Wear characteristics of phosphor–bronze/silicon carbide particulate composites

Sharma, S.C.; Satish, B.M.; Girish, B.M.; Somashekar, D.R.

doi:10.1016/s0924-0136(01)00868-8

Cited by 27 publications

(11 citation statements)

References 8 publications

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“…In addition, friction coefficient and weight loss of bronze specimens are found to increase linearly when increasing the sliding velocity and load [25,26]. Sharma et al [27] determined that high speed or high load affects the wear rate in journal bearings. Rapoport et al [28] and Gronostajski et al [21] determined the friction coefficient of 0.08 in bronze bearings.…”

Section: Wear Propertiesmentioning

confidence: 99%

Evaluation of effect of alloy elements in copper based CuSn10 and CuZn30 bearings on tribological and mechanical properties

Ünlü

Atík

2010

Journal of Alloys and Compounds

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Section: Wear Propertiesmentioning

confidence: 99%

Evaluation of effect of alloy elements in copper based CuSn10 and CuZn30 bearings on tribological and mechanical properties

Ünlü

Atík

2010

Journal of Alloys and Compounds

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“…In addition, CuSn6P overlays can be used under extreme conditions, including at temperatures of approximately 450 °C. Phosphor bronze alloys are thus high-potential Cu alloys that exhibit a high wear resistance, good machinability, cold workability, and high fatigue and corrosion resistance [ 14 ].…”

Section: Introductionmentioning

confidence: 99%

Restoration of Worn Movable Bridge Props with Use of Bronze Claddings

et al. 2018

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This article examined the possibility of using CuSn6P claddings in sliding bearing renovation of movable pontoon bridge props. The bronze layer was welded on cylinders of the high-strength steel S355J0WP EN 10155-93, in an inert atmosphere using an automated welding method (gas tungsten arc welding). Pulsed arc welding was used to minimize the effects of heat on the cladding area, while also accounting for the differences in the physical properties of the joined metals. The sliding bearing was created in two layers. The quality of the cladding layer was evaluated by nondestructive and/or destructive tests. The quality of the surface was assessed by visual inspection (visual testing) in accordance with the EN ISO 17637 standard. The quality of the claddings was evaluated by metallographic analysis, performed using light microscopy. The microhardness values of a few weld areas were determined by Vickers tests, performed according to the EN ISO 9015–2 standard. The analyses confirmed that the welding parameters and filler material used resulted in high-quality weld joints with no internal (subsurface) or metallurgical defects.

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“…Several methods of processing of aluminium alloys have been demonstrated by different authors [2,5,8,[10][11][12][13][14]. Alloying addition have been reported to successfully enhanced the aluminium alloy properties such as corrosion resistant and mechanical properties [5,15,16]. The aluminium alloy containing Al-Mn and Al-Mg [5] alloys are the least resistant to corrosion under various conditions.…”

Section: Introductionmentioning

confidence: 99%

The influence of Cu doped on structure and mechanical properties of aluminium material

2018

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Development of technology in industrial field specially automotive needs specific materials with good properties. Aluminum materials are as alternative to answer this challenge. Aluminum alloy that is being developed by Cu doped will be found the new material with good properties. In this report, we have synthesized AlCu alloy using hot mixing method. The composition of 95.1 to 96.2 wt % of Al and 3.8 to 4.9 wt% of Cu were synthesized by melting and mixing process at a temperature of 1100 o C. Analysis of the structure of x-ray diffraction data for Al-Cu showed a single phase of Al for all compositions. The mechanical properties such as hardness of highest vickers of alloy of 96.2% Al -3.8% Cu is 80 kg/mm 2 for cooling in room temperature.

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Wear characteristics of phosphor–bronze/silicon carbide particulate composites

Cited by 27 publications

References 8 publications

Evaluation of effect of alloy elements in copper based CuSn10 and CuZn30 bearings on tribological and mechanical properties

Evaluation of effect of alloy elements in copper based CuSn10 and CuZn30 bearings on tribological and mechanical properties

Restoration of Worn Movable Bridge Props with Use of Bronze Claddings

The influence of Cu doped on structure and mechanical properties of aluminium material

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