Fretting Fatigue Behavior of a Titanium Alloy Ti-6AL-4V at Elevated Temperature PDF Download

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Fretting Fatigue Behavior of a Titanium Alloy Ti-6AL-4V at Elevated Temperature

Fretting Fatigue Behavior of a Titanium Alloy Ti-6AL-4V at Elevated Temperature PDF Author: Onder Sahan
Publisher:
ISBN: 9781423511564
Category : Titanium-aluminum-vanadium alloys
Languages : en
Pages : 116

Book Description
The purpose of this research is to investigate the fretting fatigue behavior of the titanium alloy Ti-6Al-4V at elevated temperature is investigated. Fretting and plain fatigue experiments are conducted at 260 . Crack initiation location and crack initiation orientation is measured and fretting and plain fatigue life data of the specimens from these tests are obtained. Fatigue parameters capable of predicting the number of cycles to specimen failure, the crack location and the crack orientation along the contact surface are analyzed. The parameters are calculated by using the computed stresses and strains obtained from the finite element analysis. The mechanisms responsible for the fretting fatigue crack initiation are determined. The effect of elevated temperature is examined by comparing room and elevated temperature fretting and plain fatigue data.

Fretting Fatigue Behavior of a Titanium Alloy Ti-6AL-4V at Elevated Temperature

Fretting Fatigue Behavior of a Titanium Alloy Ti-6AL-4V at Elevated Temperature PDF Author: Onder Sahan
Publisher:
ISBN: 9781423511564
Category : Titanium-aluminum-vanadium alloys
Languages : en
Pages : 116

Book Description
The purpose of this research is to investigate the fretting fatigue behavior of the titanium alloy Ti-6Al-4V at elevated temperature is investigated. Fretting and plain fatigue experiments are conducted at 260 . Crack initiation location and crack initiation orientation is measured and fretting and plain fatigue life data of the specimens from these tests are obtained. Fatigue parameters capable of predicting the number of cycles to specimen failure, the crack location and the crack orientation along the contact surface are analyzed. The parameters are calculated by using the computed stresses and strains obtained from the finite element analysis. The mechanisms responsible for the fretting fatigue crack initiation are determined. The effect of elevated temperature is examined by comparing room and elevated temperature fretting and plain fatigue data.