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Kollman: Journal of Mechanical Design Vol. 103 (1981), p. 61 [2] S.Sen and B.Aksakal: Materials and Design Vol. 25 (2004), p. 407-417 [3] D.
Patent 5,697,848. (1997) [7] Pierre-Daniel Pfister and Yves Perriard, in: Proc. 8th ICEMS, 3054-3059, Wuhan, China (2008) [8] Guoping Wang, Hualing Chen, Shemiao Qi et al, in: 3rd International Conference on Machinery, Materials Science and Engineering Applications, Wuhan, China (2013) [9] Peng Shang, Ying Zhan, Sheng Feng et al, Advanced Materials Research Vol. 744 (2013), p. 180-184 [10] In Chinese: Qi Teng, Zhongxia Xiang.
Journal of Machine Design Vol. 20, 2 (2003), p. 42-43 [12] Dincer Bozkaya, Sinan Müftü.
Journal of Biomechanics Vol. 36 (2003), p. 1649-1658 [13] Dincer Bozkaya, Sinan Müftü.
Journal of Mechanical Strength Vol. 33 (2011), p. 86-92

Simulation Material model.
Journal of Zhejiang University(Engineering Science). 2008,42:259-263(in chinese) [4] Ha H.
Journal of Terramechanics. 2007,44 :339–346 [5] Aderibigbe O O, Rajaratnam N.
Journal of Hydraulic Research, 1996,34(1):19–33 [6] Gordon R.
Journal of Computational Physics. 2003,191: 448–475

As acidizing technique being an integrated course which combines science, practice and experience in one, it cannot be explained by mathematical technique precisely.
Building model of expert system for acidizing needs to analyze influence factors of acidizing fluids selection, then find out key factors which can be taken as inputs for the expert system [9,10]. 1.1.1 The Main Rules of Selecting Inputs 1) Make sure the factor which catch a great influence on inputs and can be checked or extracted with ease. 2) Factors have weak correlation or no correlation with each other. 1.1.2 The Main Influence Factors Considering the rule of selecting inputs and cooperating with three kinds of acidizing fluids choosing standards which base on character of rock and mineral, laboratory tests and field cases, the data used to develop the model for expert system are collected as follows. 1) Rock typing (RT) 2) Reservoir Temperature (TR) 3) Clay content (CT) 4) Feldspar content (FC) 5) Chlorite content (CC) 6) Silt content (SC) 7) HCl soluble material content (HClS) 8) Degree of fracture development (DF) 9) Reservoir permeability (RP) 10) Well type
Acknowledgment This paper is supported by The Important Project of "Science and Technology in Developing Great Oil&Gas Field and Coal Bed Gas"(2011ZX05030-005-08) and Demonstration Project (2011ZX05044).
References [1] Information on http://www.hendrickson-intl.com [2] Information on http://www.arco.com [3] Yan Jing: Design Study on Expert System of Sandstone Reservoir Acidification, volume 12 of journal of chongqing university of science and technology(natural sciences edition), chapter, 10, journal of chongqing university pablishers (2010) [4] A.S.

So far, people have found that about 50% of the inorganic solid materials and about 1/3 to 1/4 organic materials have this feature, including semiconductor, conductor and insulator.
Raw materials of CaCO3 (99.99%), Al2O3 (99.99%), SiO2 (99.99%), Eu2O3 (99.99%), Dy2O3 (99.90%) were mixed thoroughly and pre-calcination at 900°C for 3h in air, then remixed.
Yamada, et al: Advanced Materials.
Xiong: Journal of Materials Science.
Won, et al:Optical Materials.Vol. 28 (2006), p. 974 [23] M.

Research Scheme Design of Copper-based Chalcogenide Crystal Thin Film Materials for Solar Cells KEGAO Liu1,a,*, LUDAN Shi1,b, DONG Xiang1,c 1School of Materials Science and Engineering, Shandong Jianzhu University, Fengming Road, Jinan 250101,China aliukg163@163.com, bshiludan2337927@126.com, cxiangd1015@163.com *Corresponding author Keywords: Chalcogenide, thin film, solar cell, preparation methods, Cu(In,Ga)Se2 Abstract.
So thin film solar cells have been developed due to the low cost of materials.
Qin: Renewable Energy of Chinese journal, 3 (2006), p. 9 [6] M.A.
Kauk: Solar Energy Materials & Solar Cells 87 (2005), p. 25 [8] N.H.
Habib: Solar Energy Materials and Solar Cells, 55(1998), p. 341

Values of emissivity coefficients the tested materials To improve the efficiency of measurement was used sanding operation of batch sheets.
For the tested materials after heating the emissivity increases nearly doubled relatively to the material before heating. 3.
Coefficient of emissivity depends on the method of surface preparation and does not depend on the species of the tested materials. 4.
Kawai, A review of the mechanics of metal spinning, Journal of Materials Processing Technology 210 (2010) 3–23
Hwangb, An approach to triangular induction heating in final precision forming of thick steel plates, Journal of Materials Processing Technology 214 (2014) 1008–1017

Magnesium hydroxide is of increasing interest as an environmentally friendly flame retardant which is widely used in many polymers, electric cables, building and decoration materials, as well as a precursor for the preparation of magnesium oxide [3].
Materials and measurements Bischofite (MgCl2·6H2O) of 98% purity came from salt lake of Chaerhan, Qinghai.
This work was supported to Tianjin Natural Science Foundation project (10JCYBJC05700).
Res.VOL.40(2001),p. 4998 [3] Chenglin Yan, Dongfeng Xue and Longjiang Zou: Preparation of magnesium hydroxide nanoflowers: Journal of Crystal Growth VOL. 282(2005), p. 448 [4] Jianping Lv, Longzhen Qiu and Baojun Qu: Controlled growth of three morphological structures of magnesium hydroxide nanoparticles by wet precipitation method: Journal of Crystal Growth VOL. 267(2004), p. 676 [5] Clifford Y Tai , Chia-Te Tai and Ming-Hui Chang: Synthesis of Magnesium Hydroxide and Oxide Nanoparticles Using a Spinning Disk Reactor: Industrial & Engineering Chemistry Research , VOL.46(2007), p. 5536 [6] Wu Jianming, Yan Hong and Zhang Xuehu: Magnesium hydroxide nanoparticles synthesized in water-in-oil microemulsions: Journal of Colloid and Interface Science VOL. 324(2008), p. 167 [7] Luo Wei, Feng Qiming and Ou Leming: Surface modification of magnesium hydroxide by γ-aminopropyltriethoxysilane: J．Cent．South Univ.
Techno1 VOL. 15(2008), p. 318 [8] Zhang Fanzhi, Hong Zhang and Su Zhixing: Surface treatment of magnesium hydroxide to improve its dispersion in organic phase by the ultrasonic technique: Applied Surface Science VOL. 253(2007), p. 7393 [9] G.I.

Thirdly, this problem could be included in computer science, production background, management science, etc.
This problem involves in large number of manufacturing resources such as materials, machine, workers, jobs and so on.
Management science, 1988: p. 391-401
Advanced Materials Research, 2012. 542: p. 407-410
Journal of Intelligent Manufacturing, 2012: p. 1-12

The journal Technovation.
Coates, (2007) “Managing competencies in breakthrough product development: A comparative study of two material processing projects,” IEEE Trans.
[38] Kassahun, Asmare Emerie; Molla, Alemayehu; (2013) "BPR complementary competence: definition, model and measurement", Business Process Management Journal, Vol. 19 Iss: 3, pp. 575 – 596 [39] Khamba, JS; Singh, CD and Singh H (2013), “Exploring Manufacturing Competencies of Car Manufacturing Unit”, International Conference on Advancements and Futuristic Trends in Mechanical and Materials Engineering, (October 3-6, 2013), pp: 88-97
Series: Materials Science and Engineering, 65 (2014), pp: 1-9
Omega: International Journal of Management Science.Vol.34, pp. 150-160

Compared with other drying process, microwave heating is considered as a speed-increasing, time-saving, environment-friendly and suitable for drying many raw materials.
Materials and Methods Preparation of semi-drying fermented sausages The meats were bought from a local supermarket (Lotus, Xuzhou, China) and maintained frozen (-18℃).
Meat science, 50(1):37-44. (1998) [4] Wei L.J., Guo H., Che F.R.
Journal of the Science of Food and Agriculture, 71(1), 13-21. (1996) [6] Zapelena, M.
Journal of food engineering, 104(1),114-122. (2011) [10] Hu, Q.