HAIBACH, 1973 - Google Patents
Logical derivation of a stepped spectrum for fatigue testingHAIBACH, 1973
- Document ID
- 5536827487540765000
- Author
- HAIBACH E
- Publication year
External Links
- 238000001228 spectrum 0 title abstract description 8
Similar Documents
| Publication | Publication Date | Title |
|---|---|---|
| ES456375A1 (en) | Fuel injection metering system | |
| HAIBACH | Logical derivation of a stepped spectrum for fatigue testing | |
| Potter | An experimental and analytical study of spectrum truncation effects | |
| ZOCHER | Full scale fatigue requirements for rational fatigue life prediction | |
| LOWAK et al. | Influence of the irregularity factor on the lifetime(of structural members) | |
| Breitbach et al. | Modal survey tests on the spacecraft structure ITOS RCA 1769 701 | |
| TRUFIAKOV et al. | Variation of residual stresses in stress concentration regions under cyclic loading | |
| KONOVALOV et al. | A method of programmed fatigue tests with short-time overloads | |
| JPS5653431A (en) | Method and device for measuring stress with x-ray | |
| Mann | Fatigue testing- Objectives, philosophies and procedures | |
| VAKHITOV | Dependence of durability on the type of loading and on factors which characterize the test conditions(Laws governing stress-rupture strength for structural materials under conditions of cyclic loading) | |
| Konoplenko et al. | Modernization of a machine for micromechanical tensile testing at high temperatures | |
| HERZOG | Fatigue testing of turbine buckets- part i, method for vibration, temperature, and stress tests | |
| KIDDLE et al. | A study of thermal fatigue acceleration in box beams under mechanical and thermal stress(Concorde aircraft service life prediction) | |
| SJOESTROEM | Experimental methods used at Scania-Vabis for fatigue life determination of vehicle components(Fatigue life determination of motor vehicle components by method of stress analysis of random loads) | |
| OSTERMANN | Form factors of flat bars for fatigue strength tests(Determination of flat notched fatigue test specimens form numbers by stress optical method and finite element method, noting standardization) | |
| FREDDI | Calculation of the stress intensity factor by means of the finite element method | |
| Kagawa et al. | Influence of Applied Tensile Stress on Microhardness | |
| DODSON et al. | Advanced cost estimating and synthesis techniques for avionics[Final Report] | |
| JPS5340901A (en) | Chassis dynamometer | |
| MANJOINE | Basic creep-rupture testing at 1100 deg F(593 deg C) of type 304 stainless steel for uniaxially loaded specimens with stress and strain gradients | |
| Tanaka et al. | A statistical study on fatigue life distribution in long life region | |
| WEHMAN | The evaluation of the test procedure for hazardous binary combinations of materials in marine transportation[Final Report] | |
| BASTENAIRE | The random character of results of fatigue tests and its processing for the requirements of the engineer | |
| REIFSNIDER et al. | Heat generation in composite materials during fatigue loading[Interim Report] |