Effect of contact stress on friction and wear of ultra-high molecular weight polyethylene in total hip replacement

Wang, A; Essner, Aaron; Klein, Rob

doi:10.1243/0954411011533698

Cited by 114 publications

(89 citation statements)

References 15 publications

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“…The lower wear depths between the two maximum depth locations were due to the reduced crossshear motions which led to reduced wear coefficients. The computationally predicted effect of bearing clearances on wear is compared with the experimental measurement of a simulator test by Wang et al 10 for a 32 mm diameter bearing with varied radial clearances, as shown in Figure 6. The larger contact area corresponds to smaller clearance since the contact area increases when the clearance decreases.…”

Section: Resultsmentioning

confidence: 99%

“…This has also been demonstrated in a laboratory simulator study. 10 However, that experimental study attributed the effect of the clearance on wear to increased pressure and lack of lubrication rather than contact area. The role of the clearance in the design has not been fully investigated, and the quantitative understanding of its effect may provide better design options with improved wear performance.…”

Section: Introductionmentioning

confidence: 97%

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Computational modelling of polyethylene wear and creep in total hip joint replacements: Effect of the bearing clearance and diameter

Liu

Fisher

Zhang

2012

Proceedings of the Institution of Mechanical Engineers, Part J:

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Computational wear modelling has been improved using a contact area dependent wear law for the conventional ultrahigh molecular weight polyethylene used in total hip joint bearings. The current designs of polyethylene bearings tend to use larger diameter heads to achieve improved motion function for patients in clinical practice, but the wear of the bearing may also increase due to the increase in contact area associated with the larger bearings. Additionally, bearing clearance, which is the difference in diameter or radius between the cup and head bearing surfaces, may also play an important role in affecting the wear. This study particularly investigates the effect of bearing clearance on polyethylene wear, for different femoral head diameters, through a parametric study using the computational modelling method. The effect of creep of polyethylene on the contact area and wear was considered, since polyethylene creep can account for a significantly large proportion of volumetric change, particularly during the initial loading stage, and an increase in the contact area. The predicted wear rate was found to be comparable to the experimental wear rate found in independent simulator tests. The polyethylene bearing with decreased bearing clearances led to a substantial increase in the wear rate, particularly when combined with large diameters.

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Section: Resultsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 97%

Computational modelling of polyethylene wear and creep in total hip joint replacements: Effect of the bearing clearance and diameter

Liu

Fisher

Zhang

2012

Proceedings of the Institution of Mechanical Engineers, Part J:

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“…5, 6) which showed a fourfold reduction in wear rate compared to knees with a curved insert. The effect of contact pressure on wear has been previously reported for unidirectional motion pin-on-plate studies [2] and the effect of conformity on surface area on wear has also been reported in the hip [26]. This approach to reducing surface wear by reducing conformity and wear area contradicts the thinking of the 1980s and 1990s [5,6,8,19] that led to more conforming designs in order to avoid the risk of delamination and fatigue following oxidative degradation.…”

Section: Discussionmentioning

confidence: 98%

2009 Knee Society Presidential Guest Lecture: Polyethylene Wear in Total Knees

Fisher

Jennings

Galvin

et al. 2010

Clinical Orthopaedics &Amp; Related Research

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Knee arthroplasties in young and active patients place a substantial increase in the lifetime tribological demand and potential for wear-induced osteolysis. Polyethylene materials have advanced in recent years, reducing the potential for oxidative degradation and delamination failure. It is timely to consider tribological design variables and their potential to reduce surface wear and the long-term risk of osteolysis. The influence of reduced cross shear in rotating platform mobile-bearing knee designs and reduced surface wear area in low conforming fixed-bearing knees has been investigated. A reduction in cross shear substantially reduced wear in both multidirectional pin-on-plate studies and in rotating platform mobile-bearing designs in knee simulator studies. A reduction in bearing surface contact area substantially reduced surface wear in multidirectional pin-on-plate simulations and in low conforming fixed-bearing knee designs in knee simulator studies. This offers potential for a paradigm shift in knee design predicated by enhanced mechanical properties of new polymer materials. We describe two distinct low-wearing tribological design solutions: (1) a rotating platform design solution with reduced cross shear provides reduced wear with conformity and intrinsic stability; and (2) a low conformity fixed bearing with reduced surface area, provides reduced wear, but has less intrinsic stability and requires good soft tissue function.

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“…In [5], the polymer wear in terms of cumulative linear and volume wear when the wear factor is chosen to be a function of contact pressure was first evaluated. Herewith, various known wear factor dependencies on the contact pressure were investigated as contained in [9,10,11]. Since the contact pressure in the above formulae is a power function with a negative degree, these relations give a decrease in wear factor depending on the increase of a contact pressure, which means a reduction of wear values that are not uniquely consistent with the physics of the process.…”

Section: Introductionmentioning

confidence: 99%

Modifying and Expanding the Simulation of Wear in the Spherical Joint With a Polymeric Component of the Total Hip Prosthesis

et al. 2016

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Effect of contact stress on friction and wear of ultra-high molecular weight polyethylene in total hip replacement

Cited by 114 publications

References 15 publications

Computational modelling of polyethylene wear and creep in total hip joint replacements: Effect of the bearing clearance and diameter

Computational modelling of polyethylene wear and creep in total hip joint replacements: Effect of the bearing clearance and diameter

2009 Knee Society Presidential Guest Lecture: Polyethylene Wear in Total Knees

Modifying and Expanding the Simulation of Wear in the Spherical Joint With a Polymeric Component of the Total Hip Prosthesis

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