NOTE: THE SPECIAL CHARACTERS IN THIS ABSTRACT CANNOT BE DISPLAYED CORRECTLY ON THIS PAGE. PLEASE REFER TO THE ABSTRACT ON THE PUBLISHER’S WEBSITE FOR AN ACCURATE DISPLAY. The three notorious earthquakes of 1999 in Turkey (Kocaeli and Düzce) and Taiwan (Chi-Chi), having offered numerous examples of surface fault rupturing underneath civil engineering structures, prompted increased interest in the subject. This paper develops a nonlinear finite-element methodology to study dip–slip (“normal” and “reverse”) fault rupture propagation through sand. The procedure is verified through successful Class A predictions of four centrifuge model tests. The validated methodology is then utilized in a parametric study of fault rupture propagation through s...
Subterranean fault rupture has been responsible for many recorded instances of building damage durin...
Fault rupture propagation in free fields lays the ground for an understanding of bedrock-soil-struct...
Earthquake surface fault rupture can cause substantial structural damage and loss of life in near-fa...
NOTE: THE SPECIAL CHARACTERS IN THIS ABSTRACT CANNOT BE DISPLAYED CORRECTLY ON THIS PAGE. PLEASE REF...
Ground deformation induced by fault rupture gives a potential threat to the safety of infrastructure...
Observations after earthquakes where surface fault ruptures crossed engineering facilities reveal th...
Field evidence from recent earthquakes has shown that structures can be designed to survive major su...
Field evidence from recent earthquakes has shown that structures can be designed to survive major su...
This paper presents results from numerical simulations of the propagation of an active dip-slip faul...
Over the past few decades, earthquake engineering research mainly focused on the effects of strong s...
During earthquakes, fault ruptures can emerge at the ground surface generating large surface movemen...
Notorious earthquakes and ground deformations resulted from bedrock fault movement have often been r...
Summarization: The increasing urban development in seismic-prone regions, in conjunction with the co...
Ground deformations induced by normal fault can cause severe damages to infrastructures and pipe lin...
Subterranean fault rupture has been responsible for many recorded instances of building damage durin...
Fault rupture propagation in free fields lays the ground for an understanding of bedrock-soil-struct...
Earthquake surface fault rupture can cause substantial structural damage and loss of life in near-fa...
NOTE: THE SPECIAL CHARACTERS IN THIS ABSTRACT CANNOT BE DISPLAYED CORRECTLY ON THIS PAGE. PLEASE REF...
Ground deformation induced by fault rupture gives a potential threat to the safety of infrastructure...
Observations after earthquakes where surface fault ruptures crossed engineering facilities reveal th...
Field evidence from recent earthquakes has shown that structures can be designed to survive major su...
Field evidence from recent earthquakes has shown that structures can be designed to survive major su...
This paper presents results from numerical simulations of the propagation of an active dip-slip faul...
Over the past few decades, earthquake engineering research mainly focused on the effects of strong s...
During earthquakes, fault ruptures can emerge at the ground surface generating large surface movemen...
Notorious earthquakes and ground deformations resulted from bedrock fault movement have often been r...
Summarization: The increasing urban development in seismic-prone regions, in conjunction with the co...
Ground deformations induced by normal fault can cause severe damages to infrastructures and pipe lin...
Subterranean fault rupture has been responsible for many recorded instances of building damage durin...
Fault rupture propagation in free fields lays the ground for an understanding of bedrock-soil-struct...
Earthquake surface fault rupture can cause substantial structural damage and loss of life in near-fa...