Search results

The progress in investigations concerns in particular a group of materials being a base material for formation of human joint prostheses and dental implants.
Such materials are required to have certain properties related to their safety within human body.
In order to prepare test materials for the present work, a method of powder metallurgy was employed, through which porous materials with favourable biofunctionality properties were obtained.
Consolidation and mechanical properties of nanostructured hydroxyapatite bioceramics by high frequency induction heat sintering, Materials Science and Engineering, (2007), 456: 368-372
Bioceramic coating of hydroxyapatite on titanium substrate with Nd-YAG laser, Materials Science and Engineering C, (2005), 5: 541-547

Materials and Research Methods Metals with high cold resistance, which are often used for the manufacture of various mechanisms and structures operating at low temperatures, were selected as materials for the study.
These materials include steels 08Mn2Si and 07Cr25Ni13 [17].
This algorithm has been tested on various construction materials.
Sleptsov, Materials for Low and Cryogenic Temperatures: Encyclopedic Reference, Khimizdat, St.
Series: Materials Science and Engineering. 709 (2020) 033076

The nanoparticles were synthesized using tetraethylorthosilicate as starting material and ethanol as solvent by sol-gel method under basic medium.
Materials and methods Materials.
Zhao, Nnaoporous Materials, in: Science and Engineering: An overview.
Srinivasa, Nanoparticle-crosslinked hydrogels as class of efficient materials for separation and ion exchange.
Dove Press Journal: Nano Sci App. 3 (2010) 65-76

Enhancement of corrosion resistance of PEO coating on AZ91 biomedical magnesium alloy by surface laser treating Miao Wang1,2* Yunlong Wang1, Zhongde Liu3, Hua Ding4 1Institute of advance materials, School of Materials Science and Engineering, Jiangsu University, Zhenjiang, 212013,China 2Center for photon Manufacturing Science and Technology School of Materials Science and Engineering, Jiangsu University, Zhenjiang, 212013,China 3School of Materials Science and Engineering, Jiangsu University, Zhenjiang, 212013,China 4School of Mechanical Engineering, Jiangsu University, Zhenjiang, 212013,China aWangyunlonghit@yahoo.com.cn(corresponding author), bWangmiao@ujs.edu.cn, cLiuzhongde@ujs.edu.c, dDinghua@ujs.edu.cn Keywords: Surface morphologies, PEO coating, corrosion resistance, surface laser treating, biomedical magnesium alloy Abstract.
Acknowledgements This work was supported by A Project Funded by the Priority Academic Program Development of Jiangsu Higher Education Institutions, the Natural science fund for colleges and universities in Jiangsu Province (11KJB430003, 12KJB430005), the Open Fund of Jiangsu Provincial Key Laboratory of Tribology (KJSMCX2011006), the Foundation for Advanced Talents of Jiangsu University (10JDG125, 11JDG102).
References [1] Li, Nan ; Zheng, Yufeng Novel Magnesium Alloys Developed for Biomedical Application: A Review,Journal of Materials Science & Technology, http://dx.doi.org/10.1016/j.jmst.2013.02.005 [2] Biomedical coatings on magnesium alloys – A review,Acta Biomaterialia, 7, (2012)2442-2455 [3] Xin, Yunchang ; Liu, Chenglong ; Huo, Kaifu ; Tang, Guoyi ; Tian, Xiubo ; Chu, Paul K.Corrosion behavior of ZrN/Zr coated biomedical AZ91 magnesium alloy Surface and Coatings Technology, 17-18(2007)2554-2557 [4] Chu, C.L. ; Han, X. ; Bai, J. ; Xue, F. ; Chu, P.K, Fabrication and degradation behavior of micro-arc oxidized biomedical magnesium alloy wires, Surface and Coatings Technology, 213 (2012) 307-312 [5] Yang, Jingxin ; Cui, Fu-zhai; Lee, In Seop. ; Wang, Xiumei,Plasma surface modification of magnesium alloy for biomedical application,Surface and Coatings Technology, 205(2010) S182-S187 [6] Gu, Yanhong ; Bandopadhyay, Sukumar ; Chen, Cheng-fu ; Ning, Chengyun ; Guo, Yuanjun,Long-term corrosion
inhibition mechanism of microarc oxidation coated AZ31 Mg alloys for biomedical applications,Materials & Design, 46(2013)66-75 [7] Zhao, Lichen; Cui, Chunxiang ; Wang, Qingzhou ; Bu, Shaojing,Growth characteristics and corrosion resistance of micro-arc oxidation coating on pure magnesium for biomedical applications,Corrosion Science, 52(2010)2228-2234 [8] Wang, Yun Long ; Wang, Miao ; Jiang, Zhao Hua,Microstructure and Corrosion Resistance of Al2O3-ZrO2 Composite Coating on Biomedica Magnesium Alloy Fabricated by Cathodic Plasma Electrolytic Oxidation, Applied Mechanics and Materials 184-185(2012)1068-1071

Journal of Functional Materials, vol38, (2007), p809
Journal of Gansu Agricultural Science and Technology, vol12, (1997), p31
Journal of Scientia Silvae Sinicae, vol38, 5(2002), p18
Journal of Forest Research, Vol. 18, 6, (2005), p755
Journal of materials engineering, 7, (2008), p25.

Materials Science and Engineering A 488(2008) 601 [6] M.
Materials Science and Engineering A 298(2001) 193 [8] S.
Materials Science and Engineering A 528(2011) 1707 [10] Y.
Materials Science and Engineering A 147(1991) [14] K.
Materials Science and Engineering A 527(2010) 1630 [15] K.K.

References [1] Brinksmeier E, Brockhoff T: Häerterei-Technische Mitteilungen Vol. 49 (1994), p. 327-330 [2] Brockhoff T: Annals of the CIRP Vol. 48, (1999), p. 255-260 [3] Brinksmeier E, Brockhoff T: Annals of the CIRP Vol. 45, (1996), p. 283-286 [4] Zarudi I, Zhang L C: Journal of Materials Science Vol. 37, (2002), p. 3935-3943 [5] J.D.
Wang: Materials Science Forum Vol. 505-507, (2006), p. 787-792 [6] G.C.
Pei: Key Engineering Materials Vol. 304-305, (2006), p. 588-592 [7] J.D.
Li: Materials Science Forum Vol. 532-533, (2006), p. 584-587 [8] B.
Ding: Key Engineering Materials Vol. 315-316, (2006), p. 15-19 [9] Nguyen T, Zarudi I, Zhang L C: International Journal of Machine Tools & Manufacture Vol. 47, (2007), p. 97-106 [10] J.D.

Piezoelectric Potential Distribution in a Bent ZnO Nanorod Cantilever Zhengzheng Shaoa, Xueao Zhangb, Fei Wangc, Guang Wangd, Honghui Jiae, Shengli Changf Hailiang Zhangg and Liang Fangh Center of Materials Science, College of Science, National University of Defense Technology, Changsha, 410073, China a zzshao@ nudt.edu.cn, b xazhang@nudt.edu.cn, c wangfei_815@163.com, dwangguang@nudt.edu.cn, e hhjia@nudt.edu.cn, f slchang@nudt.edu.cn, g hlzhang@nudt.edu.cn, hlfang@nudt.edu.cn Keywords: ZnO nanorod, piezoelectric potential, free charge carriers, equilibrium potential, piezoelectric nanogenerator.
For bulk ZnO material, we have Young’s modulus GPa, Poisson ratio, relative dielectric constant , piezoelectric deformation constant ( C/N) , , [10].
References [1] Zhong Lin Wang: Advanced Materials Vol. 19(2007), p. 889-892 [2] Zhong Lin Wang: 2007 Materials Today Vol. 10(2007), p. 20-28 [3] Pu Xian Gao, Jin Hui Song, Jin Liu et al.: Advanced Materials Vol. 19(2007), p. 67-72 [4] Marin Alexe, Stephan Senz, Markus Andreas Schubert, et al.: Advanced Materials Vol. 20(2008), p. 1-6 [5] Zhong Lin Wang: Advanced Materials Vol. 20(2008), p. 7-12 [6] Zhong Lin Wang, Jin Hui Song: Science Vol. 312(2006), p. 242-246 [7] Z.
Wu et al.: Journal of Physics D: Applied Physics Vol. 43(2010), p. 245403 [8] David K.
Cheng: Field and Wave Electromagnetics (Reading: Addison-Wesley) 1989 [9] Zhengzheng Shao, Liaoyong Wen, Dongmin Wu et al.: Journal Of Applied Physics Vol. 108(2010), p. 124312 [10] I.

After conference, all papers submitted to ICPMMT 2017 and 2018 were recommended to MATEC Web of Conferences, Open-access Journal in Materials science, Engineering and Chemistry (Google Scholar, CAS, EI Compendex, Inspec, DOAJ, Web of Science, Scopus).
All papers through the peer reviewing process can be published Key Engineering Materials and IOP: Materials Science Engineering with EI Compendex.
Green Manufacturing and Materials Application Light∙Eco-friendly Material & Structure, Natural, Bio-inspired, Light-weight, Flexible, Powder, Multifunctional, Metals, Ceramics, Polymers, Composites, FGM, Graphene, Smart Material & Structure, Photonic, Display 4.
They are very famous in innovation materials, manufactures and metal microforming research field, and once again to thank them for strong supports to ICPMMT 2020.
Gow-Yi Tzou (Chung-Chou University of Science and Technology, Taiwan) · Prof.

Aging behavior of Cu-Cr-Zr-Y alloy LIU Yong1,a, WANG Dejun2,b and TIAN Baohong1,c 1School of Materials Science and Engineering, Henan University of Science and Technology, Luoyang 471003, China 2College of Mechanical and Electric Engineering, Hebi Vocation and Technology College, Hebi 458030, China aliuyong@mail.haust.edu.cn, bwangdejun63@163.com, ctianbh@mail.haust.edu.cn Keywords: Cu-Cr-Zr-Y alloy, cold working, aging, high strength and high conductivity, mechanical properties.
Copper and copper alloy both have many good characteristics and have been widely used in many areas, like copper alloy lead frame materials for integrated circuits [4-6], high strength and magnetic conductor materials, heat exchange composite materials and chemical resistance parts used by the power companies in the coastal area [7], overhead power cable used by tramcar and streetcars [8-10].
[2] Chongqi Huang: Railway Science in China Vol. 1 (2001), p. 1-5.
Kulkarni, et al: Journal of Nuclear materials Vol. 99 (2001), p. 91-100
[9] Rishi P Singh, Alan Lawley, Sam Friedman: Materials Science and Technology A Vol. 145 (1991), p. 243-255