用圆柱体试件进行弯曲试验时挠曲强度的评定公式

T. Temmyo, T. Ikemizu, T. Hayashi, I. Tanikura, Y. Obara
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引用次数: 1

摘要

本文提出了利用短圆柱试件进行岩石或混凝土抗弯强度、沉积岩层理面强度和混凝土施工缝强度评价的四点弯曲(圆截面梁的四点弯曲试验,FPB c)试验和三点弯曲(圆截面梁的三点弯曲试验,TPB c)试验公式。首先,采用三维有限元法分析了不同长度圆柱体内部的应力分布。然后,根据ASTM、JIS中使用矩形截面梁和FPB c、TPB c试验进行的四点弯曲(矩形截面梁的四点弯曲试验,FPB r)试验和三点弯曲(矩形截面梁的三点弯曲试验,TPB r)试验的分析结果,提出了计算公式。FPB - c和TPB - c试验采用直径5-10cm,长度10-20cm的试样。此尺寸是用于混凝土或岩石岩心单轴压缩试验的尺寸。其次,采用不同长度的花岗岩试件,进行了两种试件的FPB和TPB试验,结果表明,采用本文提出的计算公式对两种试件的抗弯强度进行了计算,并与常规计算公式进行了比较。最后,明确了三点弯曲(TPB c)的建议使用圆柱形试样是可用于评估混凝土和岩石的抗弯强度容易。矩形截面的梁,以及FPB - c和TPB - c试验。直径和的试样
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Formula for evaluation of flexural strength on bending test by use of a cylinder typed specimen
In this paper, the formula of four-point bending (Four-point bending test of the beam having a circular cross section, FPB c ) test and three-point bending (Three-point bending test of the beam having a circular cross section , TPB c ) test by use of short cylinder typed specimen is proposed to evaluate the flexural strength of rock or concrete, the strength of bedding plane of sedimentary rock and construction joint of concrete. Firstly, the stress distribution within cylinders with various lengths is analyzed by the three dimensional Finite Element Method. Then the formula is proposed based on the analyzed results for the four-point bending (Four-point bending test of the beam having a rectangular cross section, FPB r ) test and the three-point bending (Three-point bending test of the beam having a rectangular cross section, TPB r ) test of ASTM, JIS by the use of the beam having a rectangular cross section and the FPB c and TPB c tests. The specimen with 5-10cm in diameter and 10-20cm in length is used in the FPB c and TPB c tests. This dimension is that used in uniaxial compression test of concrete or rock drilled core. Secondly, a series of the FPB and TPB tests by use of both type of specimen is performed by the use of granite specimen with various lengths, then it is shown that the flexural strength is evaluated by the proposed formula and compared with that by the conventional one. Finally, it is made clear that the suggested three-point bending (TPB c ) by use of the cylinder typed specimen is available for evaluating the flexural strength of concrete and rock easily. beam having a rectangular cross section, and the FPB c and TPB c tests. The specimen with in diameter and
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