高温高压耦合下含不同倾角充填缝砂岩的强度实验研究

doi:10.13722/j.cnki.jrme.2017.1431

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摘要超深储层中岩石的力学性质十分复杂，在油气勘探中经常会遇到井壁围岩垮塌和压裂施工压力大的难题。为揭示高温高压耦合条件下不同倾角充填缝砂岩的破坏模式和强度特征，通过RTR1500高温高压岩石力学实验机，开展对含充填裂缝类砂岩的抗压强度测试实验，研究不同围压、温度、裂缝倾角和裂缝充填方式对岩石强度的影响规律，并根据实验结果绘制了高温高压耦合的条件下不同裂缝倾角岩样破坏准则图。结果表明：(1) 裂缝倾角是影响破坏模式和抗压强度的最主要因素，低、高角度缝岩样破坏模式为剪切破坏，抗压强度不随裂缝倾角变化而变化；斜交缝岩样破坏模式为沿裂缝面的滑移，抗压强度随着裂缝倾角增大先减小后增加，存在最小值。(2) 不同充填方式下岩样中的主要微裂缝类型不同，破坏时反应岩石的不同性质。(3) 温度增加使岩样的整体强度降低，围压增加岩样强度增加，高温高压耦合会使岩石本体更加破碎，岩样由脆性向塑性转变，并且围压增大会抑制裂缝倾角的作用效果。

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	卢运虎1
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	金衍1
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	陈勉1
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	张健1
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	王海峰3

关键词 ：岩石力学, 超深层, 高温高压耦合, 充填方式, 裂缝倾角, 抗压强度, 破坏准则

Abstract：The mechanical properties of rocks in ultra-deep reservoirs are very complicated，and well collapse and high pressure of fracturing construction are often encountered in the exploration of oil and gas. In order to reveal the failure damage modes and compressive strength characteristics of sandstone with different crack angles and different filling methods under the conditions of high temperature and high pressure，RTR–1500 triaxial rock testing system was used to carry out the compressive strength test experiment of sandstone cores with different crack angles and different filling methods. The influences law of different confining pressures，temperatures，crack angles and crack filling methods on rock strength were studied in the experiment. According to the experimental results，the diagram of failure criterion of sandstone cores with different crack angles is drawn under the coupling of high temperature and high pressure. The results show that：(1) the fracture dip is the most important factor affecting the failure mode and compressive strength. The failure mode of low and high angle fracture rock samples is shear failure，and the compressive strength does not change with the change of the fracture dip. The failure mode of oblique fracture rock samples is slip along the fracture surface，and the compressive strength decreases first and then increases with the increase of the fracture dip，there is a minimum. (2) The main types of micro-cracks in rock samples are different under different filling methods，which reflects the different properties of rock when it is destroyed. (3) Increasing temperature decreases the overall strength of rock samples，and increasing confining pressure increases the strength of rock samples. Coupling of high temperature and high pressure will make the rock body more fragmented. Rock samples change from brittleness to plasticity，increasing confining pressure will inhibit the effect of fracture dip.

Key words： rock mechanics ultra-deep layer high-temperature and high-pressure coupling filling method crack angle compressive strength failure criterion

引用本文:

卢运虎1，2，金衍1，2，陈勉1，2，张健1，2，王海峰3. 高温高压耦合下含不同倾角充填缝砂岩的强度实验研究[J]. 岩石力学与工程学报, 2019, 38(S1): 2668-2679.
LU Yunhu1，2，JIN Yan1，2，CHEN Mian1，2，ZHANG Jian1，2，WANG Haifeng3. Experimental study on strength of sandstone with different fracture angles and different filling methods under high-temperature and high-pressure coupling. , 2019, 38(S1): 2668-2679.

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http://rockmech.whrsm.ac.cn/CN/10.13722/j.cnki.jrme.2017.1431 或 http://rockmech.whrsm.ac.cn/CN/Y2019/V38/IS1/2668

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