2014
DOI: 10.1155/2014/474723
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A Study on Surface Modification of Al7075-T6 Alloy against Fretting Fatigue Phenomenon

Abstract: Aircraft engines, fuselage, automobile parts, and energy saving strategies in general have promoted the interest and research in the field of lightweight materials, typically on alloys based on aluminum. Aluminum alloy itself does not have suitable wear resistance; therefore, it is necessary to enhance surface properties for practical applications, particularly when aluminum is in contact with other parts. Fretting fatigue phenomenon occurs when two surfaces are in contact with each other and one or both parts… Show more

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Cited by 21 publications
(7 citation statements)
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References 114 publications
(142 reference statements)
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“…Considering an industrial frame, the particular purpose of this work was the fatigue life prediction of components when changing machining parameters and processes, in order to avoid tests that could be expensive and time-consuming. Accounting for other methods present in literature [302][303][304][305][306][307][308][309] that usually consider the surface roughness as a notch effect in terms of stress, the theory developed by Suraratchai et al [299] modeled how the geometric surface condition affects the fatigue properties of structures. In this theory [299] the surface roughness is considered responsible for the generation of a local stress concentration, controlling the possible surface crack propagation or nonpropagation.…”
Section: Continuum Damage Mechanics (Cdm) Models For Fatigue Life Prementioning
confidence: 99%
“…Considering an industrial frame, the particular purpose of this work was the fatigue life prediction of components when changing machining parameters and processes, in order to avoid tests that could be expensive and time-consuming. Accounting for other methods present in literature [302][303][304][305][306][307][308][309] that usually consider the surface roughness as a notch effect in terms of stress, the theory developed by Suraratchai et al [299] modeled how the geometric surface condition affects the fatigue properties of structures. In this theory [299] the surface roughness is considered responsible for the generation of a local stress concentration, controlling the possible surface crack propagation or nonpropagation.…”
Section: Continuum Damage Mechanics (Cdm) Models For Fatigue Life Prementioning
confidence: 99%
“…Finishing operations can be eliminated or held to a minimum. Nitriding is a thermo-chemical process generates pronounced improvements in the mechanical and chemical properties, as well as the fatigue endurance and the corrosion resistance of steels (Mohseni et al, 2014;Puntambekar, 2013). The process basically consists of nitrogen incorporation through the surface and its subsequent diffusion into the material bulk (Puntambekar, 2013;Zagonel et al, 2009).…”
Section: Nitridingmentioning
confidence: 99%
“…In this method, nitrogen atoms are diffused into the material, inducing the formation of a surface-hardened layer in a certain medium at a certain temperature. The chemical treatment of metal materials, such as aluminium alloys and titanium alloys, may be carried out by plasma nitriding, ion nitriding or gas nitriding [14]. The formation of precipitates in the nitrogen atom diffusion layer caused by the nitriding treatment promotes the surface hardness of the metal material, thereby increasing the fretting fatigue life of the component [15].…”
Section: Traditional Surface-treatment Technology For Fretting Fatiguementioning
confidence: 99%