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contributor authorSergiy Kalnaus
contributor authorYanyao Jiang
date accessioned2017-05-09T00:28:12Z
date available2017-05-09T00:28:12Z
date copyrightJuly, 2008
date issued2008
identifier issn0094-4289
identifier otherJEMTA8-27109#031013_1.pdf
identifier urihttp://yetl.yabesh.ir/yetl/handle/yetl/138075
description abstractTension-compression, torsion, and axial-torsion fatigue experiments were conducted on the AL6XN alloy to experimentally investigate the cyclic plasticity behavior and the fatigue behavior. The material is found to display significant nonproportional hardening when the equivalent plastic strain amplitude is over 2×10−4. In addition, the material exhibits overall cyclic softening. Under tension-compression, the cracking plane is perpendicular to the axial loading direction regardless of the loading amplitude. The smooth strain-life curve under fully reversed tension-compression can be described by a three-parameter power equation. However, the shear strain-life curve under pure torsion loading displays a distinct plateau in the fatigue life range approximately from 20,000 to 60,000 loading cycles. The shear strain amplitude corresponding to the plateau is approximately 1.0%. When the shear strain amplitude is above 1.0% under pure shear, the material displays shear cracking. When the shear strain amplitude is below 1.0%, the material displays tensile cracking. A transition from shear cracking to tensile cracking is associated with the plateau in the shear strain-life curve. Three different multiaxial fatigue criteria were evaluated based on the experimental results on the material for the capability of the criteria to predict fatigue life and the cracking direction. Despite the difference in theory, all the three multiaxial criteria can reasonably correlate the experiments in terms of fatigue life. Since the cracking mode of the material subjected to pure torsion is a function of the loading magnitude, the prediction of cracking orientation becomes rather challenging.
publisherThe American Society of Mechanical Engineers (ASME)
titleFatigue of AL6XN Stainless Steel
typeJournal Paper
journal volume130
journal issue3
journal titleJournal of Engineering Materials and Technology
identifier doi10.1115/1.2931154
journal fristpage31013
identifier eissn1528-8889
keywordsStress
keywordsShear (Mechanics)
keywordsTorsion
keywordsFracture (Process)
keywordsCompression
keywordsFatigue
keywordsFatigue life
keywordsTension
keywordsStainless steel
keywordsCycles AND Alloys
treeJournal of Engineering Materials and Technology:;2008:;volume( 130 ):;issue: 003
contenttypeFulltext


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