Investigation of the geometries and surface topographies of UHMWPE wear particles-Reference-Cited by-同舟云学术

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Investigation of the geometries and surface topographies of UHMWPE wear particles

Published:2013-10 Issue: Volume:66 Page:208-218
ISSN:0301-679X
Container-title:Tribology International
language:en
Short-container-title:Tribology International

Author:

Wu Jingping,Peng Zhongxiao

Publisher

Elsevier BV

Subject

Surfaces, Coatings and Films,Surfaces and Interfaces,Mechanical Engineering,Mechanics of Materials

Reference46 articles.

1. Biological reactions to wear debris in total joint replacement;Ingham;Proceedings of the Institution of Mechanical Engineers Part H: Journal of Engineering in Medicine,2000

2. Evaluation of the response of primary human peripheral blood mononuclear phagocytes to challenge with in vitro generated clinically relevant UHMWPE particles of known size and dose;Matthews;Journal of Biomedical Materials Research Part B,2000

3. Diverse cellular and apoptotic responses to variant shapes of UHMWPE particles in a murine model of inflammation;Yang;Biomaterials,2002

4. Morphological characteristics of total joint arthroplasty-derived ultra-high molecular weight polyethylene (UHMWPE) wear debris that provoke inflammation in a murine model of inflammation;Sieving;Journal of Biomedical Materials Research Part A,2003

5. Quantitative comparison of wear debris from UHMWPE that has and has not been sterilised by gamma irradiation;Besong;Journal of Bone and Joint Surgery,1998

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1. Automated 3D ferrograph image analysis for similar particle identification with the knowledge-embedded double-CNN model;Wear;2021-07

2. 3-D Particle Surface Reconstruction From Multiview 2-D Images With Structure From Motion and Shape From Shading (January 2020);IEEE Transactions on Industrial Electronics;2021-02

3. Study on the correlation between the running-in attractor and the wear particle group;Industrial Lubrication and Tribology;2019-11-22

4. In vitro and in vivo investigations of a-C/a-C:Ti nanomultilayer coated Ti6Al4V alloy as artificial femoral head;Materials Science and Engineering: C;2019-06

5. Three-dimensional reconstruction of wear particle surface based on photometric stereo;Measurement;2019-02

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