Three-Body Abrasive Wear Behavior of WC-10Cr3C2-12Ni Coating for Ball Mill Liner Application

Hu, Qiang; Ji, Dehui; Shen, Mingxue; Zhuang, Hui; Yao, Hai-Long; Zhao, Huoping; Guo, Haojie; Zhang, Youliang

doi:10.3390/ma15134569

Cited by 6 publications

(6 citation statements)

References 33 publications

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“…The reason is as follows: because Cr has higher hardness and poorer wettability with WC in comparison to Co [18], it will undoubtedly increase the brittleness of the metal-binding phase and decrease the bonding force between the metal-binding phase and WC; therefore, the cracks in the coating are more accessible to propagate under the action of the indenter during the testing of fracture toughness. In addition, the fracture toughness obtained in this work is comparable to those of the WC-10Co-4Cr coatings reported in the other literature [4,7], but it is lower than that of the WC-Co coating for the same reasons as above [10].…”

Section: Basic Mechanical Propertiessupporting

confidence: 83%

“…All the WC-Co-Cr powders were sprayed on a rinsed and sandblasted low-carbon steel substrate (16Mn steel, its nominal mass percentage content, C: 0.13-0.19, Si: 0.20-0.60, Mn: 1.20-1.60, Cr ≤ 0.30, P ≤ 0.030, S ≤ 0.030, Ni ≤ 0.30, Cu ≤ 0.25, Anshan Iron and Steel Group Co., LTD., Anshan, Liaoning, China) using Praxair-JP-8000 HVOF equipment (Praxair Surface Technologies, INC, Indianapolis, IN, USA) with balanced and identical spray parameters (Table 2) [10]. The barrel was perpendicular to the surface of the substrate; the spray gun was traversed along the horizontal direction according to the Z-shaped trajectory.…”

Section: Coating Preparationmentioning

confidence: 99%

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Effect of Cobalt and Chromium Content on Microstructure and Properties of WC-Co-Cr Coatings Prepared by High-Velocity Oxy-Fuel Spraying

Wang,

Zhong,

et al. 2023

Materials

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To explore the Co/Cr ratio impact on the high-velocity oxygen fuel (HVOF)-sprayed WC-Co-Cr coatings microstructure and performances, three kinds of WC-Co-Cr coatings, namely WC-4Co-10Cr, WC-7Co-7Cr, and WC-10Co-4Cr, were prepared by using a high-velocity oxygen fuel (HVOF) spraying process. The three coatings’ phase composition, microstructure, basic mechanical properties, abrasive wear, and corrosion resistance were investigated. The results show that all three WC-Co-Cr coatings comprise the main phase WC, minor W2C, and amorphous W-Co-Cr phase, besides the WC-4Co-10Cr coating containing a small amount of CrxCy phase. In addition, WC-7Co-7Cr coating exhibited the highest hardness and abrasive wear resistance, followed by WC-10Co-4Cr and WC-4Co-10Cr coatings. The corrosion resistance as a hierarchy was found to be WC-10Co-4Cr > WC-7Co-7Cr > WC-4Co-10Cr.

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Section: Basic Mechanical Propertiessupporting

confidence: 83%

Section: Coating Preparationmentioning

confidence: 99%

Effect of Cobalt and Chromium Content on Microstructure and Properties of WC-Co-Cr Coatings Prepared by High-Velocity Oxy-Fuel Spraying

Wang,

Zhong,

et al. 2023

Materials

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“…These particles acted as a wear-promoting third-body in the tribosystem and were seen to be responsible for the extremely high friction. Two recent research articles discuss the influence of third-body hard-phase particle size and agree that friction losses can dramatically increase at certain particle dimensions, which is related to a chiseling effect of the debris [85,86]. The microscopic image of the HT1/1.4108 contact showed an expressed center in the HT1 wear scar (Figure 7a), where grooves from sliding wear appeared sharp-edged and less regular, thus attenuating light reflection under macroscopic view.…”

Section: Contact Surface Analysismentioning

confidence: 80%

Tribocorrosive Aspects of Tungsten Carbide, Silicon Nitride, and Martensitic Steel under Fretting-like Conditions

Kronberger

Brenner

2023

Lubricants

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Water-based lubrication faces the common challenge of component lifetime extension which is impaired by tribocorrosion due to material surface depassivation. However, such mechanisms in a pH-neutral and low-halide electrolyte require additional understanding. A ball-on-flat configuration study of hard-phase materials in a low amplitude–high frequency sliding contact against martensitic chromium steel with contact pressures around 200 MPa is presented. Under lubrication by purified water, tungsten carbide-based metal matrix composite (MMC) with NiCr binder and silicon nitride-based ceramic (SiAlON) against DIN/EN 1.4108 steel yielded coefficients of friction above unity. Wear scar enlargement led to fretting-like conditions with adhesion becoming the fundamental wear mechanism. A tribocorrosion-induced depletion of tungsten carbide and nickel was determined for MMC. SiAlON materials suffered extreme wear under the formation of abrasive SiO2, while heat-treated DIN/EN 1.4125 steel showed lower friction and wear, but also showed signs of hydrogen embrittlement. Results from accompanying single-material corrosion experiments could not satisfactorily explain the phenomena. Including galvanic interaction and the influence of contact geometry, a new tribocorrosion model for fretting conditions is proposed. It describes an expanding anodic belt located at the inner-most crevice position of an otherwise cathodically polarized material. Low conductivity of the electrolyte is seen as a key player in this process, while the galvanic situation between two materials in contact was shown to invert when water was substituted by a wet organic phase.

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“…High velocity oxygen fuel (HVOF) thermal spraying is a technique based on the hypersonic flame at speeds up to 3000 m/s that releases high energy, which is converted into heat and pressure [ 3 , 17 , 18 , 19 , 20 , 21 ]. Particles reach the substrate and form a dense and hard coating, with low porosity and high adhesion strength of the coating to the substrate after the HVOF deposition [ 8 , 22 , 23 , 24 ]. The HVOF hamper phase transformations due to the faster powder speed, heating and cooling, and the lower heat transfer to the feedstock.…”

Section: Introductionmentioning

confidence: 99%

Influence of Pre-Milling of Cr3C2-25 NiCr Spray Powder on the Fatigue Life of HVOF-Sprayed Coating on ASTM A516 Steel Substrate

Oliveira

Cogo²,

Nascimento

et al. 2023

Materials

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The aim of the present investigation is to evaluate the influence of the powder size of Cr3C2-25NiCr spraying powder on the fatigue behavior of HVOF-sprayed coating on the ASTM A516 steel substrate. Conventional commercial Cr3C2-25NiCr spraying powder was previously treated through high-energy milling. The crystallite sizes of milled powders were measured by X-ray diffraction and transmission electronic microscopy. Three different powder formats of the same Cr3C2-25NiCr composite were subjected to HVOF spraying to produce (i) a Milled-Coating (from high-energy milled spray powder), (ii) an Original-Coating (from conventional commercial spray powder), and (iii) a 50%–50% mixture of both (Milled + Original-Coating). The same spraying conditions were adopted for all the assessed cases. The sprayed coatings were investigated through the Knoop hardness test and SEM-EDS analysis. In addition, 3-point bending fatigue tests were conducted at different stress levels up to 107 cycles. The coating morphology and roughness effects on fatigue behavior were analyzed. The Cr3C2-25NiCr milled coating presented a lower fatigue life above the fatigue limit and a higher fatigue limit than other coatings; this outcome could be attributed to its lower surface roughness and finer grain size microstructure.

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Three-Body Abrasive Wear Behavior of WC-10Cr3C2-12Ni Coating for Ball Mill Liner Application

Cited by 6 publications

References 33 publications

Effect of Cobalt and Chromium Content on Microstructure and Properties of WC-Co-Cr Coatings Prepared by High-Velocity Oxy-Fuel Spraying

Effect of Cobalt and Chromium Content on Microstructure and Properties of WC-Co-Cr Coatings Prepared by High-Velocity Oxy-Fuel Spraying

Tribocorrosive Aspects of Tungsten Carbide, Silicon Nitride, and Martensitic Steel under Fretting-like Conditions

Influence of Pre-Milling of Cr3C2-25 NiCr Spray Powder on the Fatigue Life of HVOF-Sprayed Coating on ASTM A516 Steel Substrate

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