Synthesis and evaluation of hardness and sliding wear resistance of electrodeposited nanocrystalline Ni–Fe–W alloys

Wear-resistant Cu-based solid-solution-toughened Cr5Si3/CrSi metal silicide alloy with a microstructure consisting of predominantly the dual-phase primary dendrites with a Cr5Si3 core encapsulated by CrSi phase and a small amount of interdendritic Cu-based solid solution (Cuss) was designed and fabricated by the laser melting process using Cr–Si–Cu elemental powder blends as the precursor materials. The microstructure of the Cuss-toughened Cr5Si3/CrSi metal silicide alloy was characterized by optical microscopy, powder x-ray diffraction, and energy dispersive spectroscopy. The Cuss-toughened silicide alloys have excellent wear resistance and low coefficient of friction under room temperature dry sliding wear test conditions with hardened 0.45% C carbon steel as the sliding–mating counterpart.

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Sliding wear resistance of tempered D6ac steel

Vacuum ◽

10.1016/j.vacuum.2012.06.005 ◽

2013 ◽

Vol 87 ◽

pp. 89-94 ◽

Cited By ~ 4

Author(s):

Shyh-Chi Wu ◽

Hua-Chiang Wene ◽

Kuang-Hung Tseng ◽

Wei-Hung Yau ◽

Ming-Jhang Wu ◽

...

Keyword(s):

Wear Resistance ◽

Sliding Wear

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Microstructure and dry sliding wear resistance of laser clad TiC reinforced Ti–Ni–Si intermetallic composite coating

Surface and Coatings Technology ◽

10.1016/j.surfcoat.2009.09.024 ◽

2009 ◽

Vol 204 (5) ◽

pp. 731-735 ◽

Cited By ~ 43

Author(s):

Y.J. Dong ◽

H.M. Wang

Keyword(s):

Wear Resistance ◽

Composite Coating ◽

Sliding Wear ◽

Dry Sliding Wear ◽

Dry Sliding ◽

Intermetallic Composite

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Improving Wear Resistance of AISI 316LN Austenitic Stainless Steel Using Friction Stir Processing

Applied Mechanics and Materials ◽

10.4028/www.scientific.net/amm.787.421 ◽

2015 ◽

Vol 787 ◽

pp. 421-425

Author(s):

A. Vignesh ◽

V.G. Vijay Prakaash ◽

A.K. Lakshminarayanan

Keyword(s):

Stainless Steel ◽

Wear Resistance ◽

Austenitic Stainless Steel ◽

Friction Stir Processing ◽

Sliding Wear ◽

Dry Sliding Wear ◽

Friction Stir ◽

Pin On Disc ◽

Metal Microstructure ◽

Equiaxed Grains

An attempt is made to modify the surface metallurgically and enhance the wear resistance of AISI 316LN austenitic stainless steel using friction stir processing. Friction stir welding tools made up of tungsten based alloy with pin and pinless configuration was used. Fine equiaxed grains were observed in the friction stir processed zone irrespective of tool configuration used. Dry sliding wear resistance was evaluated using pin-on-disc wear tester and it is found that, the friction stir processed zone showed superior wear resistance compared to the base metal. Microstructure, micro hardness, and worn surfaces were used to correlate the results obtained.

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Microstructure, Mechanical Properties and Wear Resistance of WC/Co Nanocomposites

MRS Proceedings ◽

10.1557/proc-457-303 ◽

1996 ◽

Vol 457 ◽

Cited By ~ 8

Author(s):

Kang Jia ◽

Traugott E. Fischer

Keyword(s):

Mechanical Properties ◽

Wear Resistance ◽

Sliding Wear ◽

Adhesive Wear ◽

Liquid Phase Sintering ◽

Binder Phase ◽

Slow Cooling ◽

Diamond Indenter ◽

Grain Fragmentation ◽

Spray Conversion

ABSTRACTThe microstructure, mechanical properties, abrasion and wear resistance of WC-Co nanocomposites synthesized by the spray conversion technique by McCandlish, Kear and Kim have been investigated. The binder phase of WC-Co nanocomposites is enriched in W and C, compared to conventional cermets. Small amorphous regions exist in the binder despite the slow cooling after liquid phase sintering. Few dislocations are found in the WC grains. The increased WC content and the amorphous regions modify (i.e. strengthen) the binder phase of the composites. Vickers indentation measurements show a hardness of the nanocomposites reaching 2310 kg/mm2. While the toughness of conventional cermets decreases with increasing hardness, the toughness does not decrease further as the WC grain size decreases from 0.7 to 0.07 μm. but remains constant at 8 MPam1/2. Scratches caused by a diamond indenter are small, commensurate with their hardness. These scratches are ductile, devoid of the grain fracture that is observed with conventional materials. The abrasions resistance of nanocomposites is about double that of conventional materials, although their hardness is larger by 23% only. This is due to the lack of WC grain fragmentation and removal which takes place in conventional cermets. Sliding wear resistance of WC/Co is proportional to their hardness; no additional benefit of nanostructure is obtained. This results from the very small size of adhesive wear events in even large WC grains.

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Determination of the effect of artificial aging parameters on dry sliding wear resistance of 6013 aluminum alloy (Al-Mg-Si-Cu)

International Advanced Researches and Engineering Journal ◽

10.35860/iarej.839108 ◽

2021 ◽

Vol 5 (2) ◽

pp. 181-187

Author(s):

Mehmet AYVAZ

Keyword(s):

Wear Resistance ◽

Aluminum Alloy ◽

Sliding Wear ◽

Artificial Aging ◽

Dry Sliding Wear ◽

Dry Sliding

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Cavitation Erosion and Sliding Wear of MCrAlY and NiCrMo Coatings Deposited by HVOF Thermal Spraying

Advances in Materials Science ◽

10.2478/adms-2020-0008 ◽

2020 ◽

Vol 20 (2) ◽

pp. 26-38 ◽

Cited By ~ 1

Author(s):

M. Szala ◽

M. Walczak ◽

L. Łatka ◽

K. Gancarczyk ◽

D. Özkan

Keyword(s):

Wear Resistance ◽

Sliding Wear ◽

Cavitation Erosion ◽

Erosion Resistance ◽

Nickel Content ◽

Thermal Spraying ◽

Point Of View ◽

Engineering Practice ◽

Hvof Thermal Spraying ◽

Cavitation Erosion Resistance

AbstractThe investigation into wear resistance is an up-to-date problem from the point of view of both scientific and engineering practice. In this study, HVOF coatings such as MCrAlY (CoNiCrAlY and NiCoCrAlY) and NiCrMo were deposited on AISI 310 (X15CrNi25-20) stainless steel substrates. The microstructural properties and surface morphology of the as-sprayed coatings were examined. Cavitation erosion tests were conducted using the vibratory method in accordance with the ASTM G32 standard. Sliding wear was examined with the use of a ball-on-disc tribometer, and friction coefficients were measured. The sliding and cavitation wear mechanisms were identified with the SEM-EDS method. In comparison to the NiCrMo coating, the MCrAlY coatings have lower wear resistance. The cavitation erosion resistance of the as-sprayed M(Co,Ni)CrAlY coatings is almost two times lower than that of the as-sprayed NiCrMoFeCo deposit. Moreover, the sliding wear resistance increases with increasing the nickel content as follows: CoNiCrAlY < NiCoCrAlY < NiCrMoFeCo. The mean friction coefficient of CoNiCrAlY coating equals of 0.873, which almost 50% exceed those reported for coating NiCrMoFeCo of 0.573. The as-sprayed NiCrMoFeCo coating presents superior sliding wear and cavitation erosion resistance to the as-sprayed MCrAlY (CoNiCrAlY and NiCoCrAlY) coatings.

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Wear Characteristics of Low Temperature Degradation-Free Zirconia/Alumina Composites in a Point Contact Condition

Key Engineering Materials ◽

10.4028/www.scientific.net/kem.342-343.557 ◽

2007 ◽

Vol 342-343 ◽

pp. 557-560

Author(s):

Kwon Yong Lee ◽

Hwan Kim ◽

D.W. Kim ◽

Dae Joon Kim ◽

Myung Hyun Lee ◽

...

Keyword(s):

Wear Resistance ◽

Low Temperature ◽

Bovine Serum ◽

Sliding Wear ◽

Point Contact ◽

Dry Sliding Wear ◽

Sliding Motion ◽

Alumina Composites ◽

Pin On Disk ◽

Wear Tests

The sliding wear of four different compositions of novel low temperature degradation-free zirconia/alumina (LTD-free Z/A) composites were characterized in a ceramicceramic point contact pair. The wear tests were performed by a pin-on-disk type wear tester in a linear reciprocal sliding motion with a point contact in both dry and bovine serum lubricated conditions at room temperature. For the dry sliding wear tests, AZ-2 (20 vol% (Y,Nb,Ce)-TZP/ 80 vol% Al2O3) showed the best wear resistance among four kinds of LTD-free Z/A composites. For the bovine serum lubricated sliding wear tests, wear was too little to be measured for all kinds of Z/A composites. These novel LTD-free Z/A composites having excellent wear resistance demonstrated a potential as the alternative materials for the ceramic- ceramic contact pairs of femoral head and acetabular liner in total hip replacement.

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