See more from this Division: Topical Sessions
See more from this Session: Brittle Deformation and Diagenesis as Coupled Processes
Abstract:
Samples analyzed for this study have a range of cement abundances, from < 2% to greater than 15% cement, but have similar intergranular volumes (original porosities). To quantify the geometric changes associated with progressive cementation, detailed back-scattered electron and CL images were collected. Image analysis indicates that the St. Peter exhibits typical quartz overgrowth geometries but has considerable variation in cement abundance. Quartz cement morphology changes with progressive cementation. Grains in low-cement (< 5%) samples exhibit thin, encrusting layers of quartz with isolated crystal facets and pore spaces are relatively equant and interconnected. In contrast, high-cement (> 10%) samples have an interconnected network of cement with well-defined facets, more crack-like pores, and diminished pore connectivity. Results from ultrasonic velocity measurements and preliminary finite element modeling suggest that both the geometric evolution of cement distribution and the amount of precipitated cement are important controls on the elastic behavior of quartz sandstones.
See more from this Division: Topical Sessions
See more from this Session: Brittle Deformation and Diagenesis as Coupled Processes