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W and Ta have been used as crucible materials.
Starting materials are commercials AlN and SiC powders.
Winnacker: Materials Science Forum Vol. 433-436 (2003), p. 983
Kneissl: Materials Research Society Symposium Proceedings Vol. 722 (2002), p. 5
Winnacker, Materials Science Forum Vol. 389-393 (2002), p. 1445

Porous Carbon Derived from Metal-Organic Framework as an Anode for Lithium-Ion Batteries with Improved Performance Yu-mei Luo1, Li-xian Sun1, 2, a, Fen Xu1, b, Zi-qiang Wang1, 2 1Guangxi Key Laboratory of Information Materials & Guangxi Collaborative Innovation Center of Structure and Property for New Energy and Materials, School of Material Science and Engineering, Guilin University of Electronic Technology, Guilin 541004, P.
It exhibited a typical cyclic voltammogram curve (CV) of carbon anode materials, in agreement with other reports on carbonaceous materials [27, 28].
Stein: Advanced Energy Materials, Vol. 2 (2012) No.9, p.1056
Zhang: Journal of Materials Chemistry A, Vol. 1 (2013) No.14, p.4490
Hyeon: Advanced Materials, Vol. 18 (2006) No.16, p.2073

Series: Materials Science and Engineering 358 (2018) 012064
Series: Materials Science and Engineering, 160 (2016) 012062
Tverskoy, The Development of New Materials and Modes of Casting Metal Powder Mixtures (MIM Technology), FarEastСon - Materials and Construction, Materials Science Forum (vol. 945), February 2019, pp. 538-542
Salman, Microstructures and mechanical properties of injection molded 17-4PH stainless steel powder with nickel boride additions, Journal of Materials Science 40 (2005) 3415 – 3421
Stephenson, Metal co-injection moulding, Journal of Materials Science Letters 15 (1996) 2033-2035

Tymczenko, Silicon colloids: from micro-cavities to photonic sponges, Advanced Materials. 20 (2008) 95-98
Meng, Preparation and characterization of mesoporous silicon spheres directly from MCM-48 and their response to ammonia, Journal of Materials Science. 46(2011) 7223-7227
Hamakawa, Crystal evaluation of spherical silicon produced by dropping method and their solar cell performance, Solar Energy Materials & Solar Cells. 90 (2006) 3614-3623
Sivoththaman, Growth and structural characterization of spherical silicon crystals grown from polysilicon, Journal of Electronic Materials. 37 (2008) 1657-1664
Nakajima, Formation of silicon hollow spheres via electromagnetic levitation method under static magnetic field in hydrogen–argon mixed gas, Materials Letters. 63(2009) 602-604

Porous metallurgy materials is a new kind of materials developed within the last ten years, it has the properties of structural materials and functional materials.
The paper analyses the mechanical properties of oily porous materials joint from a theoretical point.
As the assumptions, the joint interface of porous and non-porous materials becomes simplified.
The porous is iron-base powder metallurgy materials; Trademark is 4001, which is produced in Quebec, Canada.
Mathematical Model for Elastic Contact of the Function Friction Materials.

The most common among these materials are copper and aluminum [1].
Other materials are also considered for use in MEMS devices.
Shmakov, Recearch for promising materials and constructive-technological solutions for temperature-sensitive elements of micromechanical accelerometers, Journal of Phys: Conf.
Dashevsky, Materials science of semiconductors and dielectrics, Mosocw “MISSIS”, 2003
Ser.: Materials Science and Engineering 450 (3) (2018) 032004

School of Materials Science and Engineering, Wuhan University of Technology, Wuhan, China 2.
It was used for reactive salic cementitious materials.
Acknowledgements The authors gratefully acknowledge the project supported by the National Major Fundamental Research Program of China (Grant No. 2009CB23201) and the facilities provided by the school of materials science and engineering at Wuhan University of Technology, Hubei, China.
[3]NanruYang: Journal of The Chinese Ceramic Society, 24(4)(1999):209–215.
(in Chinese) [5]Davidovits J: Journal of Thermal Analysis,35(2)(1989):429-41

Analyses of Influencing Factors of Pore Formation during Resistance Spot Welding of Magnesium Alloy Yimin Tu1, 2, a, Ranfeng Qiu1, 2, b, Hongxin Shi1, c, Hua Yu1, d and Keke Zhang1, e 1School of Materials Science and Engineering, Henan University of Science and Technology, Luoyang, 471003, China 2 Henan Key Laboratory of Advanced Non-ferrous Metals, Henan University of Science and Technology, Luoyang 471003, China a yimin@mail.haust.edu.cn, b xdqrf@yahoo.com.cn, c hyhx66@163.com, d kedayuhua@126.com, e zhkeke@mail.haust.edu.cn Keywords: Resistance spot welding, Magneisum alloy, Pore, Mechanism Abstract.
[4] Ranfeng Qiu, Hongxin Shi, Hua Yu, Keke Zhang, Yimin Tu and Shinobu Satonaka: Materials and Manufacturing Processes 25-11(2010), p. 1304-1308
Wesley: Welding Journal 54-3(1975), 95s-98s
Wu: Welding Journal 56-8 (1977), p. 238s-244s
Hu: Welding Journal 83-4 (2004), p. 123s-132s.

Journal of Composites Science, 2(4) (2018) 66
Journal of Composites Science, 2(4) (2018) 66
Journal of Physical Science. 29(3) (2018) 23-35
Applied Composite Materials, 18(2) (2011) 101-111
Journal of Materials Research and Technology, 9(4) (2020). 8705-8713

Journal of Materials Science, Materials in Medicine 16 (2): p. 107-117
Journal of Materials Science, Materials in Medicine 13 (10): p. 911- 916
Journal of Materials Science, Materials in Medicine 17: p. 647-657
Journal of Materials Science, Materials in Medicine 24: p. 97-103
Journal of Materials Science: Materials in Medicine 23 (2): p. 349–356.