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Online since: August 2015
Authors: Weera Kompreyarat, Thanasin Bunnam
By using this technique, it has an ability to deal with variety of the amulet materials and colors in the same generation with less computation complexity.
Furthermore, each generation is able to construct from different materials, which, different in color too.
Srisupornwattana, Buddhist amulet coin recognition by genetic algorithm, Computer Science and Engineering Conference (ICSEC), 2013 International, pp.324,327, 4-6 Sept. 2013 [3] P.
Meesad, Buddha Amulet Information Retrieval using Digital Images Combined with Feature Extraction and K-nearest Neighbor Techniques, Information Technology Journal, Vol. 9, No. 2, July - December 2013
Tuli, Object Recognition by Template Matching Using Correlations and Phase Angle Method, International Journal of Advanced Research in Computer and Communication Engineering, Vol. 2, Issue 3, March 2013.
Furthermore, each generation is able to construct from different materials, which, different in color too.
Srisupornwattana, Buddhist amulet coin recognition by genetic algorithm, Computer Science and Engineering Conference (ICSEC), 2013 International, pp.324,327, 4-6 Sept. 2013 [3] P.
Meesad, Buddha Amulet Information Retrieval using Digital Images Combined with Feature Extraction and K-nearest Neighbor Techniques, Information Technology Journal, Vol. 9, No. 2, July - December 2013
Tuli, Object Recognition by Template Matching Using Correlations and Phase Angle Method, International Journal of Advanced Research in Computer and Communication Engineering, Vol. 2, Issue 3, March 2013.
Online since: August 2019
Authors: Muljadi Muljadi, Priyo Sardjono, Dedi Setiabudidaya, Ramlan Ramlan, Fakhili Gulo
References
[1] Cardarelli F, Magnetic Materials Handbook, Springer Nature Switzerland AG.
[3] David Brown, Bao-Min Ma, Zhongmin Chen, Developments in the processing and properties of NdFeB-type permanent magnets, Journal of Magnetism and Magnetic Materials 248 (2002) 432–440
Suryanarayana, “Mechanical alloying and milling,” Progress in Materials Science, vol. 46, no. 1-2 (2001) 1–184
[11] Liu Xiaoya, Li Yuping, Hu Lianxi, Nanocrystalline NdFeB magnet prepared by mechanically activated disproportionation and desorption-recombination in-situ sintering, Journal of Magnetism and Magnetic Materials, Vol. 330 (2013) 25 -30
Hives of metallurgy and Materials, vol 59 (2014) 48-51.
[3] David Brown, Bao-Min Ma, Zhongmin Chen, Developments in the processing and properties of NdFeB-type permanent magnets, Journal of Magnetism and Magnetic Materials 248 (2002) 432–440
Suryanarayana, “Mechanical alloying and milling,” Progress in Materials Science, vol. 46, no. 1-2 (2001) 1–184
[11] Liu Xiaoya, Li Yuping, Hu Lianxi, Nanocrystalline NdFeB magnet prepared by mechanically activated disproportionation and desorption-recombination in-situ sintering, Journal of Magnetism and Magnetic Materials, Vol. 330 (2013) 25 -30
Hives of metallurgy and Materials, vol 59 (2014) 48-51.
Online since: August 2008
Authors: Gow Yi Tzou, Dyi Cheng Chen, Jia Ci Wang
Wang: Journal of Materials Processing Technology Vol. 102 (2000),
p. 30
Kim: Materials Science and Engineering A Vol. 315 (2001), p. 122
Cetlin: Journal of Materials Processing Technology Vol. 180 (2006), p. 30
Tzou: Key Engineering Materials Vols.345-346 (2007), pp.177
Yang: International Journal of Mechanical Sciences Vol. 27 (1985), p. 487.
Kim: Materials Science and Engineering A Vol. 315 (2001), p. 122
Cetlin: Journal of Materials Processing Technology Vol. 180 (2006), p. 30
Tzou: Key Engineering Materials Vols.345-346 (2007), pp.177
Yang: International Journal of Mechanical Sciences Vol. 27 (1985), p. 487.
Online since: March 2008
Authors: Shu Huang, Yue Qing Sun, Jian Jun Du, Jian Zhong Zhou, Ji Chang Yang, Su Qing Jiang
Chen: Laser Science and Technology, (2003)
Zhang and et al: Key Engineering Materials, Vol.315 (2006), pp.607
Yang and et al: Chinese Journal of Laser, Vol32 (2005), pp.135
Brockman: International Journal of Fatigue, Vol.21 (1999), pp.719
Lin: Journal of Materials Processing Technology, Vol.178 (2006), pp.162
Zhang and et al: Key Engineering Materials, Vol.315 (2006), pp.607
Yang and et al: Chinese Journal of Laser, Vol32 (2005), pp.135
Brockman: International Journal of Fatigue, Vol.21 (1999), pp.719
Lin: Journal of Materials Processing Technology, Vol.178 (2006), pp.162
Online since: January 2024
Authors: Abderrahim Mokhefi, Djamila Derbal, Fayçal Bouzit, Mohamed Bouzit
Note on the motion of fluid in a curved pipe, The London, Edinburgh, and Dublin Philosophical Magazine and Journal of Science 4(20) (1927) 208-223
Gazi University Journal of Science 36(1) (2023) 383-397
Mokhefi, Numerical investigation of the nanoparticles nature effect on the MHD behavior in a square cavity with a metallic obstacle, Metallurgical and Materials Engineering 28(2) (2022) 223-244
Ahmed, Unsteady MHD forced convection over a backward facing step including a rotating cylinder utilizing Fe3O4-water ferrofluid, Journal of Magnetism and Magnetic Materials 484 (2019) 356-366
"Effect of the inclination angle of finned cylinder over a BFS on the MHD behavior in the presence of a nanofluid," Metallurgical and Materials Engineering 28(2) (2022) 203-221
Gazi University Journal of Science 36(1) (2023) 383-397
Mokhefi, Numerical investigation of the nanoparticles nature effect on the MHD behavior in a square cavity with a metallic obstacle, Metallurgical and Materials Engineering 28(2) (2022) 223-244
Ahmed, Unsteady MHD forced convection over a backward facing step including a rotating cylinder utilizing Fe3O4-water ferrofluid, Journal of Magnetism and Magnetic Materials 484 (2019) 356-366
"Effect of the inclination angle of finned cylinder over a BFS on the MHD behavior in the presence of a nanofluid," Metallurgical and Materials Engineering 28(2) (2022) 203-221
Online since: January 2011
Authors: Gong Fa Li, Liang Xi Xie, Gang Zhao, Guo Zhang Jiang, Jian Yi Kong, Hua Zhang
There are influences in different levels and varying degrees on environment from a large number of materials, products flow, energy conversion processes, and diversified forms of discharge, disposal and waste materials.
Influence degree on the environment is multi-level that all kinds of discharge materials produced in the steel production process.
Green degree friendly to the environment that compared with other materials the steel and products demonstrated in many respects.
Treatment and utilization of materials with iron-content and available resource in converter and electric store mainly. (3) Harmless treatment.
[2] Yin ruiyu, “Green manufacturing VS steel industry”, Chinese Journal of iron and steel,Vol. 35,2002, p. 61-65 [3] Yin ruiyu, “Some science problems about steel manufacturing process”,Chinese Journal of acta metallurgica sinica,Vol. 43,2007, p. 1121-1128
Influence degree on the environment is multi-level that all kinds of discharge materials produced in the steel production process.
Green degree friendly to the environment that compared with other materials the steel and products demonstrated in many respects.
Treatment and utilization of materials with iron-content and available resource in converter and electric store mainly. (3) Harmless treatment.
[2] Yin ruiyu, “Green manufacturing VS steel industry”, Chinese Journal of iron and steel,Vol. 35,2002, p. 61-65 [3] Yin ruiyu, “Some science problems about steel manufacturing process”,Chinese Journal of acta metallurgica sinica,Vol. 43,2007, p. 1121-1128
Online since: February 2014
Authors: Hong Quan Zhou, Xiao Ping Zou, Gang Qiang Yang, Gong Qing Teng, Zong Bo Huang, Bao Li Zhang
Affection of post-nitrogen-doping of TiO2 nanoparticle film Photo-anode
On performance of dye-sensitized solar cells
Hongquan Zhou a, Xiaoping Zou b, Gangqiang Yang, Gongqing Teng,
Zongbo Huang, Baoli Zhang
Research Center for Sensor Technology, Beijing Key Laboratory for sensor, Ministry-of-Education Key Laboratory for Modern Measurement and Control Technology, School of Sciences, Beijing information Science and Technology University, Jianxiangqiao Campus, Beijing 100101, P.
Acknowledgements This work was partially supported by Key Project (B) of Beijing Natural Science Foundation and Key Project of Beijing Education Committee Science & Technology Plan (KZ201211232040), State High Technology Research and Development Plan (863 Plan) of Ministry of Science and Technology of CHINA (2011AA050527), State Key Laboratory of Advanced technology for Materials Synthesis and Processing of Wuhan University of Technology (2012-KF-6), State Key Laboratory of Fine Chemicals of Dalian University of Technology (KF1016), State Key Laboratory of Multiphase Complex Systems of Institute of Process Engineering of CAS (MPCS-2011-D-09 and MPCS-2010-A-02), Key Lab of Photochemical Conversion and Optoelectronic Materials of TIPC of CAS (PCOM201009 and PCOM201111), Key Lab of Novel Thin Film Solar Cells of CAS (KF200907), Key Laboratory of Semiconductor Materials Science of Institute of Semiconductors of CAS (KLSMS-1101) and Beijing Key Laboratory for sensor (KF20121077206).
Taga: Science Vol. 293 (2001), p. 269 [8] X.
Hand: Journal of Applied Physics Vol. 96 (2004), p. 7036 [12] S.
Ichikawa: Journal of Crystal Growth Vol. 298 (2007), p. 486 [13] Y.Q.
Acknowledgements This work was partially supported by Key Project (B) of Beijing Natural Science Foundation and Key Project of Beijing Education Committee Science & Technology Plan (KZ201211232040), State High Technology Research and Development Plan (863 Plan) of Ministry of Science and Technology of CHINA (2011AA050527), State Key Laboratory of Advanced technology for Materials Synthesis and Processing of Wuhan University of Technology (2012-KF-6), State Key Laboratory of Fine Chemicals of Dalian University of Technology (KF1016), State Key Laboratory of Multiphase Complex Systems of Institute of Process Engineering of CAS (MPCS-2011-D-09 and MPCS-2010-A-02), Key Lab of Photochemical Conversion and Optoelectronic Materials of TIPC of CAS (PCOM201009 and PCOM201111), Key Lab of Novel Thin Film Solar Cells of CAS (KF200907), Key Laboratory of Semiconductor Materials Science of Institute of Semiconductors of CAS (KLSMS-1101) and Beijing Key Laboratory for sensor (KF20121077206).
Taga: Science Vol. 293 (2001), p. 269 [8] X.
Hand: Journal of Applied Physics Vol. 96 (2004), p. 7036 [12] S.
Ichikawa: Journal of Crystal Growth Vol. 298 (2007), p. 486 [13] Y.Q.
Online since: March 2012
Authors: Zun Feng Du
For example, the steel materials on scrapped ships are usually coated with paint containing lead, cadmium, organotin, arsenic, zinc and chromium.
Meanwhile, various hazardous materials are discharged from end-of-life ships and form the accumulation of metal fragments and rust in the soil so that the binding properties of the beach soil are lost.
Each new ship shall have on board an Inventory of Hazardous Materials (IHM).
The recycling procedures include a rigorous pre-cleaning, during which all hazardous materials are carefully handled, separated and disposed of according to the highest standards.
Acknowledgements This research was supported by the Science Fund for Creative Research Groups of the National Natural Science Foundation of China (Grant No. 51021004), the National Natural Science Foundation of China (No. 51109158), and the Innovation Foundation of Tianjin University.
Meanwhile, various hazardous materials are discharged from end-of-life ships and form the accumulation of metal fragments and rust in the soil so that the binding properties of the beach soil are lost.
Each new ship shall have on board an Inventory of Hazardous Materials (IHM).
The recycling procedures include a rigorous pre-cleaning, during which all hazardous materials are carefully handled, separated and disposed of according to the highest standards.
Acknowledgements This research was supported by the Science Fund for Creative Research Groups of the National Natural Science Foundation of China (Grant No. 51021004), the National Natural Science Foundation of China (No. 51109158), and the Innovation Foundation of Tianjin University.
Online since: April 2009
Authors: Min Wang, Tao Sun, Jonathan H.W. Wong, Parama Chakraborty Banerjee
Materials and Methods
Commercially available NiTi SMA (50.8 at.% Ni) rods were cut into discs (Ф10mm×1mm in
dimensions) for the experiments.
"Bioactive Materials and Processing", in: Biomaterials and Tissue Engineering, Edited by D.
"Formation of calcium phosphate/collagen composites through mineralization of collagen matrix", Journal of Biomedical Materials Research, Vol. 50, 518-527 [6] Wang, M., Yang, X.Y., Khor, K.A., and Wang, Y. (1999).
"Preparation and characterisation of bioactive monolayer and functionally graded coatings", Journal of Materials Science: Materials in Medicine, Vol. 10, 269-273 [7] Wu, J.M., Wang, M., Li, Y.
"Apatite formation on titanium substrates by electrochemical deposition in metastable calcium phosphate solution", Journal of Materials Science: Materials in Medicine, Vol. 19, 137-142
"Bioactive Materials and Processing", in: Biomaterials and Tissue Engineering, Edited by D.
"Formation of calcium phosphate/collagen composites through mineralization of collagen matrix", Journal of Biomedical Materials Research, Vol. 50, 518-527 [6] Wang, M., Yang, X.Y., Khor, K.A., and Wang, Y. (1999).
"Preparation and characterisation of bioactive monolayer and functionally graded coatings", Journal of Materials Science: Materials in Medicine, Vol. 10, 269-273 [7] Wu, J.M., Wang, M., Li, Y.
"Apatite formation on titanium substrates by electrochemical deposition in metastable calcium phosphate solution", Journal of Materials Science: Materials in Medicine, Vol. 19, 137-142