机译:骨折的摩擦力,稳定性和剪切渗透性进化的矿物学控制
Institute for Geophysics Jackson School of GeosciencesUniversity of Texas at AustinAustin TX USA;
Department of Energy and Mineral Engineering EMS Energy Institute and G3 CenterPennsylvania State UniversityUniversity Park PA USA;
Department of Energy and Mineral Engineering EMS Energy Institute and G3 CenterPennsylvania State UniversityUniversity Park PA USA;
Department of Energy and Mineral Engineering EMS Energy Institute and G3 CenterPennsylvania State UniversityUniversity Park PA USA;
fracture minerals; frictional strength; stability; permeability evolution;
机译:骨折的摩擦力,稳定性和剪切渗透性进化的矿物学控制
机译:花岗岩断裂的摩擦-稳定-渗透率演化
机译:具有特定粗糙度的制造骨折的渗透性演化和摩擦稳定性
机译:矿物学组合物可以预测骨折的摩擦强度,稳定性和剪切渗透性吗?
机译:矿物学和抗剪切强度,滑动稳定性和缺血性的纹理控制
机译:高盐低渗透裂缝性油藏高强度凝胶体系配方开发及调剖性能评价
机译:单岩骨折剪切保持过程中的剪切力量和渗透性进化
机译:第二相分散对超高强度4340钢剪切不稳定性和断裂韧性的影响。