Search results

Thermodynamic Research of Inclusion Forming in FeSiB Alloy based on Energy Materials Dingguo Zhaoa, Xiaojie Cuib, Shuhuan Wangc, *, Hejun Zhangd (College of Metallurgy and Energy, Hebei United University, Tangshan 063009, Hebei, China) agyyzhao@163.com, bcuixiaojie99@163.com, cwshh88@heuu.edu.cn, dzhanghj@163.com Keywords: inclution; oxide; nitride; FeSiB alloy,energy materials Abstract: The thermodynamic analysis shown that oxygen content in master alloy is very low, so other alloy elements content which are balance to oxygen are relatively high.
All of the research are based on energy materials and it will be useful for the development for energy saving.
The raw material of direct reduction method is boron anhydride, in which aluminum, titanium content is much lower than boron iron, and direct reduction method generate a large smelting slag, which can absorb inclusion well, so the inclusion generated in the master alloy is very less. 4.
Acknowledgements This work was financially supported by the National Natural Science Foundation of China (50974051).
Journal of Iron and Steel Research, 2011, 18(6): 17~22

Materials and Experimental Details Raw Materials.
Journal of Material Science. 2002, 37: 2311-6
Australian Journal of Basic and Applied Sciences, 5(10): 824-828, ISSN 1991-8178. 2011
Journal of Hazardous Materials, 2008. 154: p. 175-183
Advanced Materials Research.

Therefore, this study is a basic research for the precision forming of the low-formability materials using the MPF, to select the main design parameters that affect the MPF processing.
Daehn : Journal of Manufacturing Science and Engineering Vol. 129 (2007), pp. 369-379 [3] M.
Daehn : Journal of materials processing technology Vol.168 (2005), pp. 390-400 [4] F.W.
Davies : International journal of mechanical sciences Vol. 50 (2008) pp.1466-1475 [9] J.
Yu : Journal of materials processing technology Vol.184 (2007), pp. 190-194

Therefore, the manufacture method for micron flake wood fiber is a kind of way of materials preparation, which can economize energy, decrease in consumption and pollution.
Therefore, the manufacture method for micron flake wood fiber is a kind of way of materials preparation, which can economize energy, decrease in consumption and pollution.
Journal of Wood Science, 50( 1): 28-34
Journal of Materials Science, 36：4903 – 4909
Wood Science and Technology, 13 (2): 89-96

Gun'ko//Journal of Materials Chemistry, 16 (2006), 4206-4213 [10] Guojian, W.
Jianlong/Materials Science and Engineering, 472 (2008), 136-139 [11] Mamunya, Y.
Mahulikar//Journal of material science, 44 (2009), 3118-3124 [16] Zeng, X.
Chen//Journal of material science, 43 (2008), 3505-3509 [17] Guzeev, b. to the structure of PVC-based composition and dimensional calcium carbonate/Vladimir Guzeev, L.A.
Mahulikar//Journal of material science, 44 (2009), 3118-3124 [19] Bakar, A.A.

There are up to 160 000 engineering materials to choose from [1]; however, engineers have commonly access to only tenths of different kinds of materials.
Engineering Design-driven Materials Selection Materials selection is driven by engineering design process of a given product.
Optimal combination of materials has the highest value of material index.
Hrdlicka, FEM-Aided Material Selection Optimization, MM Science Journal, 2017, June, pp. 1855-1859, ISSN 1805-0476
Support of Materials Selection Optimization using ANSYS.

Study on Energy Materials with Energy Level Width of 2DEG in Triangular Well Gang Xu1, a, Yue Sun2,b 1College of Physics and Electronic Engineering Chongqing There Gorges College Wan Zhou China 2 College of Physics and Electronic Engineering Chongqing There Gorges College Wan Zhou China axugang1978@tom.com, bsunyue@tom.com Keywords: 2DEG; Energy level width; Triangular well; Energy Materials.
Abstract: Applying theories on quasi-classical particles and the uncertainty relation of quantum mechanics, we deduce the formula of energy uncertainty in energy materials with electric field .We use it to two dimension electron gas (2DEG) in triangular well and get its energy width.
So we could consider the electric field lead to broaden of energy the width of energy levels in energy materials.
At the same time, the energy width of the first excited state is wider than the ground state in energy materials, At the same time, the result of this paper is agreement with the experiment [1,5].
Journal of Nanchang University, Vol.24 (2002), p.84-85 [5] Ding Kou-bao.

Development of multi-scale computation framework to investigate the failure behavior of the materials *Z.
With the development of material science, especially as MEMS/NEMS are playing a more and more important role in modern engineering, some mechanical behaviors of materials, e.g., fracture, shear instability, need to be investigated from multidisciplinary perspective.
Though molecular dynamics (MD) simulations have been widely performed to explore the mechanical properties of nano-scale materials, it is impossible to handle not only the loading rate but also the specimen size used in the current MD simulation with existing experimental techniques.
Acknowledgements The support of the National Natural Science Foundation of China (NSFC) is gratefully acknowledged.
Fang: International Journal for Mutiscale Computational Engineering 3(2005), p. 451

Matlock, Materials Science and Engineering A. 441(2006), 1-17
Segal, Materials Science and Engineering: A, 27(1999) 1, 322-333
Science and Technology of Advanced Materials, 5 (2004),153-162 [13] A.
Abdel Halim, Materials Science and Engineering A, 452-453(2007), 15-22 [15] M.I.
Fouad, Materials Science and Technology, 22(2006),1396-1400 [19] C.

Characterization of Novel Perovskite-type La0.6Sr0.2Ca0.2Co1-yFeyO3-δ Cathode Materials Prepared by Solid State Reaction for IT-SOFCs Li chen1, Zhao jie1, 2, a,*, Kong linglong1, Ma Yongchang1, 3 1School of Materials Science & Engineering, Tianjin University of Technology, Tianjin 300384, China; 2Tianjin Key Lab for Photoelectric Materials and Devices, Tianjin 300384, China; 3Key Laboratory of Display Materials and Photoelectric Devices (Tianjin University of Technology), Ministry of Education, Tianjin 300384, China; a vzhaoj @ tjut.edu.cn * Correspondnding author.
Other raw materials were pretreated for 2h at 300℃.
Cui, Materials Science & Technology. 15, 575-578 (2007)
Liu, Materials Science & Technology. 18, 56-60 (2010)
M, Journal of Inorganic Materials. 22, 31-36(2006)