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    The Adhesion, Friction, and Wear of Binary Alloys in Contact With Single-Crystal Silicon Carbide

    Source: Journal of Tribology:;1981:;volume( 103 ):;issue: 002::page 180
    Author:
    Kazuhisa Miyoshi
    ,
    D. H. Buckley
    DOI: 10.1115/1.3251623
    Publisher: The American Society of Mechanical Engineers (ASME)
    Abstract: Sliding friction experiments were conducted with various iron-base alloys (alloying elements were Ti, Cr, Mn, Ni, Rh, and W) in contact with a single-crystal silicon carbide (0001) surface in vacuum. Results indicate atomic size misfit and concentration of alloying elements play a dominant role in controlling adhesion, friction, and wear properties of iron-base binary alloys. The controlling mechanism of the alloy properties is as an intrinsic effect involving the resistance to shear fracture of cohesive bonding in the alloy. The coefficient of friction generally increases with an increase in solute concentration. The coefficient of friction increases as the solute-to-iron atomic radius ratio increases or decreases from unity. Alloys having higher solute concentration produce more transfer to silicon carbide than do alloys having low solute concentrations. The chemical activity of the alloying element is also an important parameter in controlling adhesion and friction of alloys.
    keyword(s): Friction , Wear , Crystals , Alloys , Silicon , Iron , Atomic size , Fracture (Process) , Sliding friction , Mechanisms , Vacuum , Bonding , Electrical resistance AND Shear (Mechanics) ,
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      The Adhesion, Friction, and Wear of Binary Alloys in Contact With Single-Crystal Silicon Carbide

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    http://yetl.yabesh.ir/yetl1/handle/yetl/95204
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    contributor authorKazuhisa Miyoshi
    contributor authorD. H. Buckley
    date accessioned2017-05-08T23:12:16Z
    date available2017-05-08T23:12:16Z
    date copyrightApril, 1981
    date issued1981
    identifier issn0742-4787
    identifier otherJOTRE9-28641#180_1.pdf
    identifier urihttp://yetl.yabesh.ir/yetl/handle/yetl/95204
    description abstractSliding friction experiments were conducted with various iron-base alloys (alloying elements were Ti, Cr, Mn, Ni, Rh, and W) in contact with a single-crystal silicon carbide (0001) surface in vacuum. Results indicate atomic size misfit and concentration of alloying elements play a dominant role in controlling adhesion, friction, and wear properties of iron-base binary alloys. The controlling mechanism of the alloy properties is as an intrinsic effect involving the resistance to shear fracture of cohesive bonding in the alloy. The coefficient of friction generally increases with an increase in solute concentration. The coefficient of friction increases as the solute-to-iron atomic radius ratio increases or decreases from unity. Alloys having higher solute concentration produce more transfer to silicon carbide than do alloys having low solute concentrations. The chemical activity of the alloying element is also an important parameter in controlling adhesion and friction of alloys.
    publisherThe American Society of Mechanical Engineers (ASME)
    titleThe Adhesion, Friction, and Wear of Binary Alloys in Contact With Single-Crystal Silicon Carbide
    typeJournal Paper
    journal volume103
    journal issue2
    journal titleJournal of Tribology
    identifier doi10.1115/1.3251623
    journal fristpage180
    journal lastpage187
    identifier eissn1528-8897
    keywordsFriction
    keywordsWear
    keywordsCrystals
    keywordsAlloys
    keywordsSilicon
    keywordsIron
    keywordsAtomic size
    keywordsFracture (Process)
    keywordsSliding friction
    keywordsMechanisms
    keywordsVacuum
    keywordsBonding
    keywordsElectrical resistance AND Shear (Mechanics)
    treeJournal of Tribology:;1981:;volume( 103 ):;issue: 002
    contenttypeFulltext
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