2015
DOI: 10.1016/s1003-6326(15)64036-5
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Dry sliding wear characterization of Al 6061/rock dust composite

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Cited by 60 publications
(15 citation statements)
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“…The search for low cost options in AMMC production has led to a number of efforts tailored at utilizing industrial and agro waste products as reinforcing materials. Similarly it was observed by author Marin E. et al [26] that the cost of aluminium metal matrix composite (AMMCs) remains high, which limits its applications.…”
Section: Synthetic Ceramic Particulatesmentioning
confidence: 68%
“…The search for low cost options in AMMC production has led to a number of efforts tailored at utilizing industrial and agro waste products as reinforcing materials. Similarly it was observed by author Marin E. et al [26] that the cost of aluminium metal matrix composite (AMMCs) remains high, which limits its applications.…”
Section: Synthetic Ceramic Particulatesmentioning
confidence: 68%
“…Since the load required for plastic deformation is higher for harder materials and hence the resistance to wear is also high. The wear rate increases with every increase in sliding distance, as a result of the increased temperature due to increased contact time with the counterpart [8,21,23].…”
Section: Resultsmentioning
confidence: 99%
“…The MMC is fabricated via various routes that include powder metallurgy, stir casting, squeeze casting, among others. In this work, the stir casting route was considered as the most economical method for the mass production of components [8,9,10,11,12]. These MMC’s are reinforced with several organic, carbides, and nitride-based materials that include graphite, graphene, silicon carbide, titanium nitride, among others, to enhance the performance of the base materials [13,14,15,16].…”
Section: Introductionmentioning
confidence: 99%
“…In addition, based on these surveyed articles, to improve the overall performance of AMCs, following methodologies can be adopted: i) first methodology while dealing with limited availability and costlier reinforcements is to choose another alternative and economical reinforcements such as derivatives of various agricultural and industrial wastes with abundant availability and cheaper cost. [ 61 ] Research studies [ 61–63,74–78 ] reported that the developed AMCs with these alternatives exhibited considerable enhancement over unreinforced matrices, however, some inferior behaviors have also been noted as compared with discontinuously reinforced AMCs, ii) moving to the next methodology to overcome the limitations arising in conventionally used reinforcements in the production of AMCs is the production of hybrid aluminum metallic composites (HAMCs), i.e., incorporating two or more than two reinforcements having similar or unlike characteristics. [ 79–81 ] It has been noticed that HAMCs exhibited significant improvement over AMCs with single reinforcement even with reduced manufacturing cost, [ 63,82–85 ] and iii) in addition to these two remedies, another approach is to optimize the reinforcement sizes to nanoscales while dealing with micrometer (or submicrometer) ceramic particulates.…”
Section: Aluminum Metallic Compositesmentioning
confidence: 99%