International Journal of Electro Mechanics and Mechanical Behaviour

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This article is described to access utility specific edge prepares to cut materials. Inherent brittleness of ceramics have subjected a deficiency in facility to furnish proper shape through machining under scope of achieving dimensional accuracy and precision, otherwise has limited scheme of forming appliances. Composite machining has rated continual importance to fabricate, so forth machining usage in technical fields, e.g., automotive industry for making engine connecting rods, propeller shafts, brake discs, etc. So the method of machining has changed depending on type of composites for specific applications, where commonly used forms have been long fibre reinforced polymer matrix composites (LFRCs) and ceramic particle/fibre reinforced metal matrix composites (MMCs). Composites are usually made from strong reinforcements of high hardness, otherwise machining categories have optimised from properties of high strength reinforcements, otherwise state of tooling has subjected differential significance in response to machining.

Shear, Edge, Cut, Ceramic, Tool

Rahul Rakshit, Alok Kumar Das: A review on cutting of industrial ceramic materials; Precision

Engineering; (59); (2019); p. 90.

Ravi Sekhara, T.P. Singh: Mechanisms in turning of metal matrix composites: a review; j mater

restechnol; (4); (2); (2015); p. 197.

L.C. Zhang: Cutting composites: A discussion on mechanics modelling; Journal of Materials

Processing Technology; (209); (2009); p. 4548.

Y.F. Ge, J.H. Xu, H. Yang, S.B. Luo, Y.C. Fu: Workpiece surface quality when ultra-precision

turning of SiCp/Al composites; journal of materials processing technology 203 (2008) 166–175

Edge to be Engineered from Ceramic Particulates Goswami et al.

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Vijaykumar Hiremath, Pradeep Badiger, V Auradi, ST Dundur and SA Kori: Influence of particle

size on Cutting Forces and Surface Roughness in Machining of B4Cp-6061 Aluminium Matrix

Composites; iMEC-APCOMS 2015 IOP Publishing IOP Conf. Series: Materials Science and

Engineering 114 (2016) 012041

Gabriel Krebsa, Milton Luiz Polli: Cutting Parameters for Roughing Turning of Alloy 625 Clad

Using Ceramic Inserts; Materials Research. 2019; 22(suppl. 1): e20190535

Tomáš Kurňava, Stancekova Dana, Jozef Struharnansky, Miroslav Janota: Identification Turning

Machinability of Ceramic Materials; Technological Engineering, Volume X, number 1/2013, pp.

Klaus Dröder, Bernhard Karpuschewski, Eckart Uhlmann, Peter A. Arrabiyeh, Daniel Berger,

Sarah Busemann, Jörg Hartig, Nadine Madanchi, Georg Mahlfeld, Christian Sommerfeld: A

comparative analysis of ceramic and cemented carbide end mills; Production Engineering (2020)

: 355–364

Qinglong AN, Jie CHEN, Weiwei MING, Ming CHEN: Machining of SiC ceramic matrix

composites: A review; Chinese Journal of Aeronautics; Volume 34, Issue 4, April 2021, Pages

–567

Metel, A.; Volosova, M.; Mustafaev, E.; Melnik, Y.; Seleznev, A.; Grigoriev, S. Plasma-Beam

Processing of Tools Made of SiAlON Dielectric Ceramics to Increase Wear Resistance When

Cutting Nickel–Chromium Alloys. Coatings 2022, 12, 469. https://doi.org/10.3390/coatings