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Meyers, Biomedical Applications of Titanium and its Alloys, Overview Biological Materials Science 60/3 (2008) 46-49
Wicker, Metal Fabrication by Additive Manufacturing Using Laser and Electron Beam Melting Technologies, Journal of Materials Science & Technology 28/1 ( 2012) 1-14
Rohatgi, Laser engineered net shaping process for SAE 4140 low alloy steel, Materials Science and Engineering A 528/22–23(2011) 6680-6693
Yashaswi, Trends in the domain of rapid rototyping: a review, International Journal of Mechanical Sciences 3/3 (2014) 747-762
Legutko, Additive techniques of manufacturing functional products from metal materials, IOP Conference Series: Materials Science and Engineering, 393 (2018) 1-8 [69] A.

Experimental Method Experimental Raw Materials.
Copper powder extracted from copper slag was used as copper-based body materials, and ultrafine alumina particulates were used as reinforced materials.
Journal of Materials Science, 2007, 42(7): 2226-2230
Journal of the Minerals, Metals and Materials Society, 2000, 52(8): 20-25
Journal of Materials Science, 2007, 42(18): 7638-7642

This paper also provided the recommended research data to fill the technology gap in defense material science. 1.
Introduction The composite materials application widens day by day on engineering design needs.
The fibrous composite materials composed of stiff, strong fibers in a form of matrix.
[2] Jeremy Gustin , Aaran Joneson , Mohammad Mahinfalah, , James Stone , Low velocity impact of combination Kevlar/carbon fiber sandwich composites, Journal of Materials Science, Volume 38, Issue 13, Pages 2825-2833
Wagner, The ballistic impact characteristics of Kevlar woven fabrics impregnated with a colloidal shear thickening fluid, Journal of Materials Science, 2003 Volume 38, Issue 13, Pages 2825-2833

Faculty of Urban Construction and Environmental Engineering, Chongqing University, Chongqing, 400030, China 3 School of Environment Science and Engineering, Tianjin University, Tianjin, 300072,China afengguohui888@163.com, bhuangkailiang_v@163.com, cgirl_liuxin@163.com, dHj_lhx@sjzu.edu.cn Key words: phase change material; floor heating; thermal storage; solar energy Abstract.
Integrating phase change materials into floor heating system, which is a effective method of optimizing using solar energy and other non-continuous energy for heating, greatly improve the heat storage and exchange capacity.
Fig. 2 Structure for phase change material floor Fig. 1 Operation principle of hot water FHSPC Differential scanning calorimeter (DSC) was used to choose capric acid as the main energy storage material.
Journal of Shenyang jianzhu University(Natural Sciences) .Vol. 22-2 (2006) p.294-298 (in Chinese) [4] Qunli Zhang, Hongfa Di, Kunping Lin, etc.
Journal of Engineering thermophysics.Vol. 27-4 (2006) p. 641-643 (in Chinese) [5] Francis Agyenim, Neil Hewitt, Philip Eames, Mervyn Smyth.

[7] G.S Upadhyaya, Material Science of Cemented carbide-an overview, Material and Design 22 2001 483-489
Mahdavinejad, ED machining of WC–Co, Journal of Materials Processing Technology 162–163 2005 637–643
Tsai, Micro-hole machining of carbide by electrical discharge machining, Journals of Materials Processing Technology 87 1999 139–145
Husain, Machining of cemented tungsten carbide using EDM, journal of applied sciences 11(10) 2011 1784-1790
Lal, Grinding of cemented carbide with electrical spark assistance, Journal of materials processing technology 72 1997 61-68

The Influences of Material and Structure on the UV Protection of Summer Fabrics Li Dai a, Yi Zhang b School of Textiles Tianjin Polytechnic University Tianjin, China adaili1020@163.com, btianjinzhangyi@126.com Keywords: Fabric structure, Fiber material, Anti-UV properties Abstract.
The measured performance parameters were normalized, to make UV protection properties of different thickness, tightness, fabric structures and fiber materials are comparable.
The anti-UV performance from strong to weak is satin, twill and plain weave in terms of fabric structure; and polyester, silk, hemp and cotton in terms of fiber material.
Ding, Research of Factors which Affect UV-protective Properties of Textiles [Papers] – Journal of Donghua University (Natural Science) 2004 (03)
Lu, Study of Affecting Factors on the Performance of UV Protection of Textiles[Papers] –Journal of Zhong Yuan Institute of Technology, 2004 (03) [5] P.

Journal of Composite Materials, 2020; 54(26):4011-4024
Journal of Composite Materials, 1973; 7(4):448-464
Journal of Composite Materials, 1991; 25(3):274-301
Journal of Composite Materials, 1991; 25(1):2-43
Journal of Composite Materials, 1999; 23:2248-2280.

Zhao [18] gives the test results that loading frequencies do have effect on fatigue strength of materials, but for materials with some specific microstructure the resultant of the effect may defer.
Materials Science & Engineering A, 497 (2008) 408-415
Materials Science & Engineering A, 527 (2010) 559-564
Materials Science & Engineering A, 427 (2006) 167-174
Materials Science & Engineering A, 558 (2012) 234–241.

Experimental Methods 2.1 Materials The matrix material selected in this study is the LDPE 1965T produced by SABIC, and the filler is the nickel-coated carbon fiber produced by Shanghai Kajet Chemical Company.
Trivedi, EMI shielding: methods and materials—a review.
Journal of Applied Polymer Science, Vol. 112 (2009), p. 2073-2086
Advanced Materials, Vol. 15 (2003), p. 1918-1921
Journal of Applied Physics, Vol. 97 (2005), 064312

Ajji: Journal Macromol Materials Engineering Vol. 292 (2007), p. 1229
Wang: Journal Membrane Science Vol. 281 (2006), p. 1
Xia: Advanced Materials Vol. 16 (2004), p. 115
Freeman: Advanced materials for Membrane Separation, ACS Symposium Series, Washington DC, 2004
Meng: Journal Membrane Science Vol. 222 (2003), p. 3