Triaxial stress and failure modes in hydrothermal mineral systems

IF 1.2 4区 地球科学 Q3 GEOSCIENCES, MULTIDISCIPLINARY
T. Blenkinsop
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引用次数: 0

Abstract

Abstract Rock mechanics experiments show that the magnitude of the intermediate principal stress significantly affects rock failure. Since triaxial stress states (no principal stress is zero) are ubiquitous in the crust, and polyaxial axial states (all three principal stresses are different) are general, the magnitude of the intermediate principal stress should have an important effect on hydrothermal mineralisation. For example, extensional veins or dykes in vein-hosted gold or porphyry deposits may have multiple orientations when the intermediate and least principal stresses have similar magnitudes, or single orientations when the intermediate and maximum principal stresses are similar. The Griffith-Murrell triaxial fracture criterion with a tensile cutoff can be used to illustrate the effects of the intermediate principal stress on failure. At the lowest values of mean stress, the criterion suggests that only extensional failure can occur. At low–intermediate values of mean stress, either extensional or shear failure may occur: extensional failure is favoured when the intermediate and maximum principal stresses have similar magnitudes. At higher mean stresses, shear failure will occur at lower values of pore fluid pressure and differential stress when the magnitudes of the intermediate and minimum principal stresses are similar. KEY POINTS The intermediate principal stress has significant effects on rock strength, which should be considered for understanding failure in hydrothermal mineralising systems, because stress states in the Earth are generally triaxial and polyaxial. The magnitude of intermediate principal stress relative to those of the other principal stresses affects the range of orientations of extensional fractures, for example in stockworks and sheeted veins. At low values of mean stress, only extensional failure occurs. At low to intermediate values of mean stress, extension is favoured over shear failure when the magnitudes of intermediate and maximum principal stresses are similar. At high values of mean stress, shear failure will occur at lower values of pore fluid pressure and differential stress when the magnitudes of the intermediate and minimum principal stresses are similar.
热液矿物系统的三轴应力和破坏模式
岩石力学实验表明,中间主应力大小对岩石破坏有显著影响。由于三轴应力状态(无主应力为零)在地壳中普遍存在,而多轴轴向状态(所有三个主应力都不同)是普遍的,因此中间主应力的大小应该对热液矿化具有重要影响。例如,当中间主应力和最小主应力具有相似的幅度时,脉控金矿床或斑岩矿床中的伸展脉或岩脉可能具有多个方向,或者当中间主应该力和最大主应力相似时,可能具有单一方向。具有拉伸截止的Griffith-Murrell三轴断裂准则可用于说明中间主应力对破坏的影响。在平均应力的最低值下,该标准表明只有拉伸破坏才会发生。在平均应力的中低值时,可能发生拉伸或剪切破坏:当中间主应力和最大主应力具有相似的大小时,拉伸破坏是有利的。在较高的平均应力下,当中间主应力和最小主应力的大小相似时,在较低的孔隙流体压力和压差应力值下将发生剪切破坏。关键点中间主应力对岩石强度有显著影响,应考虑这一点来理解热液矿化系统的破坏,因为地球上的应力状态通常是三轴和多轴的。相对于其他主应力,中间主应力的大小会影响伸展裂缝的方向范围,例如在网状结构和片状矿脉中。在平均应力值较低时,仅发生拉伸破坏。在平均应力的中低值时,当中间主应力和最大主应力的大小相似时,拉伸比剪切破坏更受青睐。在平均应力值较高的情况下,当中间主应力和最小主应力的大小相似时,在孔隙流体压力和压差应力值较低的情况下会发生剪切破坏。
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来源期刊
Australian Journal of Earth Sciences
Australian Journal of Earth Sciences 地学-地球科学综合
CiteScore
2.80
自引率
8.30%
发文量
45
审稿时长
6-12 weeks
期刊介绍: Australian Journal of Earth Sciences publishes peer-reviewed research papers as well as significant review articles of general interest to geoscientists. The Journal covers the whole field of earth science including basin studies, regional geophysical studies and metallogeny. There is usually a thematic issue each year featuring a selection of papers on a particular area of earth science. Shorter papers are encouraged and are given priority in publication. Critical discussion of recently published papers is also encouraged.
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