NASA/CR-1999-209427, Chell, G.G. and McClung, R.C. and Kuhlman, C.J. and Russell*, D.A. and Garr*, K. and Donnelly*, B., Guidelines for Proof Test Analysis, Structures and Dynamics Laboratory, Science and Engineering Directorate, Technical Monitor: Charles L. Denniston, *Subcontract Support from Rocketdyne Division, Boeing North American, 6633 Canoga Ave., Canoga Park, CA 91303, and Southwest Research Institu, July, 1999, pp. 360, Format(s): PDF 38045k |
These guidelines integrate state-of-the-art elastic-plastic fracture mechanics (EPFM) and proof test implementation issues into a comprehensive proof test analysis procedure in the form of a road map which identifies the types of data, fracture mechanics based parameters, and calculations needed to perform flaw screening and minimum proof load analyses of fracture critical components. Worked examples are presented to illustrate the application of the road map to proof test analysis. The state-of-the-art fracture technology employed in these guidelines is based on the EPFM parameter, J, and a pictorial representation of a J fracture analysis, called the failure assessment diagram (FAD) approach. The recommended fracture technology is validated using finite element J results, and laboratory and hardware fracture test results on the nickel-based super alloy Inconel 718, the aluminum alloy 2024-T3511, and ferritic pressure vessel steels. In all cases the laboratory speciments and hardware failed by ductile mechanisms. Advanced proof test analyses involving probability analysis and multiple-cycle proof testing(MCPT) are addressed. Finally, recommendations are provided on how to account for the effects of the proof test overload on subsequent service fatigue and fracture behavior
| Keywords: | proof test analysis, elastic-plactic fracture mechanics, j-integral, failure assessment diagrams, reference stress approach, cracks at stress concentrators,defected welds, residual stresses, resistance curves, ductile crack growth, tear-fatigue, multiple-cycle proof testing, probability analysis, proof test overload effects, nondestructive examination, inconel 718, aluminum 2024-t3511, ferritic pressure vessel steels, hardware testing, laboratory fracture tests |
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| Subjects: | Engineering: Structural Mechanics: Structural Fatigue |
| ID Code: | 474 |
| Deposited On: | 15 July 2002 |