Minimum Reinforcement in Concrete Members (e-bog) af Carpinteri, A.
Carpinteri, A. (forfatter)

Minimum Reinforcement in Concrete Members e-bog

875,33 DKK (inkl. moms 1094,16 DKK)
The ESIS-Technical Committee 9 on Concrete was established in 1990 and has met seven times. A proposal was put to European and extra-European laboratories entitled &quote;Scale effects and transitional failure phenomena of reinforced concrete beams in flexure&quote; which lead to several positive responses.The central topic discussed by the committee was that of the minimum reinforcement in con...
E-bog 875,33 DKK
Forfattere Carpinteri, A. (forfatter)
Udgivet 22 april 1999
Længde 202 sider
Genrer Materials science
Sprog English
Format pdf
Beskyttelse LCP
ISBN 9780080536569
The ESIS-Technical Committee 9 on Concrete was established in 1990 and has met seven times. A proposal was put to European and extra-European laboratories entitled "e;Scale effects and transitional failure phenomena of reinforced concrete beams in flexure"e; which lead to several positive responses.The central topic discussed by the committee was that of the minimum reinforcement in concrete members. The minimum amount of reinforcement is defined as that for which "e;peak load at first concrete cracking"e; and "e;ultimate load after steel yielding"e; are equal. In this way, any brittle behaviour is avoided as well as any localized failure, if the member is not over-reinforced. In other words, there is a reinforcement percentage range, depending on the size-scale, within which the plastic limit analysis may be applied with its static and kinematic theorems.Carpinteri, Ferro, Bosco and El-Katieb propose a LEFM model, according to which reinforcement reactions are applied directly on the crack surfaces and a compatibility condition is locally imposed on the crack opening displacement in correspondence with the reinforcement. The theoretical model is found to provide a satisfactory estimate of the minimum percentage of reinforcement that depends on the scale and enables the element in flexure to prevent brittle failure.