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Online since: March 2016
Authors: M.R. Sahar, S.F. Abd Rahman
Sahar1,b
1Advanced Optical Material Research Group, Department of Physics, Faculty of Science
Universiti Teknologi Malaysia, 81310 Skudai, Johor.
Glass-ceramics are the micro or nanocrystalline materials produced via controlled crystallization of glasses [1-2].
However, the band gap of the semiconducting materials are corresponding with vary of several parameter such as the phase transition, the density of the impurities, shape, size and surface of the material [10].
Wang, Structural and optical properties of electrospun TiO2 nanofibres, Chemistry of Materials, 19 (2007) 6536-6542
International Journal of Chemical Sciences, 10:1 (2012) 479-489 [14] B.J.
Glass-ceramics are the micro or nanocrystalline materials produced via controlled crystallization of glasses [1-2].
However, the band gap of the semiconducting materials are corresponding with vary of several parameter such as the phase transition, the density of the impurities, shape, size and surface of the material [10].
Wang, Structural and optical properties of electrospun TiO2 nanofibres, Chemistry of Materials, 19 (2007) 6536-6542
International Journal of Chemical Sciences, 10:1 (2012) 479-489 [14] B.J.
Online since: February 2012
Authors: Cheng Zhu Jin, Ge Zhan
Therefore, the keys of how to make these pressure transmission properties to be successfully applied to the high hard metal materials warm state internal high pressure forming process are the control of pressure distribution in material plastic deformation area.
Acknowledgements This work was financially supported by the Zhejiang Key Discipline of Marine Technology and Systems References [1] DohmanF,HartlC.Hydroforming-A Method to Manufacture Lightweight part,Journal of Materials Processing Technology,1996,60:669-678 [2] Muammer Koc,TaylanAltan.An Overall Review of Tube Hydroforming Technology,Journal of Materials Processing Technology,2001:384-393 [3] S.Novotny,M.Geiger.
Journal of Materials Processing Technology.2003,138:594-598 [4] TANG Zejun, YUAN Shijian, LIU Gang.
Journal of the society of Materials science. 1974, 24(262):669-672 [8] Kaoru Umeya, Lsao Sekjguchi.
Journal of the society of Materials science. 1975, 24(262):664-668
Acknowledgements This work was financially supported by the Zhejiang Key Discipline of Marine Technology and Systems References [1] DohmanF,HartlC.Hydroforming-A Method to Manufacture Lightweight part,Journal of Materials Processing Technology,1996,60:669-678 [2] Muammer Koc,TaylanAltan.An Overall Review of Tube Hydroforming Technology,Journal of Materials Processing Technology,2001:384-393 [3] S.Novotny,M.Geiger.
Journal of Materials Processing Technology.2003,138:594-598 [4] TANG Zejun, YUAN Shijian, LIU Gang.
Journal of the society of Materials science. 1974, 24(262):669-672 [8] Kaoru Umeya, Lsao Sekjguchi.
Journal of the society of Materials science. 1975, 24(262):664-668
Online since: October 2012
Authors: Muataz H.F. Al Hazza, Erry Yulian Triblas Adesta, Muhammad Riza, M.Y. Suprianto
International Journal of Engineering and Applied Sciences (2010) 6:3 2010
[2] A.
Baskar, Particle swarm optimization technique for determining optimal machining parameters of different work piece materials in turning operation International Journal Advanced Manufacturing Technology 54: (2011) 445–463
Advanced Materials Research Vols. 264-265 (2011) pp 1102-1106 [5] R.
Singh, M., Optimizing power consumption for CNC turned parts using response surface methodology and Taguchi's technique—A comparative analysis Journal of Materials Processing Technology, Volume 200, Issues 1-3, 8 (May 2008) 373-384
Journal of Applied Sciences, 11 (2011) 2578-2584.
Baskar, Particle swarm optimization technique for determining optimal machining parameters of different work piece materials in turning operation International Journal Advanced Manufacturing Technology 54: (2011) 445–463
Advanced Materials Research Vols. 264-265 (2011) pp 1102-1106 [5] R.
Singh, M., Optimizing power consumption for CNC turned parts using response surface methodology and Taguchi's technique—A comparative analysis Journal of Materials Processing Technology, Volume 200, Issues 1-3, 8 (May 2008) 373-384
Journal of Applied Sciences, 11 (2011) 2578-2584.
Online since: November 2015
Authors: Kartini Kamaruddin, D.S.Q. Abg Adenan
Besides, polymeric waste materials production has been increasing.
This is because water was not absorbed by crumb rubber materials during concrete mixing.
Emirates Journal for Engineering Resesarch, 25 - 31
Recycling of Waste Polymeric Materials as a Partial Replacement for Aggregate in Concrete.
The Journal of KMUTNB, Vol. 19
This is because water was not absorbed by crumb rubber materials during concrete mixing.
Emirates Journal for Engineering Resesarch, 25 - 31
Recycling of Waste Polymeric Materials as a Partial Replacement for Aggregate in Concrete.
The Journal of KMUTNB, Vol. 19
Online since: June 2014
Authors: Jie Zhang, Hong Bo Li, Jun Wang, Yu Gang Chu, Ming Gang Li, Ren Ren Bao
Beijing: University of Science and Technology Beijing, 2011
[2] Przywara J, Spreitzhofer G, Dummler A.
Journal of Materials Processing Technology, Vol. 202(2003) , p.54-60 [4] X.
Journal of Iron and Steel Research, International, Vol. 19(2012) , p.25-30 [5] H.
Journal of University of Science and Technology Beijing, Vol. 25(2003), p. 572-574 [12] L.
Journal of Northeastern University (Nature Science) , Vol. 31(2010), p. 1414-1416,1420
Journal of Materials Processing Technology, Vol. 202(2003) , p.54-60 [4] X.
Journal of Iron and Steel Research, International, Vol. 19(2012) , p.25-30 [5] H.
Journal of University of Science and Technology Beijing, Vol. 25(2003), p. 572-574 [12] L.
Journal of Northeastern University (Nature Science) , Vol. 31(2010), p. 1414-1416,1420
Online since: August 2013
Authors: Der Bang Wu, Chin I Jen, Yu Kuang Cheng, Hsiu Lan Ma
In fact, this algebraic reasoning is at the heart of mathematics as a science of pattern and order.
[11] H L Ma (Chinese Journal of Science Education Vol. 9-4) 2001, pp. 375-399
[12] H L Ma (Chinese Journal of Science Education vol. 12-1) 2004, pp. 53-81
[13] H L Ma (Chinese Journal of Science Education vol. 15-4) 2007, pp. 387-416
[34] D B Wu and H L Ma (Applied Mechanics and Materials vols. 44-47) 2011, pp. 3922-3926
[11] H L Ma (Chinese Journal of Science Education Vol. 9-4) 2001, pp. 375-399
[12] H L Ma (Chinese Journal of Science Education vol. 12-1) 2004, pp. 53-81
[13] H L Ma (Chinese Journal of Science Education vol. 15-4) 2007, pp. 387-416
[34] D B Wu and H L Ma (Applied Mechanics and Materials vols. 44-47) 2011, pp. 3922-3926
Online since: December 2013
Authors: Noor Hidayu Abdul Rani, Sharifah Aishah Syed A. Kadir, Nor Fadilah Mohamad, Sharmeela Matali
Experimental
Materials and preparation conditions.
Yahya: Journal of Physical Science Vol. 18 (2007), p. 11
Qiu: Journal of Hazardous Materials Vol. 239 (2012), p. 160
Yacob: The Malaysian Journal of Analytical Sciences, Vol. 12 (2008), p. 264
Sricharoenchaikul: Journal of Solid Mechanics and Materials Engineering Vol. 1 (2007), p. 498
Yahya: Journal of Physical Science Vol. 18 (2007), p. 11
Qiu: Journal of Hazardous Materials Vol. 239 (2012), p. 160
Yacob: The Malaysian Journal of Analytical Sciences, Vol. 12 (2008), p. 264
Sricharoenchaikul: Journal of Solid Mechanics and Materials Engineering Vol. 1 (2007), p. 498
Online since: October 2014
Authors: Shang Chao Liu, Jin Xuan Zhou, Gai Feng Xue
Materials and methods
2.1Materials
Experimental water: adding phenol and Cr6+ amount to in ultra pure water preparation, phenol and Cr6+ were analytically pure.
Journal of Environmental Science & Health A 34 (5), 1179–1204
Soil Science &Plant Nutrition 41, 215–223
Applied Clay Science 38, 279–287
Journal of Hazardous Materials B113,195–200
Journal of Environmental Science & Health A 34 (5), 1179–1204
Soil Science &Plant Nutrition 41, 215–223
Applied Clay Science 38, 279–287
Journal of Hazardous Materials B113,195–200
Online since: August 2013
Authors: Hai Yan Fu, Fu Qiang Song, Jia Sen Wu, Xiang Shi Kong, Dan Dan Qi
Materials and Methods
Experimental site.
Experimental materials.
[11] Lu,X.L., Shi,J.S.: Journal of Nanjing Forestry University (Natural Sciences Edition) Vol.30(2006),p.76-78
:Public library of science one Vol.6(2011) ,p.e28772
Y.: Journal of Hunan Agricultural University (Natural Sciences) Vol.32(2006) ,p.607-610
Experimental materials.
[11] Lu,X.L., Shi,J.S.: Journal of Nanjing Forestry University (Natural Sciences Edition) Vol.30(2006),p.76-78
:Public library of science one Vol.6(2011) ,p.e28772
Y.: Journal of Hunan Agricultural University (Natural Sciences) Vol.32(2006) ,p.607-610