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Tribology: Friction and Wear of Engineering Materials
TLDR
In this paper, surface topography and surfaces in contact are discussed, as well as surface engineering in tribology, materials for bearings and sliding wear by hard particles, friction and friction.Abstract:
Preface * Introduction * Surface topography and surfaces in contact * Friction * Lubricants and lubrication * Sliding wear * Wear by hard particles * Wear and design * Surface engineering in tribology * Materials for bearings * Author index * Subject index.read more
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Tribology of Ti6Al4V: A review
TL;DR: In this paper, a critical review of the microstructural transitions, mechanisms governing tribo-behavior and the parametric conditions leading to material removal at dry sliding conditions of Ti6Al4V, falls under the scope of this manuscript.
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The friction and wear behaviour of polyamide 6 sliding against steel at low velocity under very high contact pressures
F. Van De Velde,P. De Baets +1 more
TL;DR: In this article, the friction and wear behavior of polyamide 6 sliding against steel under huge contact pressures and at very low sliding velocities was examined using large scale test specimens.
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Wear monitoring of bearing steel using electrostatic and acoustic emission techniques
TL;DR: In this article, acoustic emission (AE) and electrostatic (ES) signals generated by a bearing steel contact under dry sliding conditions were used to monitor the various phases of delamination wear.
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Exploration of TiNi shape memory alloy for potential application in a new area: tribological engineering
TL;DR: In this paper, the authors reported progress in their studies on the development of this novel tribo-material, reinforced by hard ceramic particles, including nano-structured particles, and showed that the composites obtained possess considerably enhanced wear resistance.
Journal ArticleDOI
Wear characteristics of TiNi shape memory alloys
TL;DR: In this paper, the wear characteristics of TiNi shape memory alloys against Cr-steel have been studied and four main mechanisms, adhesion, abrasion, surface fatigue, and brinelling, are found to have important contributions to the wear properties of the TiNi alloys.