A MICROSTRUCTURAL STUDY OF FATIGUE FAILURE IN Ti-15V-3Cr-3Sn-3Al ALLOY

机译：Ti-15V-3Cr-3Sn-3铝合金疲劳失效的微观结构研究

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Ti-15-3 alloy thin plate specimen having two different microstructures has been cyclically stressed in alternating plane bending to clarify the fatigue failure micromechanism of P titanium alloys. Microstructures of the specimen were controlled by the heat treatment in two ways: as solution-treated (specimen S), and as solution-and-aging treated (specimen S+A). Fatigue tests were conducted at R = -1, at room temperature and in air. Specimen S was better in fatigue properties than specimen S+A. Fatigue cracks in both specimens propagated in transgranular mode. Fracture surface topography appeared more brittle in specimen S than in specimen S+A. It was found from microstructural examinations that fatigue failure micromechanism depended on the applied stress amplitude in specimen S and on the configuration of the α-phase platelets precipitated in specimen S+A during the heat treatment.

机译：具有两种不同微结构的Ti-15-3合金薄板样本在交替平面弯曲中循环地应力，以澄清P钛合金的疲劳失效微机理。样品的微观结构通过两种方式控制：作为溶液处理（样本S），以及作为溶液和老化处理的（样本S + A）。疲劳试验在R = -1处，室温和空气中进行。样本S比样本S + A更好地疲劳性能。两种样本中的疲劳裂缝以跨晶模式传播。裂缝表面形貌在标本S中似乎比样品S + A更脆。从微观结构检查中发现，疲劳失效微观机制依赖于样本S中的施加应力振幅以及在热处理期间在样品S + A中沉淀的α相血小板的构型。

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《International conference of the Engineering Iegrity Society》|2003年||共8页
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Nur Ismarrubie Zahari; Satoshi Yoda; Zen-ei Tanaka; Mikio Sugano;
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中图分类疲劳理论;
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A MICROSTRUCTURAL STUDY OF FATIGUE FAILURE IN Ti-15V-3Cr-3Sn-3Al ALLOY

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