Thermal Stress Resistance of MaterialsSpringer Science & Business Media, 23.02.2008 - 240 Seiten This brilliant treatise is based on extensive experimental and technological data derived from high-temperature materials development processes. The distinguished authors analyse results from the development of nuclear reactors and aerospace rocket engines. They apply this data to the problem of bearing capacity and the fracture of thermally loaded bodies. They establish new regularities of fracture at various modes of local and combined thermal loading. |
Inhalt
| 5 | |
Methods of Testing for Thermal Stress Resistance | 39 |
Mechanism of Crack Propagation in NonUniform Fields | 67 |
Influence of Thermal Loading Modes on Fracture | 85 |
Effect of Structural Parameters on Thermal Stress | 121 |
ElasticPlastic Deformation Under Local Heating | 171 |
Criteria of Thermal Stress Resistance of Materials | 179 |
Ways of Increasing Thermal Stress Resistance of Ceramic | 188 |
A The General Data on Properties of Constructional | 203 |
| 223 | |
| 237 | |
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appear basis beam bending body boundary brittle calculation carbide carbon caused ceramics character characteristics coating coefficient complex components composites compression stresses conductivity constant cooling crack creep criterion crystals curves cylinder decrease defined deformation depending determined diameter difference direction disk distribution drop effect elastic elements energy estimation example expansion experimental face failure field formation fracture toughness grain grain boundaries graphite growth heat resistance heat transfer inclusions increase influence initial layers length limits linear materials matrix maximum mean measured mechanical metal method modification observed obtained occurs origination owing oxide parameters particles phase plane plastic possible presented problem propagation properties radial radius range reduced relaxation residual stresses samples solution specimens strain strength structure surface temperature tensile stresses tension testing thermal loading thermal stress resistance values various vary zirconium zone