Influence of Deposition Bias Voltage on Fatigue Cracking Behavior of Chromium Nitride Film Deposited on Steel
p.275
p.275
The Relation of the Interlaminar Fracture Toughness and the Acoustic Emission (Ae) under the Enf Test
p.279
p.279
Fatigue Lives of a Ferritic Stainless Steel Containing Deformation Twins
p.283
p.283
Shear-Type Fatigue Crack Growth in SAE52100 Steel
p.287
p.287
Effect of Extrusion Ratio on Fatigue Properties of Hot-Extruded Magnesium Alloys
p.291
p.291
Effects of Microstructures on Strength and Fatigue Properties of Long-Term-Serviced F12 Steels
p.295
p.295
Fatigue Properties of Surface-Micromachined Al-3%Ti Thin Films
p.299
p.299
Life Evaluation of a Disk Brake of Railway Vehicles Considering Pressure Distributions at a Frictional Surface
p.303
p.303
Crack Formation of Ceramic Thin Film on Polymer Substrate
p.307
p.307
Effect of Extrusion Ratio on Fatigue Properties of Hot-Extruded Magnesium Alloys
Abstract:
In the present study, fatigue experiments were conducted using two kinds of extruded magnesium alloys with different extrusion ratios. Effect of the extrusion ratio on fatigue lives and crack propagation behavior was studied in detail. There was no dramatic effect of the extrusion ratio on fatigue life, fatigue limit and crack propagation behavior.
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Info:
Periodical:
Key Engineering Materials (Volumes 353-358)
Pages:
291-294
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Online since:
September 2007
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