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[3] Rhee, K.Y. et al., “Fabrication of aluminum/copper clad composite using hot hydrostatic extrusion process and its material characteristics”, Materials Science and Engineering: A, 384–1–2, (2004), pp. 70–76
[7] Wang, J. et al., “Study of the hot forging of weld cladded work pieces using upsetting tests”, Journal of Materials Processing Technology, 214–2, (2014), pp. 365–379
[8] Domblesky, J. et al., “Welded preforms for forging”, Journal of Materials Processing Technology, 171–1, (2006), pp. 141–149
[11] Xiong, J. et al., “Cellular automata simulation of dynamic recrystallization in rotary friction welding of pure copper”, Indian Journal of Engineering & Materials Sciences, Vol. 24, (2017), pp. 377-382
[14] Guo, Z. et al., “Modelling of materials properties and behaviour critical to casting simulation”, Materials Science and Engineering A, 413-414, (2005), pp. 465-469.

Researchers are fabricating composite materials using various filler materials to describe the wear performance of the composite, used as a machine component in industrial applications.
Composite materials show an excellent strength and less weight compared to existing materials in industrial applications whereas wear is an important property of the machine components.
Figure 3 shows the pull out and poor bonding of the glass fibers without any addition of filler materials.
Nallusamy and Saurabh Kumar, (2016), “Efficiency and lifespan enhancement of product with dissimilar material using different techniques”, Indian Journal of Science and Technology, Vol. 9(16), pp. 1-5 [18] Manjunatha, Niranjan and Satyanarayana, (2015), “Effect of mechanical and thermal loading on boron carbide particles reinforced Al-6061 alloy”, Materials Science and Engineering, Vol.
filled glass epoxy composites”, International Journal of Innovative Research in Science, Engineering and Technology, Vol. 3(7), pp. 14331-14338 [28] Kaundal R, Patnaik A and Satapathy A, (2012), “Effect of SiC particulate on short glass fiber reinforced polyester composite in erosive wear environment”, Walailak Journal of Science and Technology, Vol. 9, pp. 49-64

It is the main way to remove quartz material in lapping.
Acknowledgement This project is supported by Natural Science Foundation of China (51175166), Natural Science Foundation of China (51275476), Key project of the Natural Science Foundation of Zhejiang Province (LZ12E05001) and Natural Science Foundation of Zhejiang Province (Y1101085).
[4] Yuan Julong, Zhao Ping, Ruan Jian, Lapping and polishing process for obtaining super-smooth surfaces of quartz crystal, Journal of Materials Processing Technology 138 (2003) 116–119
International Journal of Machine Tools & Manufacture, 2004(44): 167- 173
[9] Chih-Cheng Wang, Shih-Chieh Lin, Hong Hochen, A material removal model for polishing glass–ceramic and aluminium magnesium storage disks, International Journal of Machine Tools & Manufacture 42 (2002) 979–984.

After hundred years of development, the types of piezoelectric materials develop from the original piezoelectric crystal to the piezoelectric ceramics, the piezoelectric polymer, the piezoelectric composite material and piezoelectric alloys and other materials.
But piezoelectric ceramic materials belongs to brittle material, it will be broken when the piezoelectric materials are closed to the pavement, so we should consider the mechanical characteristics of piezoelectric materials; moreover, pavement will stand axle load for millions of times and even hundreds of millions of times in design working life, too much stress can cause fatigue damage of piezoelectric materials, therefore, not only the theoretical data, but also the material characterization and the coupling of the material characterization and the pavement should be taken in consideration to judge the position of the piezoelectric materials.
[J] Journal of Shanghai Jiaotong University,2011,(3)：342-347
ICAT,Materials Research Institute,Pennsylvania State University,University Park,PA 16802,U.S.A Japanese Journal of Applied PhysicsVol. 43, No. 9A, 2004, pp. 6178–6183#2004 The Japan Society of Applied Physics
Highway traffic science and technology.2011(06)

A review of Nanostructured TiO2 Application in Li-Ion Batteries Jiang Wei 1, a, Jianxiong Liu 1,b, Yuchun Dang 2,b, Kun Xu1,c and Yi Zhou 3,d 1 Faculty of Materials Science and Engineering, Kunming University of Science and Technology, Yun Nan, China 2 College of Mechanical and Electrical Engineering ,Panzhihua University，SiChuan,China 3 GETRAG (Jiangxi) Transmission Co., Ltd.
Since the first Li battery was introduced by Sony Co. in 1991, many new materials are developed aimed to replace the traditional electrode materials [1-6].
Cao and Guo et,al indicated that there was poor ionic conductivity of some materials such as carbonaceous material.
Combining those materials we described in Introduction to form composites is very benefit for developing new electrode materials.
A65 [55] Xian-Ming Liu et,al.: Composite Science and Technology Vol. 72 (2012), p. 121 [56] K.S.Novoselov, A.K.Geim et,al.: Science Vol. 36 (2004), p. 666 [57] H.Huang, W.K.Zhang et,al.: Materials Letters Vol. 61 (2007), p. 296 [58] Songhun Yoon,et,al.: Electrochemical and Solid-State Letters Vol. 2 (2009), p.

Cementitious Macro Defect Free (MDF) materials can be obtained in complex forms with high performance making these materials suitable for applications in many sectors.
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Tang., "Optimizing the hot-forging process parameters for connecting rods made of PM titanium alloy," Journal of Materials Science, 47 (2012) 3837-3848
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., Velká Bíteš, Czech Republic and The Silesian University of Technology, Faculty of Materials Science and Metallurgy, Katowice, Poland.
Mendala, Advanced materials and protective coatings in aero – engines application, Journal of Achievements in Materials and Manufacturing Engineering 24 (1) (2007) 372-381
Rapp, Hot corrosion of materials: a fluxing mechanism?
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In recent years, the scientific materials science has adopted the concept that the final properties of materials are predetermined by their structure.
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Mechanics of composite materials.
Mechanics of composite materials.

China 2Tianjin University of Science & Technology, Tianjin 300222, P.R.
Because the reversible thermochromism sheet has the functional properties, they were able to design in security packaging, children's toys, accessories and other areas of medical applications.In recent years, thermochromism materials has become the most active research areas in the functional materials science, it attached great importance by the researchers.
Instrument Materials.
HLDPE, Reversible thermochromism materials Main experimental instrument.
Zhu: Journal of Functional materials, Vol. 28 (1997) No.4, pp.337-341.