Experimental Study of Tensile Properties of the Steel-Plastic Geogrids

The Open Materials Science Journal Pub Date : 2015-09-28 DOI:10.2174/1874088X01509010146

W. Qingbiao, R. Lü, Kong Yingchun, X. Lei, Cong Zhang, X. Fei, Tao Zheng, C. Zhen, Tang Lingyu, W. Hui

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引用次数: 1

Abstract

Tensile strength is an important indicator of the steel-plastic geogrid mechanical properties. Tensile strength directly affects the size of the steel geogrid security and stability in support of the project. Stretching through the indoor geogrid test for combinations of different sizes and different geogrid elongation rate, tensile strength of the geogrid were compared. The findings are as follows: (1)The size of the stretching rate has a significant effect on the tensile properties of steel-plastic geogrid. The strain is constant, the stretching rate, the lower the tensile strength of the geogrid; stretching rate is constant, the greater the strain Plastic geogrid, the greater the tensile strength;(2) Peak strain increases with extension rates decrease; higher tensile strength material to reduce the amplitude of the smaller; under the same conditions of stretch rate, the lower the tensile strength of the geogrid, the higher the peak strain;(3)Different effects under different specifications geogrid tensile rate, steel-plastic geogrid degree of influence by the stretching rate is less than the plastic geogrid.

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钢-塑土工格栅拉伸性能试验研究

抗拉强度是衡量钢塑土工格栅力学性能的重要指标。抗拉强度的大小直接影响到钢土工格栅在支撑工程中的安全性和稳定性。通过室内土工格栅拉伸试验，对不同尺寸组合的土工格栅和不同延伸率的土工格栅的拉伸强度进行了比较。研究结果表明:(1)拉伸速率的大小对钢塑土工格栅的拉伸性能有显著影响。当应变恒定时，拉伸速率越大，土工格栅的抗拉强度越低;拉伸速率一定时，塑性土工格栅应变越大，抗拉强度越大;(2)峰值应变随拉伸速率的减小而增大;材料抗拉强度越高，减小幅度越小;相同拉伸率条件下，土工格栅抗拉强度越低，峰值应变越高;(3)不同规格土工格栅受拉伸率影响程度不同，钢塑土工格栅受拉伸率影响程度小于塑料土工格栅。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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The Open Materials Science Journal

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