Wear Resistance of Nano-ZrO2 Ceramic for Hip Joint Head Prostheses

By using the ring-block friction and wear machine, the friction and wear behavior of nano-ZrO2 ceramic test block against GCr15 steel test ring has been studied. At the same time, friction and wear test of 45# steel block against GCr15 steel ring has also been conducted for comparison. By using self-made test machine for the wear ability of the hip joint, the friction test of nano-ZrO2 ceramic hip joint head against ultra-high molecular weight polyethylene (UHMWPE) acetabulum has been done, the friction test of Co-Cr-Mo alloy hip joint head against UHMWPE acetabulum has also been made for comparison. The results show that the friction factor of nano-ZrO2 ceramic test block against GCr15 steel test ring is less 37.3% than that of 45# steel block against GCr15 steel ring, the wear weight of nano-ZrO2 ceramic test block against GCr15 steel test ring is only 0.76% of that of 45# steel block against GCr15 steel ring. The wear weight of UHMWPE acetabulum against nano-ZrO2 ceramic hip joint head is 61.5% of UHMWPE acetabulum against Co-Cr-Mo alloy hip joint head. This indicates nano-ZrO2 ceramic has good wear resistance property and is the ideal materials for artificial Hip joint head Prostheses.

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Effect of Micro-Addition Rare Earth and Chrome on Friction and Wear Behavior of Boronized Layer

Key Engineering Materials ◽

10.4028/www.scientific.net/kem.297-300.1401 ◽

2005 ◽

Vol 297-300 ◽

pp. 1401-1405 ◽

Cited By ~ 3

Author(s):

Bin Xu ◽

Shu Hua Wang ◽

Yu Peng Lu ◽

Jianjun Cui ◽

Mu Sen Li

Keyword(s):

Wear Resistance ◽

Rare Earth ◽

Service Life ◽

Friction And Wear ◽

Wear Behavior ◽

Wear Test ◽

High Hardness ◽

Test Machine ◽

Friction And Wear Behavior ◽

Fe2b Phase

Application of powder boronizing to mechanical industry has been restricted because of the brittleness of boronized layer, which inevitably leads to decrease of service life of boronized parts. Therefore, attention should be paid to reducing the brittleness of boronized layer without decreasing its high hardness. In the present paper, a study on the effect of micro-addition rare earth and chrome on friction and wear behavior of boronized layer was carried out using an MM-200 wear test machine. Compared with that of pure single Fe2B phase, the brittleness of the boronized layer containing minim rare earth and chrome elements, obtained by powder RE-chrome-boronizing, is reduced, which results in increasing the bearing capacity and wear resistance of the boronized layer. The friction and wear mechanism is also briefly analyzed.

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Biotribological behaviour of Vitamin E-blended highly cross-linked UHMWPE in a hip joint simulator

Industrial Lubrication and Tribology ◽

10.1108/ilt-09-2015-0130 ◽

2016 ◽

Vol 68 (5) ◽

pp. 548-553 ◽

Cited By ~ 2

Author(s):

Guomei Chen ◽

Zifeng Ni ◽

Shanhua Qian ◽

Yongwu Zhao

Keyword(s):

Wear Resistance ◽

Vitamin E ◽

Hip Joint ◽

Oxidative Degradation ◽

Test Environment ◽

Content Type ◽

Artificial Hip Joint ◽

Hip Simulator ◽

Directional Motion ◽

Hip Joint Simulator

Purpose The purposes of this paper are to investigate the biotribological behaviour of Vitamin E-blended highly cross-linked ultra-high molecular weight polyethylene (HXL-UHMWPE) under multi-directional motion by using a CUMT II artificial joint hip simulator and compare it with HXL-UHMWPE and conventional UHMWPE. Design/methodology/approach The biotribological behaviour of conventional, highly cross-linked and Vitamin E-blended highly cross-linked UHMWPE acetabular cups counterfaced with CoCrMo alloy femoral head under multi-directional motion were investigated by using CUMT-II artificial hip joint simulator for one-million walking cycles. The test environment was at 36.5 ± 0.5°C and 25 per cent bovine serum was used as lubricant. A Paul cycle load with a peak of 784 N was applied; the motion and loading were synchronized at 1 Hz. Findings The wear resistance of Vitamin E-blended highly cross-linked UHMWPE was significantly higher than that of highly cross-linked and conventional UHMWPE. The wear marks observed from the worn surface of UHMWPE were multi-directional, with no dominant wear direction. Only abrasion occurred on the surface of Vitamin E-blended highly cross-linked UHMWPE, while yielding and accumulated plastic flow processes occurred on the surface of conventional UHMWPE and flaking-like facture and abrasion occurred on the surface of highly cross-linked UHMWPE. Originality/value Besides the prevention of oxidative degradation, blending with Vitamin E can also reduce the incidence of fatigue crack occurred in the surface layer of HXL-UHMWPE samples. Therefore, the wear resistance of HXL-UHMWPE under multi-directional motion can be further enhanced by blending with Vitamin E.

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Friction and Wear Response of a Hard-Anodized AA6082

Materials Science Forum ◽

10.4028/www.scientific.net/msf.1016.1235 ◽

2021 ◽

Vol 1016 ◽

pp. 1235-1239

Author(s):

Eleonora Santecchia ◽

Marcello Cabibbo ◽

Abdel Magid S. Hamouda ◽

Farayi Musharavati ◽

Anton Popelka ◽

...

Keyword(s):

Wear Resistance ◽

Friction Coefficient ◽

Scientific Community ◽

Friction And Wear ◽

Wear Behavior ◽

Anodized Aluminum ◽

Tribological Tests ◽

Hard Anodizing ◽

Before And After ◽

Wear Response

The properties of anodized aluminum, and wear resistance in particular, are of high interest for the scientific community. In this study, discs of AA6082 were subjected to a peculiar hard anodizing process leading to anodized samples having different thicknesses. In order to investigate the wear mechanism of samples, unidirectional tribological tests were performed against alumina balls (corundum) under different loading conditions. Surface and microstructure of all the samples were characterized before and after the tribological tests, using different characterization techniques. The tribological tests showed remarkable differences in the friction coefficient and wear behavior of the anodized AA6082 samples, related to the microstructure modifications and to the specific applied sliding conditions.

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Microstructure, nano-mechanical characterization, and fretting wear behavior of plasma surface Cr-Nb alloying on γ-TiAl

Proceedings of the Institution of Mechanical Engineers Part J Journal of Engineering Tribology ◽

10.1177/1350650120939835 ◽

2020 ◽

pp. 135065012093983

Author(s):

Dongbo Wei ◽

Fengkun Li ◽

Xiangfei Wei ◽

Tomasz Liskiewicz ◽

Krzysztof J Kubiak ◽

...

Keyword(s):

Plastic Deformation ◽

Wear Resistance ◽

Friction Coefficient ◽

Wear Behavior ◽

Wear Test ◽

Wear Scar ◽

Fretting Wear ◽

Friction Behavior ◽

Plasma Surface ◽

Nb Alloying

In this study, surface Cr-Nb alloying was realized on γ-TiAl using double glow plasma hollow cathode discharge technique. An inter-diffusion layer was generated under the surface, composed of Cr2Nb intermetallic compounds. After Cr-Nb alloying, the surface nanohardness of γ-TiAl increased from 5.65 to 11.61 GPa. The surface H/E and H3/E2 increased from 3.37 to 5.98 and from 0.64 to 4.15, respectively. Cr-Nb alloying and its effect on fretting wear were investigated. The surface treatment resulted in improved plastic deformation and fretting wear resistance of γ-TiAl. The fretting wear test showed that an average friction coefficient of γ-TiAl against Si3N4 ball was significantly decreased after Cr-Nb alloying. The fluctuation of friction coefficient during running-in stage was significantly improved. The friction behavior of both γ-TiAl before and after Cr-Nb alloying could be divided into distinctive stages including formation of debris, flaking, formation of crack, and delamination. It was observed that the high hardness, resistance to plastic deformation, and fatigue resistance of γ-TiAl after Cr-Nb alloying could inhibit the formation of debris and delamination during friction test. The fretting wear scar area and the maximum wear scar depth were decreased, indicating that the wear resistance of γ-TiAl has been greatly improved after Cr-Nb alloying. The results indicated that plasma surface Cr-Nb alloying is an effective way for improving the fretting wear resistance of γ-TiAl in aviation area.

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Effect of Varying Wt% of TiC on Mechanical and Wear Properties of RZ5-TiC In-Situ Composite

International Journal of Manufacturing Materials and Mechanical Engineering ◽

10.4018/ijmmme.2018040104 ◽

2018 ◽

Vol 8 (2) ◽

pp. 45-56 ◽

Cited By ~ 2

Author(s):

Deepak Mehra ◽

M.M. Mahapatra ◽

S. P. Harsha

Keyword(s):

Wear Resistance ◽

Wear Behavior ◽

Wear Test ◽

X Ray Diffraction ◽

Wear Properties ◽

X Ray ◽

Tic Particle ◽

Mechanical And Microstructural Properties ◽

Sliding Distance

The purpose of this article is to enhance the mechanical properties and wear resistance of the RZ5 alloy used in the aerospace application by adding TiC particles. The present study discusses processing of in-situ RZ5-TiC composite fabricated by self-propagating high temperature (S.H.S.) method and its wear behavior. The effects of TiC particle on mechanical and microstructural properties of the composite are studied. The wear test is performed by varying the sliding distance and applied load. The composite is characterized by X-ray diffraction (XRD), scanning electron microscopy (SEM) and energy dispersive X-ray spectroscopy (EDS). The results exhibited the properties like strength and hardness of RZ5-10wt%TiC composite has been increased considerably, while grain size is decreased as compared to the RZ5 alloy. The fractography indicated mixed mode (quasi-cleavage and ductile feature) failure of the composites. The wear results showed improvement in wear resistance of the composite. The FESEM showed dominate wear mechanisms are abrasion, ploughing grooves.

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Microstructure and Wear Properties of In Situ TiC-Cr7C3/Fe Surface Composite

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.415-417.170 ◽

2011 ◽

Vol 415-417 ◽

pp. 170-173

Author(s):

Jing Wang ◽

Si Jing Fu ◽

Yi Chao Ding ◽

Yi San Wang

Keyword(s):

Sliding Wear ◽

Wear Behavior ◽

Wear Test ◽

Dry Sliding Wear ◽

Dry Sliding ◽

Test Machine ◽

Wear Properties ◽

Surface Composite ◽

The Matrix

A wear resistant TiC-Cr7C3/Fe surface composite was produced by cast technique and in-situ synthesis technique. The microstructure and dry-sliding wear behavior of the surface composite was investigated using scanning electron microscope(SEM), X-ray diffraction(XRD) and MM-200 wear test machine. The results show that the surface composite consists of TiC and Cr7C3as the reinforcing phase, α-Fe and γ-Fe as the matrix. The surface composite has excellent wear-resistance under dry-sliding wear test condition with heavy loads.

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MICROSTRUCTURE AND DRY SLIDING WEAR RESISTANCE OF LASER CLADDING Ti-Al-Si COMPOSITE COATING

Surface Review and Letters ◽

10.1142/s0218625x18500099 ◽

2017 ◽

Vol 24 (Supp01) ◽

pp. 1850009 ◽

Cited By ~ 1

Author(s):

H. X. ZHANG ◽

H. J. YU ◽

C. Z. CHEN ◽

J. J. DAI

Keyword(s):

Wear Resistance ◽

Laser Cladding ◽

Composite Coatings ◽

Energy Dispersive Spectrometer ◽

Wear Test ◽

Dry Sliding Wear ◽

Test Machine ◽

Transmission Microscopy ◽

Hardness Tester ◽

Three Samples

In order to improve the wear resistance of Ti alloys, different mass ratios of Ti-Si-Al powders were designed to fabricate hard phases reinforced intermetallic matrix composite coatings on the Ti-6Al-4V substrate by laser cladding. The corresponding coatings were characterized by X-ray diffraction (XRD), scanning electron microscope (SEM), energy dispersive spectrometer (EDS) and high resolution transmission microscopy (HRTEM). The HV-1000 hardness tester and MM200 wear test machine were employed to test the hardness and the wear resistance of the composite coatings, respectively. The composite coatings mainly consisted of the reinforcements of Ti5Si3, Ti3AlC2 and Ti7Al5Si[Formula: see text] and the matrix of Ti3Al, TiAl, TiAl3 and [Formula: see text]-Ti. The micro-hardness of the Ti-35Al-15Si coating was from 956 HV[Formula: see text] to 1130 HV[Formula: see text], which was approximately 3–4 times of the substrate and the highest in the three samples. The wear rate of the Ti-35Al-15Si coating was 0.023[Formula: see text]cm3[Formula: see text][Formula: see text][Formula: see text]min[Formula: see text], which was about 1/4 of the Ti-6Al-4V substrate. It was the lowest in the three samples.

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The Effect of Boron on the Sliding Wear Behavior of Iron-Based Hardfacing Alloys for Nuclear Power Plants Valves

Materials Science Forum ◽

10.4028/www.scientific.net/msf.510-511.562 ◽

2006 ◽

Vol 510-511 ◽

pp. 562-565

Author(s):

Jeng Wan Yoo ◽

Kwon Yeong Lee ◽

Ji Hui Kim ◽

Ki Soo Kim ◽

Seon Jin Kim

Keyword(s):

Wear Resistance ◽

Martensitic Transformation ◽

Nuclear Power ◽

Sliding Wear ◽

Power Plants ◽

Wear Behavior ◽

Wear Test ◽

Wear Loss ◽

The Matrix ◽

Iron Based

A new iron-based wear resistance alloy was developed to replace the Co-containing Stellite 6 alloys in nuclear power industry. The effect of B addition on the wear resistance was investigated. Sliding wear tests of Fe-Cr-C-Si-xB (x = 0.0, 0.3, 0.6, 1.0 and 2.0 wt%) alloys were performed in air at the room temperature under a contact stress of 103 MPa. Low-boron alloys containing less than 0.6 wt% boron showed an excellent wear resistance than any other tested alloys. The improvement was associated with the matrix hardening by promotion of the γ→α′straininduced martensitic transformation occurring during the wear test. However, the alloys containing more than 1.0 wt% boron showed slightly increased wear loss compared to the low-boron alloys because of the absence of the strain-induced martensitic transformation and the presence of the brittle FeB particles, aiding crack initiation.

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