FATIGUE FAILURE PREDICTION BY X-RAY DOUBLE CRYSTAL DIFFRACTOMETRY AND TOPOGRAPHY.

Robert N. Pangborn; S. Weissmann; I. R. Kramer

FATIGUE FAILURE PREDICTION BY X-RAY DOUBLE CRYSTAL DIFFRACTOMETRY AND TOPOGRAPHY.

Robert N. Pangborn, S. Weissmann, I. R. Kramer

Research output: Contribution to conference › Paper

Abstract

In single crystals and Al 2024 alloy, a propensity for work hardening in the surface layers compared to the bulk material was demonstrated for both tensile deformed and fatigue cycled metals. The cyclically-induced defect distribution with depth from the surface was also investigated as a function of the fraction of fatigue life.

Original language	English (US)
Pages	1279-1284
Number of pages	6
State	Published - Jan 1 1980
Event	Strength of Met and Alloys, Proc of the Int Conf, 5th - Aachen, Ger Duration: Aug 27 1979 → Aug 31 1979

Other

Other	Strength of Met and Alloys, Proc of the Int Conf, 5th
City	Aachen, Ger
Period	8/27/79 → 8/31/79

All Science Journal Classification (ASJC) codes

Engineering(all)

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Pangborn, R. N., Weissmann, S., & Kramer, I. R. (1980). FATIGUE FAILURE PREDICTION BY X-RAY DOUBLE CRYSTAL DIFFRACTOMETRY AND TOPOGRAPHY.. 1279-1284. Paper presented at Strength of Met and Alloys, Proc of the Int Conf, 5th, Aachen, Ger, .

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abstract = "In single crystals and Al 2024 alloy, a propensity for work hardening in the surface layers compared to the bulk material was demonstrated for both tensile deformed and fatigue cycled metals. The cyclically-induced defect distribution with depth from the surface was also investigated as a function of the fraction of fatigue life.",

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AU - Weissmann, S.

AU - Kramer, I. R.

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N2 - In single crystals and Al 2024 alloy, a propensity for work hardening in the surface layers compared to the bulk material was demonstrated for both tensile deformed and fatigue cycled metals. The cyclically-induced defect distribution with depth from the surface was also investigated as a function of the fraction of fatigue life.

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