Abaqus Analysis User’s Guide

“Heat transfer and thermalstress analysis,” Section 6.5

“Heat transfer analysis procedures: overview,” Section 6.5.1

“Uncoupled heat transfer analysis,” Section 6.5.2

“Fully coupled thermalstress analysis,” Section 6.5.3


“Electromagnetic analysis,” Section 6.7

“Coupled thermalelectrical analysis,” Section 6.7.3

“Fully coupled thermalelectricalstructural analysis,” Section 6.7.4


“Generating thermal matrices,” Section 10.3.2

“Sequentially coupled thermalstress analysis,” Section 16.1.2

“Thermal expansion,” Section 26.1.2

“Heat transfer properties,” Section 26.2

“Thermal properties: overview,” Section 26.2.1

“Conductivity,” Section 26.2.2

“Specific heat,” Section 26.2.3

“Latent heat,” Section 26.2.4


“Userdefined thermal material behavior,” Section 26.7.2

“Thermal contact properties,” Section 37.2.1
Abaqus Example Problems Guide

“Heat transfer and thermalstress analyses,” Section 5.1

“Thermalstress analysis of a disc brake,” Section 5.1.1

“A sequentially coupled thermomechanical analysis of a disc brake with an Eulerian approach,” Section 5.1.2

“Exhaust manifold assemblage,” Section 5.1.3

“Coolant manifold cover gasketed joint,” Section 5.1.4

“Conductive, convective, and radiative heat transfer in an exhaust manifold,” Section 5.1.5

“Thermalstress analysis of a reactor pressure vessel bolted closure,” Section 5.1.6

“Coupled thermomechanical analysis of viscoelastic dampers,” Section 5.1.7

Abaqus Benchmarks Guide

“Heat transfer and thermalstress analysis,” Section 1.6

“Convection and diffusion of a temperature pulse,” Section 1.6.1

“Freezing of a square solid: the twodimensional Stefan problem,” Section 1.6.2

“Coupled temperaturedisplacement analysis: onedimensional gap conductance and radiation,” Section 1.6.3

“Quenching of an infinite plate,” Section 1.6.4

“Twodimensional elemental cavity radiation view factor calculations,” Section 1.6.5

“Axisymmetric elemental cavity radiation view factor calculations,” Section 1.6.6

“Threedimensional elemental cavity radiation view factor calculations,” Section 1.6.7

“Radiation analysis of a plane finned surface,” Section 1.6.8


“Soils analysis,” Section 1.15

“The onedimensional thermal consolidation problem,” Section 1.15.6

“Consolidation around a cylindrical heat source,” Section 1.15.7


“Fracture mechanics,” Section 1.16
 “Singleedged notched specimen under a thermal load,” Section 1.16.8
Abaqus Theory Guide

“Heat transfer,” Section 2.11

“Uncoupled heat transfer analysis,” Section 2.11.1

“Shell heat conduction,” Section 2.11.2

“Convection/diffusion,” Section 2.11.3

“Cavity radiation,” Section 2.11.4

“View factor calculation,” Section 2.11.5


“Coupled thermalelectrical analysis,” Section 2.12.1

“Heat generation caused by plastic straining,” Section 4.3.10

“Thermal interface definition,” Section 5.2.4

“Heat generation caused by frictional sliding,” Section 5.2.5

“Heat generation caused by electrical current,” Section 5.2.6