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Online since: July 2012
Authors: Luqman Musa, Ismail Khairul Nizar, C.Y. Heah, A.M. Mustafa Al Bakri, Y.M. Liew, H. Kamarudin, Che Mohd Ruzaidi Ghazali, M. Binhussain
Experimental Methods
Materials.
Journal of Material Chemistry, 2003. 13: p. 1161-1165
Australian Journal of Basic and Applied Sciences, 2011. 5(7): p. 1026-1035
Journal of Hazardous Materials, 2007. 143: p. 206 - 213
Journal of Hazardous Materials, 2009. 168: p. 44 - 50.
Journal of Material Chemistry, 2003. 13: p. 1161-1165
Australian Journal of Basic and Applied Sciences, 2011. 5(7): p. 1026-1035
Journal of Hazardous Materials, 2007. 143: p. 206 - 213
Journal of Hazardous Materials, 2009. 168: p. 44 - 50.
Online since: September 2011
Authors: Ji Lin Xu, Jun Ming Luo, De Zhen Yu
Characterization of micro-arc oxidation coatings formed on biomedical Ni-Cr-Mo alloy
Jilin Xu1,2,a, Dezhen Yu3,b and Junming Luo2,c
1Jiangxi Materials Science and Engineering Center, Nanchang Hangkong University, Nanchang China
2School of Materials Science and Engineering, Nanchang Hangkong University, Nanchang China
3Stomatological Medicine Center, Harbin Institute of Technology, Harbin China
axjl505@hit.edu.cn, byudezhen0301@163.com, cluojunming@163.com
Keywords: Ni-Cr-Mo alloy, Micro-arc oxidation, Dental casting alloy, Corrosion resistance.
Fig. 3 Potentiodynamic polarization curves of the coated and uncoated samples Table 2 Corrosion current density and corrosion potential of the samples sample Ecorr (V) icorr (A/cm2) UncoatedNi-Cr-Mo alloy -0.259 2.512×10-7 CoatedNi-Cr-Mo alloy 0.016 1.998×10-7 Acknowledgements This study is supported by the Jiangxi Materials Science and Engineering Center of the Corporate Pre-research Project (ZX201001002), the Natural Science Foundation of Jiangxi Province (2010GZC0165) and the Department of Education Research Project in Jiangxi Province (GJJ09199).
Garhammer: Dental Materials Vol. 18 (2002), p 396 [3] J.D.
Lucas: Journal of Dental Research Vol. 74 (1995), p 1521 [4] S.
Pan: West China Journal of Stomatology Vol. 25 (2007) p 8 (In Chinese) [5] S.
Fig. 3 Potentiodynamic polarization curves of the coated and uncoated samples Table 2 Corrosion current density and corrosion potential of the samples sample Ecorr (V) icorr (A/cm2) UncoatedNi-Cr-Mo alloy -0.259 2.512×10-7 CoatedNi-Cr-Mo alloy 0.016 1.998×10-7 Acknowledgements This study is supported by the Jiangxi Materials Science and Engineering Center of the Corporate Pre-research Project (ZX201001002), the Natural Science Foundation of Jiangxi Province (2010GZC0165) and the Department of Education Research Project in Jiangxi Province (GJJ09199).
Garhammer: Dental Materials Vol. 18 (2002), p 396 [3] J.D.
Lucas: Journal of Dental Research Vol. 74 (1995), p 1521 [4] S.
Pan: West China Journal of Stomatology Vol. 25 (2007) p 8 (In Chinese) [5] S.
Online since: July 2015
Authors: Andrei Berbecaru, Daniela Dragomir, Mihai Cojocaru, Leontin Druga, Zoltán Kolozsváry
Materials and methods
The purpose of the experimental work was to study the influence of the rare earths additions - cerium respectively of the praseodymium-neodymium mixture (with boron) in the solid (paste) carburizing medium - on the carburizing kinetics of the 21NiCrMo2 steel.
Yan, Study on adsorption and transport of carbon in steel during gas carburizing with rare-earth addition, Materials Chemistry and Physics 70 (2001) 242-244 [2] M.F.
Liu, Study on microstructure and microhardness in surface layer of 20CrMnTi steel carburised at 880°C with and without RE, Materials Chemistry and Physics, 72 (2001) 97-100 [4] M.F.
Yuan, Accelerating effect of rare earth in steel on its surface-carburizing process, Journal of Rare Earths, 17 1 (1999) 49-52 [6] Z.X.
Song, Effect of rare earths on the carburization of steel, Materials Science and Engineering A 267 (1999)162-166 [7] G.Li and H.Jin, The influence of additive rare earths on ion carburization, Surface and Coating Technology, 59(1993)117-120 [8] S.Lu, N.Xiao and H.Zhang, Study on Carburizing kinetics of Low-carbon Steel at High-temperature and Short-term, Journal of Rare Earths 25 Suppl.
Yan, Study on adsorption and transport of carbon in steel during gas carburizing with rare-earth addition, Materials Chemistry and Physics 70 (2001) 242-244 [2] M.F.
Liu, Study on microstructure and microhardness in surface layer of 20CrMnTi steel carburised at 880°C with and without RE, Materials Chemistry and Physics, 72 (2001) 97-100 [4] M.F.
Yuan, Accelerating effect of rare earth in steel on its surface-carburizing process, Journal of Rare Earths, 17 1 (1999) 49-52 [6] Z.X.
Song, Effect of rare earths on the carburization of steel, Materials Science and Engineering A 267 (1999)162-166 [7] G.Li and H.Jin, The influence of additive rare earths on ion carburization, Surface and Coating Technology, 59(1993)117-120 [8] S.Lu, N.Xiao and H.Zhang, Study on Carburizing kinetics of Low-carbon Steel at High-temperature and Short-term, Journal of Rare Earths 25 Suppl.
Online since: September 2024
Authors: Raymart I. Bonete, Eduardo M. Magdaluyo Jr., Christianne A. Calma, Emmanuel O. Cruz
A Review of Recent Research on Materials Used in Polymer–Matrix Composites for Body Armor Application.
Journal of Composite Materials 2018, 52, 3241–3263, doi:https://doi.org/10.1177/0021998318764002
Journal of Metals, Materials and Minerals 2023, 33, 120–127, doi:https://doi.org/10.55713/jmmm.v33i2.1698
Journal of Materials Science 2016, 52, 3074–3085, doi:https://doi.org/10.1007/s10853-016-0594-0
IOP Conference Series: Materials Science and Engineering 2019, 563 (4), 042043. https://doi.org/10.1088/1757-899x/563/4/042043
Journal of Composite Materials 2018, 52, 3241–3263, doi:https://doi.org/10.1177/0021998318764002
Journal of Metals, Materials and Minerals 2023, 33, 120–127, doi:https://doi.org/10.55713/jmmm.v33i2.1698
Journal of Materials Science 2016, 52, 3074–3085, doi:https://doi.org/10.1007/s10853-016-0594-0
IOP Conference Series: Materials Science and Engineering 2019, 563 (4), 042043. https://doi.org/10.1088/1757-899x/563/4/042043
Online since: May 2013
Authors: Richard Urama, Okoye Celestine N., Onwukwe Evans Chukwudi
A punch press is specifically designed for the making of various shaped holes and cut-outs on sheet metal and plate materials.
Hartl., “Tube hydroforming research and practical application”, Journal of materials processing Technology, Vol. 71, 1997, pp.174-186
Altan, “An overall review of the tube hydroforming (THF) technology”, Journal of materials processing Technology, Vol. 108, 2001, pp.384-393
Wang., “Research on square lightweight component by hydroforming process”, Journal of materials Science and Technology, Vol. 17, 2001 pp. 158
[9] Kang Dachang etal, “Hydrodynamic deep Drawing Process”, Journal of Materials Processing Technology, Vol. 101 (1-3) 2000, pp. 21-24
Hartl., “Tube hydroforming research and practical application”, Journal of materials processing Technology, Vol. 71, 1997, pp.174-186
Altan, “An overall review of the tube hydroforming (THF) technology”, Journal of materials processing Technology, Vol. 108, 2001, pp.384-393
Wang., “Research on square lightweight component by hydroforming process”, Journal of materials Science and Technology, Vol. 17, 2001 pp. 158
[9] Kang Dachang etal, “Hydrodynamic deep Drawing Process”, Journal of Materials Processing Technology, Vol. 101 (1-3) 2000, pp. 21-24
Online since: December 2012
Authors: Ismail Hanafi, Hakim Ibrahim Lokman, N.Z. Noimam, Sam Sung Ting
EXPERIMENTAL
Materials
LLDPE (ETILINAS LL0209SA) was supplied by Polyethylene Malaysia Sdn.
Journal of Applied Polymer Science, 100(4), 2717-2724 (2006)
Journal of Applied Polymer Science, 113(5), 2826-2832 (2009)
Journal of Applied Polymer Science, 103(6), 3758-3765 (2007)
Journal of Polymer Engineering, 9(1), 67-84 (1990)
Journal of Applied Polymer Science, 100(4), 2717-2724 (2006)
Journal of Applied Polymer Science, 113(5), 2826-2832 (2009)
Journal of Applied Polymer Science, 103(6), 3758-3765 (2007)
Journal of Polymer Engineering, 9(1), 67-84 (1990)
Online since: January 2013
Authors: Ji Jun Zhang, Lin Jun Wang, Xiao Yan Liang, Tao Zhang, Jia Qi Teng, Jia Hua Min, Xiao Xiang Sun
Furthermore, the purification by solution extraction reduces the impurities from the source materials.
The source materials of Cd, Zn and Te with 7N purity, which weighed by a mole ratio: Cd:Zn:Te=4:1:10, were charged into a 25 mm diameter quartz crucible with a conical tip of 60°.
Fig.1 The temperature gradient solution growth system According to the Cd-Te phase diagram [10], the compounded materials of present mole ratio begin to crystallize at about 1223K.
Vol. 307(2007), p. 283-288 [9] Wang Dong, Min Jiahua, Liang Xiaoyan, et al.: Journal of Functional Materials.
Soc.: Solid State Science.
The source materials of Cd, Zn and Te with 7N purity, which weighed by a mole ratio: Cd:Zn:Te=4:1:10, were charged into a 25 mm diameter quartz crucible with a conical tip of 60°.
Fig.1 The temperature gradient solution growth system According to the Cd-Te phase diagram [10], the compounded materials of present mole ratio begin to crystallize at about 1223K.
Vol. 307(2007), p. 283-288 [9] Wang Dong, Min Jiahua, Liang Xiaoyan, et al.: Journal of Functional Materials.
Soc.: Solid State Science.
Online since: May 2013
Authors: Bilal Ghazanfar, Mokhtar Awang, Sajjad Raza Khan, Hasan Fawad
Progress in Materials Science, 2008. 53(6): p. 980-1023
Journal of Materials Engineering and Performance, 2010. 19(8): p. 1071-1089
Materials Science and Engineering: R: Reports, 2005. 50(1–2): p. 1-78
Journal of Materials Processing Technology, 2007. 183(1): p. 62-70
Journal of Materials Processing Technology, 2008. 200(1–3): p. 163-175.
Journal of Materials Engineering and Performance, 2010. 19(8): p. 1071-1089
Materials Science and Engineering: R: Reports, 2005. 50(1–2): p. 1-78
Journal of Materials Processing Technology, 2007. 183(1): p. 62-70
Journal of Materials Processing Technology, 2008. 200(1–3): p. 163-175.
Online since: February 2007
Authors: Jian Dong Ye, Ying Jun Wang, Cheng Yun Ning, Gang Wu, Na Ru Zhao, Kun Wei, Xiao Feng Chen, Li Ren, Hua Guo Liu
Buckberry: Advanced Materials Vol. 11 (1999), p.318
Gladius: Bio-medical Materials and Engineering Vol.10(2000), p.157
Boskey: Journal of Biomedical Materials Research 54(2001), p.480
Decker: Journal of Biomedical Materials Research Vol. 39(1998), p.234
Lausmaa: Journal of Biomedical Materials Research Vol. 30 (1996), p.251
Gladius: Bio-medical Materials and Engineering Vol.10(2000), p.157
Boskey: Journal of Biomedical Materials Research 54(2001), p.480
Decker: Journal of Biomedical Materials Research Vol. 39(1998), p.234
Lausmaa: Journal of Biomedical Materials Research Vol. 30 (1996), p.251
Online since: June 2013
Authors: Ignaas Verpoest, Marcin Barburski, Filip Lanckmans, Stepan Lomov, Frank de Ridder
Draping simulation methods, well developed for garment design and forming of composite materials [3] can be used for design and optimisation of the fabric itself (yarn structure, knitting parameters…) and the tensions during mounting – providing that the deformation resistance laws of the material are known.
Materials A knitted fabric used in this study is made by weft knitting on a circular knitting machine.
Journal of the Textile Institute 37: T285-T292
Journal of Reinforced Plastics and Composites, (2000). 19(16): p. 1329-1350
Proceedings of the 15th European Conference on Composite Materials (ECCM), 24-28 Juni 2012, Venice, Italy
Materials A knitted fabric used in this study is made by weft knitting on a circular knitting machine.
Journal of the Textile Institute 37: T285-T292
Journal of Reinforced Plastics and Composites, (2000). 19(16): p. 1329-1350
Proceedings of the 15th European Conference on Composite Materials (ECCM), 24-28 Juni 2012, Venice, Italy