Search results

[2] Tsunenobu Kimoto, Material science and device physics in SiC technology for high-voltage power devices, Jpn.
Levinshtein, SiC Materials and Devices, World Scientific, (2006)
Tung., Recent Advances in Schottky Barrier Concepts, Materials Science and Engineering: R, Vol. 35, No. 1-3, pp. 1-138 November 2001
[24] Zs.J.Horváth, A.Bosacchi, S.Franchi, E.Gombia, R.Mosca, A.Motta, Anomalous thermionic-field emission in epitaxial Al/n-AlGaAs junctions, Materials Science and Engineering:B Volume 28, Issues 1–3, Pages 429-432,(1994), https://doi.org/10.1016/0921-5107(94)90099-X
[25] R.T.Tung, J.P.Sullivan, F.Schrey, On the inhomogeneity of Schottky barriers, Materials Science and Engineering: B Volume 14, Issue 3, Pages 266-280,(1992), doi.org/10.1016/0921-5107(92)90309-W

Experimental Materials and Instruments 49 g/m2 newsprint, 48 g/m2 newsprint, 45 g/m2 newsprint, 70 g/m2 offset paper, 80 g/m2 offset paper, 70 g/m2 offset paper, marked respectively as sample 1#, 2#, 3#, 4#, 5#, 6#; A quick-drying offset magenta ink, No. 6 printing varnish; Laray viscosity meter, Electronic scales(accuracy 0.0001g), YQ-Z-Ⅱ thickness gauge (0~3mm), ZPD-10B electronic mercury-free paper smoothness tester, YM-20 ink absorbency tester, IGT AIC2-5 printability tester, Metallographic microscope.
Printing materials and printability, Printing Industry Press, 2008: 46-48.
Printability, Science Press, 1985:136-146.
[5] Provatas N, Uesaka T: Journal of Pulp and Paper Science, 2003, 29 (10):62-63
（In Chinese） [9] Zhengqing Wang, Xiangtian Wang: China Journal of East China University of Science and Technology, 1997, 23 (5): 585-589.

Molar ratio of feed materials Temp.
This research has been financially supported by National Natural Science Foundation of China (No. 51074040), partly by National Natural Science Foundation of China (No. 50804007) and Grant-in-aid for China Postdoctoral Science Foundation (No.20080431152).
Du: Principle of Blast Furnace Smelting Vanadic Titanomagnetite, Beijing: Science Press, (1996), p.1 (In Chinese) [2] X.
Liu: Journal of Materials and Metallurgy, Vol. 6, No. 2 (2007), p. 83 (In Chinese) [7] V.
Walden: International Journal of Mineral Processing, Vol. 15, No. 1-2 (1985), p. 89 [10] K.

Synthesis and Properties of Ti3SiC2/SiC Ceramic Comoposites Tong-Wei LIN 1,a , Wen-Bin CAO 1,b , Jiang-Tao LI 2,c , and Chang-Chun GE 1,d 1 Laboratory of Special Ceramics and Powder Metallurgy, University of Science and Technology Beijing, Beijing (100083), China 2 Department of Engineering Research Center of Micro-sphere Materials, Technical Institute of Physics and Chemistry, Chinese Academy of Sciences, Beijing (100101), China a tongweilin@sina.com.cn, bwbcao@mater.ustb.edu.cn, cljt0012@vip.sina.com.cn, d ccge@mater.ustb.edu.cn Keywords: Ti3SiC2/SiC, In-situ solid displacement reaction, Hot pressing Abstract.
However, the low hardness and weak wear resistance of Ti3SiC2 has been critical problems and preventing the potential use as structural material [1-5].
With the increase of C and Si in the raw material, the content of SiC in the specimens increased.
Sun: Journal of Kunming University of Science and Technology 2-27 (2002), p. 1 [7] T.
Sun: Journal of Kunming University of Science and Technology 1-27 (2002), p. 34 [9] D.C.

Theoretical Study on the Dynamic Separation of Two Microplates with an Intervening Liquid Meniscus Lefeng Wang1, a, Weibin Rong2, Bin Guo1 and Bing Shao2 1School of Materials Science and Engineering, Harbin Institute of Technology, Harbin, China 2State Key Laboratory of Robotics and System, Harbin Institute of Technology, Harbin, China alefengwang@126.com Keywords: Dynamic separation, Parallel microplates, Viscous force, Separation time.
Results and Discussion We assume the plates are made of silicon due to silicon materials are most widely utilized in micro electro mechanical systems.
Kappl: Advances in Colloid and Interface Science Vol. 146 (2009), p. 48 [4] O.H.
Horn: Journal of Applied Physics Vol. 89 (2001), p. 4167 [9] J.L.
Streator: Journal of Tribology Vol. 128 (2006), p. 431 [10] K.J.

Acknowledgements This paper is supported by the followings: (1) National Natural Science Foundation of China (NSFC 61340015) (2) Natural Science Research Project of Henan Province Education Department (2010A470003; 2009B470003) (3) Science and Technology Research Project of China Coal Industry Association (MTKJ2010-387; MTKJ2009-302) References [1] Wu Yaohui.
[J]International Journal of Digital Content Technology and its Applications.(2013)Vol. 7,No. 6
[C]Applied Mechanics and Materials.Vol. 273(2013)pp 233-238
[4] Wu Yaohui, Liu Xiaomei,Ji Chengfang, Research on the Temperature Field of Special Linear Motor [C], Applied Mechanics and Materials,(2013), 273（416-417）
Journal of hubei university(Natural science edition),(2008),30 (3):260-262

The calculation provides a guiding significant to the establishment of reasonable heat treatment process and the development of new materials.
It is therefore concluded that the reasonable aging temperature must be controlled under 550℃, otherwise, more reversal transition austenite would soften the materials.
Transactions of Materials and Heat Treatment. 2008, 29( 4): 1-7
Journal of Iron and Steel Research. 2003, 15(6):38-41
Transactions of Materials and Heat Treatment. 2002, 23(3):15-19

Many time scales begins with the stone age, which led to the Bronze, Iron, Steel, Aluminum and Alloy ages as improvements in refining and smelting took place and science made all these possible to move towards finding more advanced materials possible.
Balasivanandha Prabu, Influence of stirring speed and stirring time on distribution of particles in cast MMC, Journal of Materials Processing Technology 171, 2006, pp. 268–273
Sahoo, Mechanical and Wear Properties of Rheocast and Conventional Gravity Die Cast A356 Alloy, Materials Science and Engineering A 435–436, 2006, pp. 521–529
Ghomashchi, The Implication of Rheology in Semi-Solid Metal Processes: An Overview, Journal of Materials Processing Technology 182, 2007, pp. 229–240
Amer, Moataz El-Saeed, Influence of Al2O3 Nano-dispersions on Mechanical and Wear Resistance Properties of Semisolid Cast A356 Al Alloy, Mechanical and Materials Engineering of Modern Structure and Component Design, Journal of Advanced Structured Materials, Springer International Publishing, 2015, Vol. 70, pp. 13-24

Introduction The current stage of development of materials is characterized by the appearance of new materials with unique properties.
A striking example of developing of materials science has always been the avian construction, where new materials have appeared in the first place and then found application not only in other industries, but also in medicine and sport.
Kablov, The strategic directions of development of materials and technologies for processing them for the period up to 2030, Aircraft materials and technologies.
Antsiferov, Problems of materials science and the development of high technologies in Russia, Perm State Technical University, Perm, 2010
Hui-ping, Effect of Temperature and Rare Earth Content on Oxidation Resistance of Ni-based Superalloy, Progress in Natural Science: Materials International, 21, 3 (2011)227-235

As construction backfill materials, lightweight aggregate concrete is mainly used in low-cost underground backfill, for example, abandoned mines, abandoned underground facilities subsidence and so on[1,2]. lightweight aggregate concrete is usually used in backfilling constructions in order to facilitate excavating later.
Raw materials used.
References [1] Klaas van Breugel.LWAC Material properties[R].European Union: Brite EuramⅢ/R2,1998
(In Chinese) [4] Ke feng Tan, Min hong Zhang.Diffusivity of chlorides from sea water into high-strength lightweight aggregate concrete[J], ACI Materials Journal, 1994,91(5): 447-452
[5] Min hong Zhang.Permeability of high-strength light weight concrete [J].ACI Materials Journal, 1991,88(5): 463-469.