Add to ORKGThe aim of this study is to evaluate a methodology for modeling the influence of crystallographic grain orientation on key parameters in normal and sliding contacts. The simulations of interfering cylindrical asperities, using finite element analysis, were conducted using two different plasticity models for copper: a conventional isotropic, homogeneous J2 plasticity model and a continuum crystal plasticity model. A normal contact study was conducted in which crystallographic orientation effects on different parameters were investigated. The model was then adapted for sliding contacts, which allowed other parameters such as energy dissipation to be investigated. Using crystal plasticity, the dependence of crystallographic orientation on p...
Scope and Method of Study: The objective of the proposed research is to develop user friendly finite...
Dynamic wake models have been used in real-time flight simulations for over thirty years. The models...
Self-assembly of granular materials and colloids are studied using several different computational m...
This work presents a three dimensional elastic-plastic model for two hemispherical bodies sliding ac...
This work presents a three dimensional elastic-plastic model for two hemispherical bodies sliding ac...
This research project serves as exploratory work in the field of computational human biomechanics. A...
This research project serves as exploratory work in the field of computational human biomechanics. A...
Among all existing fuel cell technologies, the planar solid oxide fuel cell (SOFC) is the most promi...
Polyethylene is a polymeric material that has a wide variability in its crystal content covering a b...
Among all existing fuel cell technologies, the planar solid oxide fuel cell (SOFC) is the most promi...
Roll compaction is a mechanical processing technique implemented in a wide range of industries inclu...
The following research explores the continuous bending under tension (CBT) incremental forming proce...
Direct Metal Laser Sintering (DMLS) is an additive manufacturing (AM) technique that uses a laser to...
This thesis is divided into two parts. The main focus of the research, namely active vibration contr...
Lubricants are used in numerous applications to control friction and protect moving parts from fatig...
Scope and Method of Study: The objective of the proposed research is to develop user friendly finite...
Dynamic wake models have been used in real-time flight simulations for over thirty years. The models...
Self-assembly of granular materials and colloids are studied using several different computational m...
This work presents a three dimensional elastic-plastic model for two hemispherical bodies sliding ac...
This work presents a three dimensional elastic-plastic model for two hemispherical bodies sliding ac...
This research project serves as exploratory work in the field of computational human biomechanics. A...
This research project serves as exploratory work in the field of computational human biomechanics. A...
Among all existing fuel cell technologies, the planar solid oxide fuel cell (SOFC) is the most promi...
Polyethylene is a polymeric material that has a wide variability in its crystal content covering a b...
Among all existing fuel cell technologies, the planar solid oxide fuel cell (SOFC) is the most promi...
Roll compaction is a mechanical processing technique implemented in a wide range of industries inclu...
The following research explores the continuous bending under tension (CBT) incremental forming proce...
Direct Metal Laser Sintering (DMLS) is an additive manufacturing (AM) technique that uses a laser to...
This thesis is divided into two parts. The main focus of the research, namely active vibration contr...
Lubricants are used in numerous applications to control friction and protect moving parts from fatig...
Scope and Method of Study: The objective of the proposed research is to develop user friendly finite...
Dynamic wake models have been used in real-time flight simulations for over thirty years. The models...
Self-assembly of granular materials and colloids are studied using several different computational m...