| 弹性模量、波速与应力的关系及其应用 |
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| 引用本文: | 尹尚先,王尚旭.弹性模量、波速与应力的关系及其应用[J].岩土力学,2003(Z2). |
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| 作者姓名: | 尹尚先 王尚旭 |
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| 作者单位: | 石油大学中国石油天然气集团公司(CNPC)物探重点实验室 北京100083
(尹尚先),石油大学中国石油天然气集团公司(CNPC)物探重点实验室 北京100083(王尚旭) |
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| 摘 要: | 为充分了解不同尺度地质系统的岩石动力学特征,更好利用不同规模勘探资料有效解释地质系统的特征,在岩石物理实验对岩石弹性模量、波速与应力的关系进行研究总结的基础上,探讨野外实际地震勘探中地震波速与地应力的关系。研究表明,岩石、岩体或地质系统是多相(固液气)、多种矿物、各种构造的综合体,不论尺度如何均可以用多重介质孔隙裂隙地质模型描述,而波速是一定尺度不均匀地质体的等效波速,在一定地质条件下,各种尺度介质波速、岩石弹性模量与有效应力存在依存关系。坚硬的岩石通常很脆,如果岩石处于很大的应力之下,应力的释放将在岩石中产生微裂隙,微裂隙会降低地震速度。只要把岩石恢复到原来的应力状态就可能消除所引发的微裂隙。在岩体未达到破坏时,应力越大,波速愈高。压力释放引发的微裂隙有助于现场确定最大/最小水平应力方向,波速的椭圆长轴即为主应力方向。而上覆地层压力不变(或变化很小),净储层压力的影响正好与储层压力对地震特性的影响相反。随着净储层压力的增加,所有岩石的地震特性都增高。这种增高的量级取决于若干其它的因素(孔隙形状、孔隙度、孔隙流体、岩性等等)。不论野外地震勘探还是实验研究,地震波速与地应力的一致性为地质系统的正反演解释提供了宏观控制依据:通过测量弄清
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| 关 键 词: | 有效应力 波速 弹性模量 地质系统 尺度 岩石物理 多重介质孔隙裂隙介质 |
Relation of stresses with elastic modulus and velocities and its application |
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| YIN Shang-xian,WANG Shang-xu.Relation of stresses with elastic modulus and velocities and its application[J].Rock and Soil Mechanics,2003(Z2). |
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| Authors: | YIN Shang-xian WANG Shang-xu |
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| Abstract: | For better interpretation of geological systems using information of 3-D seismic exploration, the relations of rocks wave velocity and stresses are studied by rock physical experiment and practice applications. Geological systems are made up of multi-phase, such as solid, liquid, gas, many kinds of mineral and different types of structures. They can be simulated by generalized multiple porosity media geological models for any scale. Rock wave velocity is equivalent velocity of asymmetry geological systems at some scale. Geological settings are key dominate factors of media wave velocity at different scale. Weather in seismic exploration or in experiment, there are the relationships of effective stresses with elastic modulus and wave velocity of rocks. The coherence of seismic wave velocity and stresses will be base of further studying of geological systems. |
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| Keywords: | effective stresses wave velocity elastic modulus geological systems scale rock physics generalized multiple porosity media |
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