Kovtunenko Victor A, Lazarev Nyurgun P
Institute for Mathematics and Scientific Computing, University of Graz, Graz, Austria; Lavrentyev Institute of Hydrodynamics, Siberian Division of the Russian Academy of Sciences, Novosibirsk, Russia.
Regional Scientific and Educational Mathematical Center "Far Eastern Center of Mathematical Research," North-Eastern Federal University, Yakutsk, Russia.
Math Mech Solids. 2023 Feb;28(2):592-610. doi: 10.1177/10812865221086547. Epub 2022 Apr 20.
A new class of constrained variational problems, which describe fluid-driven cracks (that are pressurized fractures created by pumping fracturing fluids), is considered within the nonlinear theory of coupled poroelastic models stated in the incremental form. The two-phase medium is constituted by solid particles and fluid-saturated pores; it contains a crack subjected to non-penetration condition between the opposite crack faces. The inequality-constrained optimization is expressed as a saddle-point problem with respect to the unknown solid phase displacement, pore pressure, and contact force. Applying the Lagrange multiplier approach and the Delfour-Zolésio theorem, the shape derivative for the corresponding Lagrangian function is derived using rigorous asymptotic methods. The resulting formula describes the energy release rate under irreversible crack perturbations, which is useful for application of the Griffith criterion of quasi-static fracture.
在增量形式表述的耦合孔隙弹性模型的非线性理论框架内,考虑了一类新的约束变分问题,这类问题描述了流体驱动的裂缝(即通过泵送压裂液产生的加压裂缝)。两相介质由固体颗粒和流体饱和孔隙组成;其中包含一条裂缝,裂缝相对面之间满足非穿透条件。不等式约束优化问题被表述为关于未知固相位移、孔隙压力和接触力的鞍点问题。应用拉格朗日乘子法和德尔福 - 佐莱西奥定理,使用严格的渐近方法推导出了相应拉格朗日函数的形状导数。所得公式描述了不可逆裂缝扰动下的能量释放率,这对于准静态断裂的格里菲斯准则应用很有用。
