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Morsi, Review reaction synthesis processing of Ni-Al intermetallic materials.
Liu, Reaction mechanism of combustion synthesis of NiAl / Materials Science and Engineering, A329-331, (2002), 57–68
Perry, Crack initiation in laminated metal-intermetallic composites, Journal of Material Science, 31 (1996) 901 – 1906
Hong, Reaction synthesis and microstructures of NiAl/Ni micro-laminated composites, Materials Science and Engineering A 396 (2005) 376–384 [7] P.Zhu , J.C.M.
Liu, Combustion reaction in multilayered nickel and aluminum foils, Materials Science and Engineering A239–240 (1997) 532–539

Introduction The development of such high-tech industries as aerospace and engineering cannot be carried without high-quality materials, to which there are more serious requirements, both in operational and functional characteristics.[1,2] Among such materials a special place is occupied by polymer composite materials (PCM).
Experimental Materials.
Thermosetting (bio) materials derived from renewable resources: a critical review, Progress in polymer science 35 (2010) 487-509
[6] ASTM International D3039/ D3039M-00 // Standard Test Method for Tensile Properties of Polymer Matrix Composite Materials
The physical properties of bisphenol A based epoxy resins during and after curing, Journal of Polymer Science Part B: Polymer Physics. 24 (1986) 1303-1320.

Al-Khazaal3,c, Usman Omer4,d, Syed Mohsin Amin5,e, Zeeshan Hasan Minhas6,f, Shams Uddin Sheikh7,g 1NED University of Engineering and Technology, Department of Materials Engineering, Pakistan 2Department of Mechanical Engineering Yanbu Industrial College Royal Commission Yanbu, Education Division P.O.Box 30436, Post Code 41912 Saudi Arabia 3Department of Chemical and Materials Engineering NBU Arar, Northern Region KSA 4-6Department of Materials Engineering, NED University of Engineering and Technology Pakistan aengrabro@neduet.edu.pk, bmoriah@rcyci.edu.sa, cAbdulaal.Alkhazaal@nbu.edu.sa Keywords: Xanthan Gum, Heat Absorbing, Heat Retarding, Carbon Foam, Blowing.
Acknowledgements The authors wish to give their utmost thanks to department of materials engineering at NED University of Engineering and Technology Pakistan for the cooperation and financial help.
References [1] Shahid Hussain Abro, Muhammad Sohail Hanif and Fayaz Hussain Kandhro: NUST journal of Engineering Sciences.
ABRO: Sindh University Research Journal-SURJ (Science Series).
Vol. 25 (2019), p. 14-17 [12] Shahid Hussain Abro: Pakistan Journal of Engineering and Applied Sciences PJEAS, Vol. 38, No. 1, (2019), p. 34-40 [13] Murtuza Mehdi, Maaz Akhtar and Shahid Abro: Journal of Elastomers and Plastics.

Preparation and Properties of SiC/Phenolic Resin for the Heat of LED Cong Wua, Kang Zhaob, Yufei Tangc and Jiyuan Mad* School of Materials Science and Engineering, Xi’an University of Technology, Xi’an 710048, China a18702960259@163.com, bkzhao@xaut.edu.cn, cyftang@xaut.edu.cn, d121611018@qq.com Keywords: Silicon carbide, Phenolic resin, Heat dissipating material, Thermal conductivity.
Compared to the diameter of 50µm composite materials, thermal conductivity of composite material increased.
This work demonstrated that the problem of low coefficient of thermal conductivity of materials used in the LED industry can be solved, and has very high reference value to obtain high performance LED heat dissipation materials.
Journal of Human Light Industry college, 2002, 14(4): 20-24
[13] Zhang Xiaohui, Research for thermal properties and Mechanism of electric polymer materials.

Concretely, the titanium alloy Ti-6Al-4V and the composites Ti-6Al-4V with 10 vol% (TiB+TiC) particulates were employed as the ground materials respectively.
Chrysanthou: Journal of the European Ceramic Society, Vol. 28 (2008), pp.1697–1713
Mai: Composites Science and Technology, Vol. 68 (2008), pp.583-601
Zhang: Key Engineering Materials, Vol. 351 (2007), pp.201-207
Hung: Journal of Materials Processing Technology, Vol. 123 (2002), pp.13-17.

Materials and Methods Materials.
Key Engineering Materials, 889, 3–8
Journal of Materials Science, 53(9), 1–25. https://doi.org/10.1007/s10853-019-03990-y [5] Liu, Y., Xie, J., Wu, N., Wang, L., Ma, Y., & Tong, J. (2019).
Materials Today: Proceedings, 5(1), 3185–3192
Journal of Materials Research and Technology, 8(2), 2070–2082. https://doi.org/10.1016/j.jmrt.2018.12.021 [24] Ait-Abdellah, A., Belcadi, O., Balla, M.

Materials and Method Sodium tungstate, Na2WO4 (Sigma-Aldrich), hydrogen peroxide (Merck), nitric acid (Merck), copper(II) sulphate penta-hydrate, CuSO4.5H2O (Sigma-Aldrich), lactic acid (Sigma-Aldrich) and sodium hydroxide (Sigma-Aldrich) were used as starting materials for the electrodeposition of WO3 and Cu2O.
Journal of Electronic Materials 41 (2012) 3062-3067
Wang, Highly stable copper oxide composite as an effective photocathode for water splitting via a facile electrochemical synthesis strategy, Journal of Materials Chemistry 22 (2012) 2456–2464
Shrivastav, Preparation and characterization of nanostructured CuO thin films for photoelectrochemical splitting of water, Bulletin of Material Sciences 29 (2006) 709–716
Al-Jassim, Electrochemical deposition of copper oxide nanowires for photoelectrochemical applications, Journal of Materials Chemistry 20 (2010) 6962-6967

Aiming at the development of a novel grinding technology for the highly efficient machining of difficult to machine materials such as Ti-6Al-4V, an ultrasonic assisted pulsed electrochemical grinding (UAECG) method was proposed.
This is because grinding process commonly yields workpieces with good surface finish and high form/dimension accuracy even for difficult-to-machine materials in which the work materials are removed with extremely small and hard-brittle abrasive grains.
Wang, Titanium alloys and their machinability - a review, Journal of Materials Processing Technology, 68 (1997) 12
Poroś, Wear of cathode in abrasive electrochemical grinding of hardly machined materials, Journal of Materials Processing Technology, 149 (2004) 414-418
Joshi, Analysis of Electrolytic Flow Effects in Micro-Electrochemical Grinding, Journal of Manufacturing Science and Engineering, 135 (2013) 011012

This method could save manpower and material resources, reduce the consumption of potential dangerous and provide a practical and efficient teaching methods.
References [1] Qunxing Su, Pengyuan Liu: Journal of China Ordnance Vol.21(2006),p.79-83,in Chinese
[2] Bensheng Zhang, Ying Wang: Journal of Naval Aeronautical Engineering Institute Vol.17(2002), p.571-574,in Chinese
[5] Tianhui Zhang, Ying Liu, Yuanchang Zhu: Journal of Ordnance Engineering College Vol.16 (2004),p.56-59,in Chinese
[6] Suangsuang Jiang: Journal of System Simulation Vol..19(2007),p.2488-2491,in Chinese.

IPMC (Ion-exchange polymer metal composite) is a kind of novel artificial intelligent materials.
The design method and circuit of a new type of charge amplifier[J],Hefei, Journal of Hefei University of Technology Natural Science, 2006, 12,29 (12):1609-1612
[3] Mojarrad M and Shahinpoor M．Ion-exchange-metal composite sensor films[J]，Smart Structure and Materials,1999,Proc.
[4] Konyo M,Konishi Y,Tadokoro S and Kishima T．Development of velocity sensor using ionic polymer-metal composites[J],Smart Structure and Materials,2004,Proc.
Dynamics determination modulus of elasticity of IPMC based on cantilever beam resonance method[J].Shenyang, Journal of Northeastern University of Technology Natural Science, 2011,10,32 (10):1464-1467.