Bio‐inspired low wear and durable lubrication interfacial system based on thixotropic hydrogel for artificial joints

Author:

He Bin1,Wang Chen2,Xiong Xiong3,Li Jun1,Jin Zhongmin2,Qu Shuxin14ORCID

Affiliation:

1. Key Laboratory of Advanced Technologies of Materials Ministry of Education School of Materials Science and Engineering Southwest Jiaotong University Chengdu Sichuan China

2. School of Mechanical Engineering Southwest Jiaotong University Chengdu Sichuan China

3. School of Life Science and Engineering Southwest Jiaotong University Chengdu Sichuan China

4. Institute of Biomedical Engineering College of Medicine School of Materials Science and Engineering Southwest Jiaotong University Chengdu Sichuan China

Abstract

AbstractInspired by the excellent wear resistance and lubrication of articular joints, a novel bionic interfacial system was proposed by combining thixotropic hydrogel with surface porous Ultrahigh Molecular Weight Polyethylene (UHMWPE). Thixotropic hydrogel, synthesised by gelatin, alginate sodium, tannic acid and weak crosslinking by Ca2+ (Gel‐TA‐Alg@Ca2+), was used as a lubricant due to its shear‐thinning when loaded, then the recovery viscosity to be benefitted for reserving in surface pores on UHMWPE when unloaded. Surface porous UHMWPE was fabricated by using hydroxyapatite particles as porogen to control its porosity, pore size, surface roughness and surface energy (PE‐HA). Gel‐TA‐Alg@Ca2+ significantly reduced average coefficients of friction and wear factors compared to those under normal saline and calf serum solution lubricating after reciprocating tribological testing. Notably, Gel‐TA‐Alg@Ca2+ still maintained thixotropy and was stored in surface pores of UHMWPE even after tribological testing for 7200 min. Thus, durable lubrication could be realised due to the synergistic effect of surface porous structure and thixotropy. Stribeck curves showed the characterisations of mixed, elastohydrodynamic and hydrodynamic, but without boundary lubrications for PE‐30HA under three lubricants. The present results might provide the potential application to construct the durable lubrication bionic articular joint interfacial system for artificial joints.

Funder

National Natural Science Foundation of China

Fundamental Research Funds for the Central Universities

Publisher

Institution of Engineering and Technology (IET)

Subject

Surfaces, Coatings and Films,Mechanical Engineering,Biomedical Engineering,Biomaterials,Biophysics

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