Effects of using (Ti,Mo)C particles to reduce the three-body abrasive wear of a low alloy steel

Huang, Long; Deng, Xiaomin; Yang, Jia; Li, Cheng-Ru; Wang, Zhaodong

doi:10.1016/j.wear.2018.06.008

Cited by 55 publications

(26 citation statements)

References 32 publications

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“…At the low load, micro-cutting is dominant, while wear shifts to a mixed mode of micro-cutting and micro-ploughing when the load is high. Huang et al [194] added (Ti, Mo)C particles to NM500 low alloy wear resistant steel to improve its abrasion resistance. They used dry sand rubber wheel abrasion wear test to compare the three-body abrasive wear resistance between NM500 steel and (Ti, Mo)Creinforced steel under applied loads of 45 and 130 N. They reported that the wear resistance of the particlereinforced steel is 1.6 times that of NM500 at the heavy load of 130 N and 1.8 times at the light load of 45 N. In Ref.…”

Section: Wear Behavior and Mechanismsmentioning

confidence: 99%

A review of recent advances in tribology

et al. 2020

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The reach of tribology has expanded in diverse fields and tribology related research activities have seen immense growth during the last decade. This review takes stock of the recent advances in research pertaining to different aspects of tribology within the last 2 to 3 years. Different aspects of tribology that have been reviewed including lubrication, wear and surface engineering, biotribology, high temperature tribology, and computational tribology. This review attempts to highlight recent research and also presents future outlook pertaining to these aspects. It may however be noted that there are limitations of this review. One of the most important of these is that tribology being a highly multidisciplinary field, the research results are widely spread across various disciplines and there can be omissions because of this. Secondly, the topics dealt with in the field of tribology include only some of the salient topics (such as lubrication, wear, surface engineering, biotribology, high temperature tribology, and computational tribology) but there are many more aspects of tribology that have not been covered in this review. Despite these limitations it is hoped that such a review will bring the most recent salient research in focus and will be beneficial for the growing community of tribology researchers.

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Section: Wear Behavior and Mechanismsmentioning

confidence: 99%

A review of recent advances in tribology

et al. 2020

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“…Liang X K et al 9) took the lead in preparing low-alloy martensitic wearresistant steel of 1.0 vol.% TiC by composition design and precipitation control technics.The test steel had the same hardness grade as the conventional martensitic steel Hardox 450 without Ti while its wear resistance was significantly improved. Report from Huang Long et al 10) also come out with that conclusion. Nevertheless, there are rare reports on the effects of different volume fraction and distribution state of titanium carbide particles on microstructure and wear resistance of low alloy martensitic steels.…”

Section: Precipitation Process Of Tic In Low Alloy Martensitic Steel mentioning

confidence: 71%

Precipitation Process of TiC in Low Alloy Martensitic Steel and Its Effect on Wear Resistance

et al. 2020

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“…[20][21][22] Thus the concept of MMCs was introduced into low-alloy abrasion-resistant steel, the super abrasion-resistant steel reinforced with self-generated TiC particles was developed through the traditional melting and casting technology. [23][24][25] And the three-body abrasion wear resistance of super abrasion-resistant steels were improved to 1.8 times that of the conventional low-alloy abrasion-resistant steels under same hardness. The micron-sized TiC particles can resist micro-cutting and protect matrix from wear, but the role of nano-sized TiC precipitation remains to be studied.…”

Section: Introductionmentioning

confidence: 93%