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School of Materials Science and Engineering, Shenyang Institute of Chemical Technology, Shenyang 110141, China 2.
Science and Technology Department, Yunnan Metallurgy Group, Kunming 650016, China 3.
Materials and Metallurgy School, Northeastern University, Shenyang 110006, China a email: caodali2008@126.com , bemail: randd@cvmg.com , cemail: znshi@163.com Keywords: Al-Mg alloy, master alloy, electrolysis, MgO Abstract.
The Pidgen process in China and its future [C], Proceedings of the minerals, metals and materials society meeting 2001, new Louisiana, 2001; 2: 7-10 [8] S.
Electrowinning magnesium from its oxide in a melt containing neodymium chloride [J], Journal of Applied Electrochemistry, 1997, 27: 404-413 [10] S.Y.

The user only needs to input parameters guided by the foreground interface such as square steel section size, lifting point location and material properties, etc..
The basic parameters module contains the geometry and materials characteristic parameter module.
Square steels section size are selected and material properties are inputted in input interface of material properties.
This research is supported by the Science and Technology Plan Project of Shenyang under grant NO.F11-030-2-00 and key project of National "Twelfth Five-Year" Science and Technology Supporting Plan NO. 2011BAJ02B03-3.
[2] Gongfu Peng,Changyou Xi, The method of ANSYS program calls based on VB control development, Journal of Wuhan University (Transportation Science & Engineering).01 (2004) 148-150

Quasi Solid Polyzwitterion- Polyacrylamide Electrolytes for Rechargeable Zinc-Ion Battery Pannarot Kitpimonkul1,a, Amornrat Khampuanbut1,b and Prasit Pattananuwat1,2,c* 1Departments of Materials Science, Faculty of Science, Chulalongkorn University, Bangkok, 10330, Thailand 2Center of Excellence on Advanced Materials for Energy Storage, Chulalongkorn University, Bangkok 10330, Thailand a6570080923@student.chula.ac.th, bamornrat.khampuanbut@gmail.com, cprasit.pat@chula.ac.th Keywords: Qusai solid electrolyte, Polyacrylamide, Polyzwitterion, Zinc-ion battery Abstract.
Hannan et al: submitted to Journal of Energy Storage (2021) [2] Y.
Alshareef: submitted to Materials Science & Engineering, R: Reports (2019) [5] Y.
Jin et al: submitted to Advanced functional materials (2020) [6] X.
Leng et al: submitted to Advanced functional materials (2020)

In order to produce this kind of materials, ceramic fillers such as aluminum nitride, silicon carbide and alumina is used.
That explained why ceramic powder reinforced polymer materials have been used extensively as electronic packaging materials.
Experimental Parts Materials.
Pinnavaia: Science, Vol.220(4) ( 1983), p.365-371
[7] N.M.Sofian, M.Rusu: Journal of Thermoplastic Composite Materials, Vol.14 (2001), p.20-33.

Xiao 1,c 1 College of Mechano-automation, Wuhan University of Science & Technology, 430081, China a jzg100@163.com, bzhanghua403@163.com, cbrightshow@163.com Keywords: Process database, Green manufacturing, Support system Abstract.
Thereinto: ① part information: the intent of part basic information base is to store the basic information of part such as outline dimension, required precision and material etc; ② green material: put the name, category and machining property of various material(include blank material),especially, logging the green material data of good machining property, easy to recovery and little environmental impact; ③equipment inventory: machine base log-in the style, machining accuracy, appearance and weight of machine, furthermore, the noise figure and no-load power of various machine at different rotational speed are logged; Tool base log-in the basic information of brand, material, machining species and tool attrition rate per workpiece; Fluid base log-in the name, parameter, corrosive, virulence, rust protection and applicability; Measuring device base log-in detection tool of difference size and required precision for the workpiece; ④ performance data of resource and environment
The process database support system need a large of process equipments and performance data of resource and environment, involving a lot of data such as machine, tool, fluid, material, resource consumption (include raw material and energy consumption), environmental impact (include waste gas emission, waste fluid emission, waste disposal and noise etc).
Acknowledgement This research reported in the paper is supported by the Research Fund of National Natural Science Foundation (NO.70571060), Doctoral Program of Higher education (NO. 20060488001) and National Science and Technology supporting program (NO.2006BAF02A03), China.
Zhang: Journal of Mechanical Engineering, Vol.35 (1999) No.5, pp.11-15

"Green technology" has become the 21st century hot cross-development research and cutting-edge technology between the fields of energy conservation and environmental protection and other areas of science and technology [2].
Recently, supercritical CO2 extraction technology as a common technology, and gradually penetrate into the textile dyeing, environmental pollution control, new materials and other high-tech fields, is considered a "green, sustainable development technology" has become widely accepted.
Materials and methods Materials.
Dyeing and Finishing, Vol.1 (2009),p.44 [2] Chuanhua Liao,Benyin Chai: Supercritical Fluid and Preparation of New Materials ,edtied by China Petrochemical Press,2007 [3] Ping Bao, Jinjin Dai: J.
Journal of Supercritical Fluids, Vol.30 (2004),p.42 [5] Tachyoung Kim, Gwansoo Kim, Ji-Yong Park: J.

The meshing number is set for 41851, the material of the impeller is structural steel, which material properties shown in Table 3.
So, in here, it can adopt the greater strength stainless steel material as the impeller blade.
Acknowledgements The project is supported by the Science Fund of Jiangxi Province No. 20131512040282.
Advanced Materials Research.
Modeling and Control of Oxygen Transfer in High Purity Oxygen Activated Sludge Process, Journal of Environmental Engineering. 3, (2003), pp402-411.

Introduction In the recent decade a heightened interest is observed to the study of the weak magnetic field influence on the characteristics and properties of various materials.
To clarify the role of Ni in MPE-formation during the ageing process of Cu-Be-alloys out of high-clean certificated materials, special models of triple Cu-Be-alloys with Ni-additives of 0.4 and 1.0 wt
This is of a high practical importance for producing of nano-materials with pre-specified properties.
Natural-science series 78 (2010) 145 (in Russian)
Buchachenko: Journal of experimental and theoretical physics: Vol. 109 (2009) 434

Magnesium alloys are widely used as structural materials.
The heat-resistance of Mg alloy is always focused by material academic circles.
The ingots were cast by steel mould; the raw materials to produce the alloys are magnesium (99.9% mass pct) ingots, aluminum (99.9% mass pct) ingots, Mg-Y master alloy ingots and Mg-Nd master alloy ingots.
International Materials Review, 2004, 49(2): 13-29
Journal of Southeast University: Nature Science, 2005, 35(2): 261-265

(2)Freundlich’s Equation Freundlich’s equation is an empirical rule obtained when Freundlich researched the gas adsorption to porous material, which is applied in liquid and gas.
Acknowledgment The National Natural Science Foundation of China (50921063);The National Natural Science Foundation of China(50904082);Supported by the Key Project of Chinese Ministry of Education (109130);Chongqing Academician Fund（CSTC2010BC6006）; Project No CDJZR10248801 supported by the Fundamental Research Funds for the Central Universities.
Journal of China Coal Society,2010,35(10):1649-1653 [3] Wu Jun.
Journal of China Coal Society, 2000,25(6):614-618 [9] He Xue-qiu.The Effect of Alternative Electromagnetic Field on Adsorption of Gas by Coal[J].
Journal of China Coal Society, 1996,21(1):63-67 [10] Yu Hong-guan,Fan Wei-tang,Sun Mao-yuan.Study on Fitting Models for Methane Isotherms Adsorption of Coals[J].Journal of China Coal Society, 2004,29(4):463-467 [11] Chen Chan-guo,Xian Xiao-hong, Du yun-gui.The Kinetics Model of Adsorption-Desorption of Methane on Coal[J].