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

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2015Äê06ÆÚ

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8-16

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2015-11-30

ÎÄÕÂÐÅÏ¢/Info

Title:

Experiment on Flexural Behaviors of Prestressed Reactive Powder Concrete Box Girders

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Author(s):

FANG Zhi, LIU Ming, ZHENG Hui

College of Civil Engineering, Hunan University

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»îÐÔ·ÛÄ©»ìÄýÍÁ; ÏäÁº; ¿¹ÍäÐÔÄÜ; ¼ôÁ¦ÖÍЧӦ; ÁÑ·ì; ±äÐÎ

Keywords:

reactive powder concrete;  box girder;  flexural behavior;  shear-lag effect;  crack;  deformation

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DOI:

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A

ÕªÒª:

ΪÑо¿Ô¤Ó¦Á¦»îÐÔ·ÛÄ©»ìÄýÍÁ(RPC)ÏäÁºµÄÕý½ØÃæÊÜÁ¦ÐÔÄÜ£¬½øÐÐÁË2ƬԤӦÁ¦RPCÏäÁºµÄ¿¹ÍäÐÔÄÜÊÔÑ飬Ñо¿ÁËRPCÏäÁºµÄÊÜÁ¦±äÐÎÌØÕ÷ÒÔ¼°¶¥°åºáÏòÔ¤Ó¦Á¦¶ÔÆ俹ÍäÐÔÄܵÄÓ°Ïì¡£½á¹û±íÃ÷£ºÔ¤Ó¦Á¦RPCÏäÁº¾ßÓÐÁ¼ºÃµÄ±äÐÎÄÜÁ¦£¬Æ伫ÏÞ±äÐοɳ¬¹ý¿ç¾¶µÄ1/50£»RPCÏäÁºÕý³£Ê¹Óý׶εÄÁÑ·ì¿í¶ÈºÍ¶ÌÆڸնȿɲÎÕÕ¡¶ÏËά»ìÄýÍÁ½á¹¹¼¼Êõ¹æ³Ì¡·£¨CECS 38:2004£©µÄÏàÓ¦¹«Ê½¼ÆË㣬ÆäÖеĸÖÏËάӰÏìϵÊý¿É·Ö±ðȡΪ0.4ºÍ0.2£»RPCÏäÁº¶¥°åÄڵĺáÏòÔ¤Ó¦Á¦¶Ô½ØÃ濹Íä³ÐÔØÁ¦µÄÓ°Ïì½ÏС£¬µ«»áʹÊÜѹÇø»ìÄýÍÁµÄÓ¦±ä·Ö²¼¸ü¼Ó¾ùÔÈ£¬´Ó¶ø¼õÈõÏäÁº¶¥°åÊÜѹµÄ¼ôÁ¦ÖÍЧӦ²¢Ôö¼Ó¹¹¼þµÄÑÓÐÔ£»ÊÔÑéÖжԶ¥°åÄÚÊ©¼Ó2.95 MPaµÄºáÏòԤѹӦÁ¦£¨½öΪRPCÀâÖùÌ忹ѹǿ¶È94 MPaµÄ3.1%£©ºó£¬¿ÉʹÏäÁºÊÜѹÒíÔµµÄÓÐЧ·Ö²¼¿í¶ÈÔö¼ÓÔ¼10%£¬¹¹¼þÑÓÐÔÖ¸±êÔö¼ÓÔ¼3%¡£ÊÔÑé½á¹ûÑéÖ¤ÁËÌá³öµÄÔ¤Ó¦Á¦RPCÏäÁºÕý½ØÃ濹ÁѺͿ¹Íä³ÐÔØÁ¦µÄ¼ÆË㹫ʽ¡£

Abstract:

In order to study the mechanical behavior of prestressed reactive powder concrete (RPC) box girders, the flexural behavior tests of two prestressed RPC box girders were carried out. The force characteristic of RPC box girders and the influence of transverse prestressing force to its flexural performance were studied. The results show that the prestressed RPC box girders display a good deformation capacity, with a maximal deflection of 1/50 of its span. The crack width and the shortª²time stiffness of the RPC box girders can be calculated according to the formula in ª«Technical Specification for Fiber Reinforced Concrete Structuresª« (CECS 38:2004), with a coefficient of 0.4 and 0.2 considering influence from steel fiber, respectively. The transverse prestressing force in the top plate of RPC box girders has little influence on the flexural bearing capacity, but the force can make a more uniform strain distribution of the compressive concrete so as to reduce the shearª²lag effect and increase the ductility of the specimen. By applying a transverse prestressing force of 2.95 MPa (only 3.1% of the RPC prism compressive strength of 94 MPa) at the top plate, the effective distribution width of box girder increases by 10%, and ductility index of specimen increases by 3%. The calculated formula to evaluate the cracking moment and the ultimate moment of a prestressed RPC box girders is proposed and verified by the experimental results.

²Î¿¼ÎÄÏ×/References:

ÏàËÆÎÄÏ×/References:

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¸üÐÂÈÕÆÚ/Last Update: 2015-11-30