Mechanical characteristics and microcosmic mechanisms of granite under temperature loads

Journal of China University of Mining and Technology Pub Date : 2008-09-01 DOI:10.1016/S1006-1266(08)60086-3

XU Xiao-li , GAO Feng , SHEN Xiao-ming , XIE He-ping

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引用次数: 68

Abstract

The relationships between mechanical characteristics of rock and microcosmic mechanism at high temperatures were investigated by MTS815, as well as the stress-strain behavior of granite under the action of temperatures ranging from room temperature to 1200 °C. Based on a micropore structure analyzer and SEM, the changes in rock porosity and micro structural morphology of sample fractures and brittle-plastic characteristics under high temperatures were analyzed. The results are as follows: 1) Mechanical characteristics do not show obvious variations before 800 °C; strength decreases suddenly after 800 °C and bearing capacity is almost lost at 1200 °C. 2) Rock porosity increases with rising temperatures; the threshold temperature is about 800 °C; at this temperature its effect is basically uniform with strength decreasing rapidly. 3) The failure type of granite is a brittle tensile fracture at temperatures below 800 °C which transforms into plasticity at temperatures higher than 800 °C and crystal formation takes place at this time. Chemical reactions take place at 1200 °C. Failure of granite under high temperature is a common result of thermal stress as indicated by an increase in the thermal expansion coefficient, transformation to crystal formation of minerals and structural chemical reactions.

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温度荷载作用下花岗岩的力学特性及微观机理

利用MTS815研究了高温下岩石力学特性与微观机制之间的关系，以及花岗岩在室温~ 1200℃温度作用下的应力-应变行为。基于微孔结构分析仪和扫描电镜，分析了高温作用下岩石孔隙度和试样裂隙微观结构形态的变化及脆性塑性特征。结果表明:1)在800℃前，力学特性变化不明显;强度在800℃后急剧下降，在1200℃时几乎丧失承载能力。2)岩石孔隙度随温度升高而增大;阈值温度约为800℃;在此温度下，其作用基本均匀，强度迅速下降。3)花岗岩在800℃以下的破坏类型为脆性拉伸断裂，高于800℃的破坏类型为塑性断裂，此时发生晶体形成。化学反应在1200°C时发生。花岗岩在高温下的破坏是热应力的普遍结果，表现为热膨胀系数的增大、矿物向晶体的转变和结构化学反应。

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Journal of China University of Mining and Technology

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