo

Memo:

-

Common functions

Last Update: 2009-10-20