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Optical glass is widely used as the most important material in optical field in recent years.
Acknowledge This research is sponsored by the Special Grand National Science-technology Project of China (Project number: 2010ZX04001-151), the Hunan Provincial Natural Science Foundation of China (No.10JJ4030), the Specialized Research Fund for the Doctoral Program of Higher Education (No. 200805321035) and the Fundamental Research Funds for the Central Universities.
Advanced Material research Vols.97-101(2010) pp4092-4095: [3] Jain, A., Yi, A.
Y., Finite Element Modeling of Stress Relaxation in Glass Lens Moulding using Measured, Temperature-Dependent Elastic Modulus and Viscosity Data of Glass, 2006, Institute of Physics: Modelling and Simulation in Materials Science and Engineering, Vol. 14, pp. 465-477
Journal of the American Ceramic Society, 44(7): p.353-363

IOP Conference Series: Materials Science and Engineering, Russia (2018).
In IOP Conference Series: Materials Science and Engineering 2016 Apr 1, vol. 127, No. 1, IOP Publishing (2016)
In IOP Conference Series: Materials Science and Engineering 2016 Oct 1, vol. 154, No. 1, IOP Publishing (2016)
IOP Conference Series: Materials Science and Engineering, 463(4), 042048 (2018).
Reprinted from Materials Science of Concrete: Calcium Hydroxide in Concrete, Special Volume, Proceedings.

Fabrication of NF-PLLA Scaffolds by Gel Extraction Phase Separation Zhihang He1, a, Jia Liu1, a, Guojie Xu2, c, Jianjin Jiao1, d, Xiufeng Xiao2, e,* (1,2Key Laboratory of Polymer Materials, 1College of Material Science and Engineering, Fujian Normal University, Fuzhou 350007, China 2College of Chemistry and Chemical Engineering, Fujian Normal University, Fuzhou 350007, China a992120774@qq.com, bxinlanyh@qq.com, cxuguojie-0935@163.com, d404787039@qq.com exfxiao@fjnu.edu.cn*) Keywords: porous scaffolds; NF-PLLA; gel extraction phase separation Abstract.
The PLLA scaffolds will become a material to repair the bone tissue, hopefully.
Acknowledgements This work was financially supported by National Nature Science Foundation of China (30970887), the Science Research Foundation of Ministry of Health (WKJ 2008-2-037), Fujian Province Nature Science Foundation (2011J06019, 2012J01194).
[11] Aijuan Z: Journal of Shandong University, (2008). 38(5): p. 102-106.

Dayananda1,b 1 School of Materials Engineering, Purdue University, West Lafayette, IN 47907, USA.
The research is supported by the National Science Foundation. 1.
Acknowledgements This work was supported by the National Science Foundation under Grant No.
Sohn, Metallurgical and Materials Transactions A, 1999. 30A(3): p. 535-43
Journal, 1964. 10(4): p. 448-455

Introduction With the development of modern science and technology, composite material increasingly received more attention because of their superior performance.
Composite materials can give full play to the strong points of the component materials, make up for its shortcomings, and own excellent performance that a single material cannot have[1].
Metallic materials can also gain more excellent electrical and magnetic properties.
Materials Research Bulletin(2008) ,In Chinese [5] Yang Fangzu,Yang Bin,Lu Binbin.
Journal of infrared and millimeter(2004) ,In Chinese

Electric Conductive Si3N4/TiN Composite Ceramic Manufactured by Liquid-Qhase Sintering Yong Jianga, Laner Wub and Zhenkun Huangc School of Materials Science and Engineering, Beifang University of Nationalities, Wenchangbei Road, Yinchuan 750021, China ajynxyc@126.com (Corresponding author), bLanerwu@126.com, czkh_08@163.com Keywords: Si3N4 based ceramics, TiN, conductive phase, electric resistivity Abstract.
But it requires the machining materials must have good conductivity, its resistivity needs to be < 10-1 Ω·m.
Following materials can be selected as electric conductive second phase: TiN, ZrB2, MoSi2, Mo2C and Mo, in which TiN were often studied [5].
Mathieu, Electrical discharge machinable ceramic composites, Materials Science and Engineering A. 109 (1989) 351-356
[5] Shuhui Zhang, Zhiqiang Kang and Qing Lu, Room temperature electrical conductivity property of Si3N4/TiN composite ceramics, Advanced Materials Research. 150 (2011) 257-261

Standardization of Cosα Method for X-Ray Stress Measurement Toshihiko Sasaki1,a*, Ryoji Mizuno2,b, Shigeki Takago3,c and Yoshihisa Mishima4,d 1Dept. of Materials Science & Engineering, Kanazawa University, Kakuma-machi, Kanazawa, Ishikawa, 920-1192 Japan 2Non-Destructive Evaluation Centre, Japan Power Engineering and Inspection Corporation (JAPEIC), 14-1, Benten-cho, Tsurumi-ku, Yokohama, 230-0044, Japan 3Industrial Research Institute of Ishikawa, 2-1, Kuraduki, Kanazawa, Ishikawa, 920-8203, Japan 4X-ray Residual Stress Measurement Centre, 1-38-8, Nagatsuda-Midoridai, Midori-ku, Yokohama, Kanagawa, 226-0018, Japan asasakit@staff.kanazawa-u.ac.jp, bmizuno-ryouji@japeic.or.jp, ctakago@irii.jp, dmishima@x-rsmc.com Keywords: residual stress, X-ray, cosα method, Debye ring, standardization.
All these values are obtained from X-ray data, material constants, or experimental conditions.
Yamasaki, Journal of The Society of Materials Science, Japan, Vol. 27, No. 294 (1978) 251-256
Yoshioka, The 27th Workshop on X-ray Studies of Mechanical Behaviour of Materials, The Society of Materials Science, Japan, December 4th, Tokyo, (1990) 1-8
Hirose, Journal of The Society of Materials Science, Japan, Vol. 44, No. 504 (1995) 1138-1143

Amadeh, “Resistance Spot Welding Joints of AISI 316L Austenitic Stainless Steel Sheets: Phase Transformations, Mechanical Properties and Microstructure Characterizations,” Materials and Design, vol. 61, pp. 251-253, 2014
Martini, “Low-Temperature Carburised AISI 316L Austenitic Stainless Steel: Wear and Corrosion Behaviour,” Materials and Design, vol. 38, pp. 154-160, 2012
Taktak, “Plasma Paste Boronizing of AISI 8620, 52100 and 440C Steels,” Materials and Design, vol. 32, pp. 2380-2386, 2011
Saidan, “Superplastic Boronizing of Duplex Stainless Steel under Dual Compression Method,” Materials Science and Engineering A, vol. 528, pp. 8106-8110, 2011
Callister, Materials Science and Engineering: An Introduction, Sixth Edit.

It is judged that the two tissue materials in this area have penetrated and diffused to form an alloy structure.
Acknowledgments The authors are grateful for the financial supports from the University of Science and Technology Liaoning Talent Project Grants (No.601010314) and the University of Science and Technology Liaoning Young Teachers Fund (2019QN08).
Materials Science and Engineering of Power Metallurgy.20(2015)368-374
Journal of Materials Processing Technology.63(1997)370-374
Journal of Materials Processing Technology. 63(1997)438-441

Different fibers have different properties, and several different materials blending or interweaving can produce excellent performance.
Experiments Test Materials.
A total number of seven different weft-knitted fabric samples were produced by flat knitting machines .The materials used in this study are listed in Table 1.
Journal of Applied Polymer Science.Vol.117. 3 (2010), p. 1843-1850 [4] Y.J.
Wool Textile Journal, 7 (2005), p. 5-8.