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Lebedeva, Development of aviation paint coatings, All materials, Encyclopedic reference. 5 (2012)
[5] Laser cleaning of surfaces, RITM mechanical engineering journal. 7 (2019) 17-19
Ion, Laser Processing of Engineering Materials: Principles, Procedure and Industrial Application.
Uglov, Temperature field of dissimilar materials in butt welding with a surface source, Physics and Chemistry of Material Processing. 5 (1969) 12-22
Uglov and other, Laser and electron-beam processing of materials: Handbook.

Wei, L.C Lee, Journal of Composite Materials, Vol 42 (2008), pp. 2039 – 2050. 11.
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Jolly: Journal of Materials Processing Technology Vol. 135 (2003), p. 189
Jolly: Journal of Materials Processing Technology Vol. 135 (2003), p. 197
Kim: Journal of Materials Processing Technology Vol. 173 (2006), p. 223
Kim: Journal of Materials Processing Technology Vols. 143-144 (2003), p. 729
Shivpuri: Journal of Materials Processing Technology Vol. 150 (2004), p. 70

Wire cut Electrical discharge machining techniques have been already tried with some other high strength materials which is complicated to cut.
Machining a Titanium material is peculiar one.
They concluded increase of pulse on time increases the material removal rate (MRR).
References [1] M Siva Kumar, K Sivakumar, R Shanmuga Prakash and S Vignesh,’ Parameters Optimisation of Wire Electrical Discharge Machining on AISI D3 Steel with Different Thickness’, International Journal of Applied Engineering Research, Vol. 10 No.62 (2015) [2] Muthu Kumar V, Suresh Babu A, Venkatasamy R and Raajenthiren M ‘Optimization of the WEDM Parameters onMachining Incoloy800 Super alloy withMultiple Quality Characteristics, International Journal of Engineering Science and Technology Vol. 2(6), pp. 1538-1547. (2010) [3] El-Taweel.T.A, Hewidy.M.S, El-Safty.M.F 'Modeling the machining parameters of wire electric discharge machining of inconel 601 using rsm', Journal of material processing technology Vol. 169, pp. 328-336. (2005) [4] Sumit Kumar, S.K Garg and Gagandeep Chawla ‘Experimental Investigation of Effect of Process Parameters on Material Removal Rate during WEDM’, International Journal of Current Engineering and Technology, Vol.6, No.1 (Feb 2016) [5] R Shanmuga Prakash
, M Sivakumar, M Jeevaraja, G Saravanan,’Review on Wire Electrical Discharge Machining of Die and Tool Grade Steels’, International Journal of Applied Engineering Research, Vol. 10 No.85 (2015) [6] Kanlayasiri.S, Boonmung.S ‘An investigation on effects of wire EDM machining parameters on surface roughness of newly developed DC53 die steel’, Journal of materials processing technology Vol. 187, pp. 26-29. (2007) [7] Ko-Ta Chiang, Fu-Ping Chang, De-Chang Tsai ‘Modeling and analysis of rapidly resolidified layer of SG cast iron in the EDM process through responsive surface methodology’, Journal of Materials Processing Technology Vol. 182, pp. 525-533(2006).

Research on Adhesion Failure of Milling Insert and Mechanical-Thermal Coupled Field in Milling of Difficult-to-Cut Materials Guanyu Tan 1,a, Guangjun Liu 2,b , Guanhui Li1,c, Yujing Sun 1,d, Baojun Sun1,e and Yiming Rong3,f 1 Harbin University of Science and Technology, 150080, China 2 Shanghai Jiao Tong University, 200030, China 3 Worcestor Polytechnic Institute, MA 01609-2280, USA a guangyutan@hrbust.edu.cn, blgj973@163.com, c li-guang-hui@sohu.com, dsyj801023@163.com, e 710718@sina.com, frong@wpi.edu keywords: Difficult-to-cut materials, Adhesion failure, Milling insert with 3D complex groove, Mechanical-thermal coupled field Abstract.
Study show that brittle materials tool has more severe failure and is main failure pattern of tools [1].
Experiments of Adhesion Failure To study the comprehensive physical fields of milling insert with 3D complex groove and determine the distribution rules of equivalent stress of coupled temperature and stress field, the experiment of intermittent cutting of difficult-to-cut materials and tools contrast is processed.
The workpiece materials are 3Cr-1Mo-1/4V, 0Cr18Ni9 and 45 steel.
Yuan: Journal of Harbin Institute of Technology (English Edition), Vol.4 (1997), pp.107

Electrical discharge machining is the most extensively non-conventional machining process used to obtain complicated shapes with high accuracy in a wide variety of materials.
The effects of the small plasma channels of the discharges are heating, melting and vaporization of electrodes materials.
The tool electrode materials used in this study were pure copper (wire of 120 μm and 190 μm diameter) and graphite (350 μm diameter).
Heamawatanachai , Orbital electrode actuation to improve efficiency of drilling micro-holes by micro-EDM, Journal of materials processing technology 2 0 9 ( 2009) 1826–1834
Zuyuan, Prediction of aspect ratio of a micro hole drilled by EDM, Journal of Mechanical Science and Technology 27 (1) (2013) 185-190

Journal of Alloys & Compounds, 2017, 692:301-312
Journal of Alloys & Compounds, 2017, 692:301-312
Materials Science Forum, 2014, 783-786:2491-2496
Materials Science and Engineering, 1979, 37(3):237-247
Journal of Materials Engineering and Performance, 1993, 2(5):745-758

Figure 1 Theoretical structure of a co-continuous hybrid matrix fibre reinforced composite Materials As matrix material epoxy (EP), unsaturated polyester (UP), and vinyl ester (VE) were used.
Usefulness of composite materials can be characterized by their interlaminar properties because it refers to the quality of the matrix-reinforcement connection and toughness of the matrix material, as well.
Jost, Toughness response of vinylester/epoxy- based thermosets of interpenetrating network structure as a function of the epoxy resin formulation: Effects of the cyclohexylene linkage, Journal of Applied Polymer Science 88 (2003) 2124-2131
Hsiek, Damping properties of interpenetrating polymer networks of polyurethane-modified epoxy and polyurethanes, Journal of Applied Polymer Science 74 (1999) 328-335
Lin, C.C Liu., C.T Lee, Toughened interpenetrating polymer network materials based on unsaturated polyester and epoxy, Journal of Applied Polymer Science, 72 (1993) 585-592

The basic principle of the MFAAF process for finishing of flat and cylindrical surfaces were studied by Shinmura et al. [1-4] on difficult-to-machine materials.
The material removal and surface roughness increase as the magnetic abrasive particle diameter increases.
The high level of surface finish of the work material is achieved at higher signal to noise ratio.
Kawashima, Clarification of magnetic abrasive finishing mechanism, Journal of Materials Processing Technology. 143-144 (2003) 682-686
Raghuram, Parametric study of Magnetic Abrasive finishing process, journal of Materials processing technology. 149 (2004) 22-29

Experimental Procedures Materials.
Scott, Processing and Properties of Metal Matrix Composites Containing Discontinuous Reinforcement, Materials Science and Engineeriing , Vol. 107, (1989), P.93
Mallikarjuna, Characterization of Mechanical Properties of Al 2024 Hybrid Metal Matrix Composites, International Journal of Materials Physics, Vol. 3, (2012), P. 61
Materials Science and Engineering A, Vol. 332, (2002), P. 311
Journal of Materials Science, Vol. 21, (1986), P. 1667.