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Today, Use of the natural reducer in the green synthesis of metallic nanoparticles has gained more attention due to the development of eco-friendly technologies in materials science that emphasised in environment-friendly chemicals, solvents and renewable materials.
Ruiz, Synthesis of Silver Nanoparticles Using Albumin as a Reducing Agent, Materials Sciences and Applications. 2 (2011) 578-581
JOHN, Silver-nanoparticle-embedded antimicrobial paints based on vegetable oil, nature materials. 7 (2008) 236-241
Su, Evaluation of antioxidant activities of five selected brown seaweeds from China, Journal of Medicinal Plants Research. 4 (2010) 2557-2565
Merr.), International Journal of Biological, Veterinary, Agricultural and Food Engineering. 8 (2014) 470-472

Journal of Power Sources, 2007, (174):1113–1116
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Experimental Program Materials.
Materials Design, 90, 767–776
Arabian Journal for Science and Engineering, 45, 3623–3634
Materials and Structures, 51, 144
Applied Sciences, 8, 2507

Huh 3, c 1 Centre for Advanced Materials Technology, School of Aerospace, Mechanical and Mechatronic Engineering, University of Sydney, NSW 2006, Australia 2 School of Civil & Environmental Engineering, University of New South Wales, NSW 2052, Australia 3 Dept. of Mechanical Eng., Korea Advanced Institute of Science and Technology, Science Town, Daejeon 305-701, Korea a Chunhui.Yang@aeromech.usyd.edu.au, bsarahyxzhang@unsw.edu.au, chhuh@kaist.ac.kr Keywords: Bi-material crack, Plane elasticity, Hybrid finite element method, Stress intensity factors.
Considering the different shear modulus ratio 12µ µ between two materials, the normalized mixed mode SIFs are given in Table 2.
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After the diameter-reducing, the needed thread steel through Y-type rolling mill are rolled out of the wire materials.
Experimental Methods and Materials Analysis Microstructure.
Acknowledgement Fund Project: Province Natural Science Research Projects Of Colleges and Universities in Jiangsu(No: 08KJB460006); Jiangsu “Provinceblue Project” Funding(No: 08QLD002);Science and Technology Projects in Xuzhou(No: XJ09079).
Zhang: Journal of Northeastern University（Natural Science Edition）Vol. 24 (2003) No.3, pp. 265-271 [3] J.Z.
Yu: Journal of Taiyuan Heavy Mechanical College, Vol. 19(1998) No.4, pp. 334-337

Another approach is the subsequent local heat treatment of workpieces made of homogeneous materials.
Another way is the manufacturing of gradient materials by thermo-mechanical forming processes.
Was, The relationship between hardness and yield stress in irradiated austenitic and ferritic steels, Journal of Nuclear Materials. 336 (2005) 2-3, 267-278 [12] D.
M´Saoubi, Hardness-based flow stress for numerical simulation of hard machining AISI H13 tool steel, Journal of Materials Processing Technology. 199 (2008) 1, 64-73 [13] D.
Shivpuri, Hardness-based flow stress and fracture models for numerical simulation of hard machining AISI 52100 bearing steel, Materials Science and Engineering A. 374 (2004) 1-2, 90-100

Optical differentiation method of materials based on the modeling of scattering characteristics Shixue Xu1, a, Lingfei Xu2,b, Yanru Chen3,c 1,2,3Department of Optical Engineering, Nanjing University of Science and Technology, Nanjing, P.R.China 210094 aete_corner@yahoo.com.cn, bjsj900@hotmail.com, cyrchen2002@yahoo.com.cn Keywords: Scattering, material differentiation, modeling Abstract.
We also try to modeling the characteristics of materials scattered light in order to recognize or distinguish given materials in detection.
The reflectivity of materials determines the intensity of scattered light.
Our research indicates that the optical differentiation of materials method will have more feasibility if we take more information from the scattered light of materials’ surfaces.
James, “Change of polarization of light beams on propagation in free space,” Journal of Optical Society of America A, 11, 1641-1643 (1994)

Study on Figuration Techniques of Grades Extrusion for Making Metal Rubber Material Jianchun YANG 1, 2, a, Guoquan LIU 1, b, Hongbai BAI 2, c, Youyan WANG 2.d 1 School of Material Science and Engineering, University of Science and Technology Beijing, Beijing 100083, China 2 First Department of Ordnances Engineering College, Shijiazhuang 050003, China a yjc675266@163.com, b g.liu@ustb.edu.cn, c bhbk12@sina.com, d wangyy0632@163.com Key words: Metal rubber material; Figuration Techniques; Grades Extrusion; mechanics property Abstract.
Introduction The metal rubber material(abbr.
Beijing.2000), In Chinese [2] Xieqing TieshanZHANG, JunhuaZHANG: Mechanicl Science and Technology.
Vol. 19-6(2000), p.977, In Chinese [3] YuyanLI, Xieqingn HUNG: Journal of Aeronautical Materials Vol.28 -2(2008), p.70, In Chinese [4] JianminWANG, TingguoPEI: Journal of Astronautic.
In Chinese [5] ZHANG Rui-hua, JIANG Hong-yuan, ZHAO Ke-ding: Journal of Harbin Institute of Tehnology, Vol.13-2 (2006): p146

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Indian Journal of Science and Technology 9 (2016) 1-7
Yamagata, The science and technology of materials in automotive engines, Elsevier, 2005
Journal of Materials and Environmental Science 6 (2015) 1369-1376
Materials Science and Engineering: A 764 (2019)
Materials Science Forum, September (2015) 485-488. https://doi.org/10.4028/www.scientific.net/msf.830-831.485 [27] O.S.I.