DEM Simulations of Bonded Granular Materials is intended to introduce the advancement of the distinct element method (DEM) and its particular application to typical bonded geomaterials, including cemented sands, unsaturated sands, lunar regolith, and methane hydrate bearing sands. After introducing contact models for different bonded geomaterials, the merit of DEM to cemented geomaterials is demonstrated through simulations of laboratory tests and engineering applications which can be problematic using conventional continuum-based approaches. This book is of value to those who are interested in the mechanical behavior and numerical simulations of natural particulate systems of complexity. It can be used as a textbook or reference for students at a graduate level who are majoring in civil engineering, materials science, and relevant subjects. This book systematically introduces the basic principle and application of DEM to bonded materials based on the first-hand research experiences gained by the author and his research team.
* Presents a systematic introduction on the fundamental principle of DEM analysis on bonded granular materials and a thorough review of the advancement of DEM simulations* Features the state-of-the-art of bond contact models proposed for atypical bonded geomaterials, such as cemented sands, methane hydrate bearing sands, lunar regolith, and rocks* Presents engineering application of DEM simulations associated with bonded geomaterials, such as submarine landslides triggered by dissociated methane hydrate, wheel-soil interaction on the moon, rock slide due to weathering, and pile capacity in seabeds with methane hydrate