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Recovery of precious metal material Ni from nickel containing wastewater using electrolysis Ruijie Jina, Changsheng Peng b,* , Ahmed Abou-Shadyc and Kedong Zhangd The Key Lab of Marine Environmental Science and Ecology, Ministry of Education, Ocean University of China, Qingdao, 266100, China aruijiejin@126.com, bcspeng@ouc.edu.cn, cshady_desert@yahoo.com, dmail4dong@gmail.com * Corresponding author.
Vidhyadevi and S.Sivanesan: Chemical Engineering Journal, Vol.167 (2011), p.122-131
[5] K.Dermentzis: Journal of Hazardous Materials, Vol.173 (2010), p.647-652
Abou-Shady: Journal of Hazardous Materials, Vol.189 (2011) , p.814-820
Palanivelu: E-Journal of Chemistry, Vol.7（2010）, p.1412-1420

AIAA Journal 2003;41(5):933-940
Journal of Composite Materials 2013; DOI:10.1177/0021998313502741 [4] A.
Journal of Composite Materials 2013; DOI:10.1177/0021998313502742
Composite Science and Technology 2011;71(6):836-846
Progressive damage modeling in fiber-reinforced materials.

Investigation of Y1-xCaxBaCo2O5+δ cathodes for intermediate-temperature solid oxide fuel cells Wujie Ge1,a, Qun Shao2,b , Yanzhi Ding*,3,c and Xiaoyong Lu3,d 1Institute of Chemical Engineering, Anhui University of Science and Technology; Anhui Key Laboratory of Low Temperature Co-fired Materials;Huainan, Anhui, 232001, China 2Institute of Chemical Engineering, Anhui University of Science and Technology, Huainan, Anhui, 232001, China 3Anhui Key Laboratory of Low Temperature Co-fired Materials; Department of Chemistry and Chemical Engineering, Huainan Normal University,Huainan, 232001, Anhui, China agegwj239@163.com, b729694881@qq.com, c * zghndyz@163.com Corresponding author: Yanzhi Ding.
The YCBC materials exhibit chemical compatibility with SDC electrolyte up to a temperature of 1100℃.
Also, due to changes of oxygen stoichiometry (so called chemical expansion), these materials possess high thermal expansion, which causes large mismatch of thermal expansion coefficients (TECs) with typical electrolyte materials.
Conclusions The double perovskite YCBC (x = 0.1-0.5) were investigated as potential cathode materials of IT-SOFCs.
Journal of Materials Chemistry, 2007, 17:2500-2505

Sabioni: Materials Science and Engineering Vol. .447 (2007), p. 266. ].
Ivey:Journal of Power Sources Vol. 138 (2004), p. 162. ], such as those composed of reactive-element materials [[] S.M.C.
Ramanathan: Materials Research Vol. 7 (2004), p. 135. ], perovskites [[] J.W.
Fergus: Materials Science and Engineering Vol. 397 (2005), p. 271. ] or spinel-type oxides [[] W.
Materials and Methods Substrate Preparation.

Study on Stress-strain Model of Metallic Materials with Shot Peening Residual Stress Tie Shan Zhang1,a,Jing Hu1,b,Jin Shui Wu2,c 1School of mechanical eng. , Nanjing Univ. of Science and Technology ,Nanjing 210094,China 2 China And Canton Clutch Co.
Study on Stress-strain model of metallic materials with residual stress.
Therefore, this thickness range of materials can be described with a model.
Then, The materials in different regions use different materials models.
Jiao: Journal Mechanical Strength, Vol. 24 (2002) No.2,p289.

As long as there are differences in basic properties of materials, different materials could be marked.
The product data structure visually displays all materials, including all materials and the materials consumed during the manufacturing process that comprises the final product, clearly describing the recursive relationship between the materials and the relation between the manufacturing processes.
Materials have the complete digital description.
Chen: Journal of Computer-Aided Design & Computer Graphics, Vol. 38 (2006) No.3, pp.464-469.
Journal of Qiqihar University(Natural Science Edition), Vol.28 (2007), No.3, pp53-57.

Journal of Hazardous Materials, 166 (2-3) (2009) 916-924
Chew, A review of fire processes modeling of combustible materials under external heat flux.
Materials Science Forum, 1038 (2021) 500–505
Problems of Atomic Science and Technology, 116 (4) (2018) 194–199
Problems of Atomic Science and Technology, 122 (4) (2019) 116–119.

Keywords: fly ash, glass powder, architecture materials Abstract.
Experiments Materials.
The sample Y5 and E1 with compact structure, high micro-hardness satisfied the requirements of building materials and structural materials.
Moreover, the phases of the sample Y5 and E1 were similar to those of the natural stone used as decorative materials.
Journal of Jilin Institute of Architecture & Civil Engineering, 2009, 26(5): 15-17

Introduction The characterization of materials is having an increasing attention due to manufacturing of new materials and computational analysis software.
Traditionally, to characterize the mechanical properties of the materials, standard uniaxial tests are used, however different materials may have similar properties.
This presented methodology has been validated for materials with anisotropic behaviour [3] and extrapolated for hyperelastic materials with isotropic behaviour using the Neo-Hookean model.
Progress in Natural Science, 19(4):501-509, 2009
European journal of operational research, 93(3):490-510, 1996

While grinding hard and brittle materials the structure quality and accuracy depends on the material removal mechanism.
Li, Investigation of grinding modes in horizontal surface grinding of optical glass BK7, Journal of Materials Processing Technology 211 (2011) 1629–1636
Scattergood, Ductile-Regime Grinding: A New Technology for Machining Brittle Materials, J.
Evans, A model for crack initiation in elastic/plastic indentation fields, Journal of Materials Science 12 (1977) 2195–2199
Bifano, Ductile-regime grinding of brittle materials, Dissertation, 1988