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The protection performance of materials with higher mt can be improved more efficiently by increasing its thickness, and the materials with lower me have a good protection potential when the impact energy increased.
Materials Science and Engineering 2003; A358:128-133
Journal of Materials Science Letters 1986; 5: 453-454
Materials and Design 2008; 29(10): 2009-2016
Metallurgical and Materials Transactions A 2003; 34: 2541-2548

Generally, face sheet materials can be divided into two groups; metallic materials - thin plates particularly made of aluminum, steel, and metal alloys, and non-metallic materials - fiber composites (glass, carbon, etc.) with different matrix (polyester, phenol, epoxy, etc.), HPL sheets, plywood and currently extensively used pre-impregnated materials (prepregs).
Conversely, core materials used in sandwich applications can be divided into four main groups, namely metallic and polymer foams, metallic and non-metallic honeycombs, corrugated cores and natural core materials as cork and balsa.
Vinson, The Behavior of Sandwich Structures of Isotropic and Composite Materials, first ed., CRC Press, New York, 1999
Manes, Numerical investigation of a three point bending test on sandwich panels with aluminum skins and Nomex™ honeycomb core, Computational Materials Science. 56 (2012) 69-78
Part I: analytical models and minimum weight design, International Journal of Mechanical Sciences. 46 (2004) 561-583

The materials used for making dentures should own good machining properties and biocompatibilities.
Elastic modulus of enamels is 46GPa-130GPa, thus the elastic modulus of denture materials should also be in this range. (5) Appropriate hardness (The hardness of dental materials should be close to the hardness of natural teeth.
Mechanical properties of materials mainly relates to the strength and hardness.
Van, Engineering long term clinical success of advanced ceramic prostheses, Journal of Materials Science: Materials in Medicine, 18(1) (2007) 47-567
Jeffrey, Ceramics for restorative dentistry: Critical aspects for fracture and fatigue resistance, Materials Science and Engineering C, 27(2007) 565-569

The crystalline phase of raw materials was inspected.
Materials and Methods 2.1 Preparation of raw materials.
Crystalline phase within raw materials.
SRIROTH, Zero Waste Management to Increase Efficiency in Palm Oil Production and Processing for Food Security in Thailand, Walailak Journal of Science and Technology (WJST), 14 (2016) 589-596
Neamlut, Reutilizing Sediment Soil Wastes from Water Supply Treatment Process as Replacement Materials of Non-Fired Wall Tiles, in: Materials Science Forum, Trans Tech Publ, 2018, pp. 303-310

Composite materials continue to grow in popularity within the aerospace industry as the preferred material for manufacturing large airframe structures.
However, the popularity of composite materials has also led to the increase in composite waste.
As the popularity of composite materials continues to grow, the proper management and recycling of these composite waste materials becomes increasingly crucial to the sustainability of the environment.
Today, the utilization of composite materials has become the standard in the aerospace industry.
Soutis: Materials Science and Engineering A Vol. 412 (2005), p.171-176 [2] C.

In recent years, using rejuvenator sealer materials (RSMs) to recover the performance of aged asphalt on the pavement is becoming more and more popular.
And many rejuvenating seal materials have been applied to maintain pavement at home and abroad.
Materials The SBS modified asphalt (SMA) was produced by Panjin North Asphalt Fuel Co.Ltd.
The result may be contributed to increasing light components (Saturates and Aromatics) with the addition of four rejuvenator sealer materials.
Lee,HP-GPC Characterization of Rejuvenated Aged CRM Binders, Journal of Materials in Civil Engineering, 7(2007)515-522

Optimization Design for Gun-receiver Materials Belt Grinding Based on Orthogonal Experimental Method and Grey Relational Analysis Yuhui Chen1, 2,3,b , Yun Huang1,2,3,a and Yao Huang1,2,3,c 1The State Key Laboratory of Mechanical Transmission, P.R.
In addition, the optimal grinding speed range of belt grinding is different under different materials.
Acknowlegement This research has been supported by Chongqing Science ＆ Technology Commission Project (cstc2012gg-yyjs70002).
Journal of vibration and shock, 2011, 30(7): 127-132
Journal of vibration and shock, 2005, 24(1): 66-69

Journal of Polymer Science Part a-Polymer Chemistry 44, 3629-3639 (2006)
Journal of Polymer Science Part B-Polymer Physics 46, 1652-1659 (2008)
Journal of Applied Polymer Science 70, 1753-1757 (1998)
Chemistry of Materials 9, 761-765 (1997)
Weber William, in Science and Technology of Silicones and Silicone-Modified Materials.

BPS, 1303 - CEP 37500-090 - Itajuba/MG, Brazil aisabel.kuntz@gmail.com, bgachet@ft.unicamp.br, crosacclintz@ft.unicamp.br drachelrusso99@hotmail.com, elubi@ft.unicamp.br Keywords: Alternative materials; Construction materials; Mortar; Tire rubber Abstract.
Materials and Method Materials.
The materials were added in the following order: water, cement and sand previously mixed with rubber.
Raghavan:Study of rubber-filled cementitious composites.Journal of Applied Polymer Science, Vol. 77 (2000), p. 934-942
Journal of Materials Science, no33(1998), p. 1745-1752

Utilization of Steel Slags in Cement Industry LI Jiangfeng1,a, LUO Xiucheng1,b, SUN Mengke1,c, SHEN Weiguo1,2,d *, CAO Bing3e,LI Xinling2f 1 School of Materials Science and Engineering, Wuhan University of Technology, Wuhan 430070, China 2State Key Laboratory of Silicate Materials for Architecture, Wuhan University of Technology, Wuhan 430070, China 3Hubei province Transportation Investement lt.d,Wuhan 430005,China alijiangfeng@whut.edu.cn, bluoxiucheng668@163.com, c742630069@qq.com, d401985379@qq.com,ecaobinggl@sin.com,f1125582964@qq.com Keywords: building materials; steel slag; cement industry; multiple phased sintering.
Journal of Hazardous Materials. 164 (2009) 99-104
Journal of Hazardous Materials. 152 (2008) 805-811
Journal of Hazardous Materials B. 137 (2006) 1656-1663
Journal of Hazardous Materials. 196 (2011) 287-294