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Online since: July 2011
Authors: Zi Ming Zhao, Cui Hua Li, Hua Shi, Quan Zou
Material Classification Using Random Forest
Ziming Zhao, Cuihua Li, Hua Shi, Quan Zou
School of Information Science and Technology Xiamen University
Xiamen 361005, Fujian, P.R.China
mailto:newplan1010@gmail.com
Keywords:texture classification; image patch; filter banks; random forest
Abstract.
This paper proposes an approach to classify materials, which combines random forest with MR8 filter bank.
J, “Representing and recognizing the visual appearance of materials using three-dimensional textons”, International Journal of Computer Vision, vol. 43(1), pp. 29-44, 2001
“Random forests”, Machine Learning Journal, 45(1):5-32, 2001
Wehenkel, “Extremely randomized trees”, Machine Learning Journal, 36(1), 3-42, 2006
This paper proposes an approach to classify materials, which combines random forest with MR8 filter bank.
J, “Representing and recognizing the visual appearance of materials using three-dimensional textons”, International Journal of Computer Vision, vol. 43(1), pp. 29-44, 2001
“Random forests”, Machine Learning Journal, 45(1):5-32, 2001
Wehenkel, “Extremely randomized trees”, Machine Learning Journal, 36(1), 3-42, 2006
Online since: January 2013
Authors: Chao Xu, Dian Qing Lu
Photoluminescence and afterglow behavior of Eu2+, Dy3+ and Eu2+, Sm3+ in Sr3Al2O6 matrix
Chao XU, Dian-qing LU
School of Science, Huaihai Institute of Technology, Lianyungang, 222005 China
E-mail address: xch09@126.com
Keywords: Strontium aluminate; Red long afterglow material; Electron trap
Abstract: The long afterglow luminescent materials Sr3Al2O6: Eu, Sm and Sr3Al2O6: Eu, Dy (denoted as S1 and S2, respectively) were synthesized via solid-state reaction.
SrCO3(99℅), Al2O3(99℅), Eu2O3(99.99℅), Sm2O3(99.9℅), Dy2O3(99.9℅) and H3BO3(99.5℅) were employed as the raw materials.
The materials were weighted according to the composition of (Sr2.8Eu0.1Re0.1)(Al1.8B0.2)O6 (Re= Dy, Sm).
The raw materials added with proper analytical alcohol were mixed by a magnetic stirring for 2 h, and then dried at 100 °C for 8 h.
Journal of Luminescence, 2010, 130: 347–350
SrCO3(99℅), Al2O3(99℅), Eu2O3(99.99℅), Sm2O3(99.9℅), Dy2O3(99.9℅) and H3BO3(99.5℅) were employed as the raw materials.
The materials were weighted according to the composition of (Sr2.8Eu0.1Re0.1)(Al1.8B0.2)O6 (Re= Dy, Sm).
The raw materials added with proper analytical alcohol were mixed by a magnetic stirring for 2 h, and then dried at 100 °C for 8 h.
Journal of Luminescence, 2010, 130: 347–350
Online since: February 2012
Authors: Kadhim F. Al-Sultani
Materials and Methods
2.1-Preparation of Adsorbent.The rice husk (RH) used was obtained from Hilla silos, Babylon, Iraq.
X-ray diffraction analysis, which indicates that the RH mainly consist of amorphous materials.
Al – Husseiny Improving of Effluent Sewage by Treatment with Local Materials, MSc.
Singh, Removal of Cr (VI) from aqueous Solutions Using Pre-Consumer Processing Agricultural Waste: A Case Study of Rice Husk, Journal Hazard Materials, 162: 3125-320, 2009
Prapaimrungsi, Humic Acids Removal from Water by Aminopropyl Functionalized Rice Husk Ash, Journal of Hazardous Materials 184,775-781, 2010
X-ray diffraction analysis, which indicates that the RH mainly consist of amorphous materials.
Al – Husseiny Improving of Effluent Sewage by Treatment with Local Materials, MSc.
Singh, Removal of Cr (VI) from aqueous Solutions Using Pre-Consumer Processing Agricultural Waste: A Case Study of Rice Husk, Journal Hazard Materials, 162: 3125-320, 2009
Prapaimrungsi, Humic Acids Removal from Water by Aminopropyl Functionalized Rice Husk Ash, Journal of Hazardous Materials 184,775-781, 2010
Online since: April 2014
Authors: Xin Zhong Liu, Yong Jie Huang, Ze Ran Cheng, Wei Liao
Research on Environment Materials with Progress on Regeneration of Active Carbon
XinZhong Liu 1, a, YongJie Huang 2,b, ZeRan Cheng3,c and Wei Liao4,d
1 College of Ecological Environment and Urban Construction, Fujian University of Technology, Fuzhou, China
2 College of Environment and Resources, Fuzhou University, Fuzhou, China
3 College of Ecological Environment and Urban Construction, Fujian University of Technology, Fuzhou, China
4 College of Ecological Environment and Urban Construction, Fujian University of Technology, Fuzhou, China
aliuxinzh01@163.com, b35995563@qq.com, c 327782572@qq.com, d 1196421328@qq.com
Keywords: activated carbon; adsorption; regeneration technology
Abstract.
References [1] J H Yun, D K Choi, H Moon: Chemical engineering science Vol. 55 (2000), p. 5857 [2] X Liu, R Chen, R Weng, et al. : Functional Materials Letters Vol. 5 (2012) [3] P M Alvarez, F J Beltran, V Gomez-Serrano, et al. : Water research Vol. 38 (2004), p. 2155 [4] C Moreno-Castilla, J Rivera-Utrilla, J P Joly, et al. : Carbon Vol. 33 (1995), p. 1417 [5] S Román, B Ledesma, J F González, et al. : Journal of Analytical and Applied Pyrolysis Vol. 103 (2013), p. 201 [6] M Goto, N Hayashi, S Goto: Environmental science & technology Vol. 20 (1986), p. 463 [7] P Canizares, J Lobato, J Garcia-Gomez, et al. : Journal of applied electrochemistry Vol. 34 (2004), p. 111 [8] X Liu, R Weng, Z Chen: Acta Scientiarum Naturalium Universitatis Sunyatseni Vol.48 (2009), p.2 [9] H Zhang, L Ye, H Zhong: Journal of Chemical Technology and Biotechnology Vol. 77 (2002), p.1246 [10] R Berenguer, J P Marco-Lozar, C Quijada, et al. : Carbon Vol. 48 (2010), p. 2734 [11] J F González, J M Encinar
[14] C S Tan, D C Liou: Separation Science and Technology Vol. 24 (1989), p. 111 [15] A Dehdashti, A Khavanin, A Rezaee, et al. : Turkish J.
Advanced Materials Research Vol.675 (2013), p.289 [19] J A Menéndez, A Arenillas, B Fidalgo, et al. : Fuel Processing Technology Vol. 91 (2010), p. 1 [20] K E Haque, P D Kondos, R J C MacDonal: U.
Patent CA Vol. 242 (2008), p. 4 [21] C Y Cha , C T Carlisle: Journal of the Air & Waste Management Association Vol. 51 (2001), p. 1628
References [1] J H Yun, D K Choi, H Moon: Chemical engineering science Vol. 55 (2000), p. 5857 [2] X Liu, R Chen, R Weng, et al. : Functional Materials Letters Vol. 5 (2012) [3] P M Alvarez, F J Beltran, V Gomez-Serrano, et al. : Water research Vol. 38 (2004), p. 2155 [4] C Moreno-Castilla, J Rivera-Utrilla, J P Joly, et al. : Carbon Vol. 33 (1995), p. 1417 [5] S Román, B Ledesma, J F González, et al. : Journal of Analytical and Applied Pyrolysis Vol. 103 (2013), p. 201 [6] M Goto, N Hayashi, S Goto: Environmental science & technology Vol. 20 (1986), p. 463 [7] P Canizares, J Lobato, J Garcia-Gomez, et al. : Journal of applied electrochemistry Vol. 34 (2004), p. 111 [8] X Liu, R Weng, Z Chen: Acta Scientiarum Naturalium Universitatis Sunyatseni Vol.48 (2009), p.2 [9] H Zhang, L Ye, H Zhong: Journal of Chemical Technology and Biotechnology Vol. 77 (2002), p.1246 [10] R Berenguer, J P Marco-Lozar, C Quijada, et al. : Carbon Vol. 48 (2010), p. 2734 [11] J F González, J M Encinar
[14] C S Tan, D C Liou: Separation Science and Technology Vol. 24 (1989), p. 111 [15] A Dehdashti, A Khavanin, A Rezaee, et al. : Turkish J.
Advanced Materials Research Vol.675 (2013), p.289 [19] J A Menéndez, A Arenillas, B Fidalgo, et al. : Fuel Processing Technology Vol. 91 (2010), p. 1 [20] K E Haque, P D Kondos, R J C MacDonal: U.
Patent CA Vol. 242 (2008), p. 4 [21] C Y Cha , C T Carlisle: Journal of the Air & Waste Management Association Vol. 51 (2001), p. 1628
Online since: October 2010
Authors: Zhao Qian Jing, Shi Wei Cao, Xiao Zhong Zhang
The paper study the phosphorus
adsorption characteristic of two materials with same size, the influence caused by temperature and
contact time were discussed, the level-one variable dynamic model was used to analyzed the
adsorption process to find out the rule of the material absorbing phosphorus in the water.
So, the two filtering materials were called high calcium fly ash biological filtering material and low calcium fly ash biological filtering materials.
Sun: Journal of Hazardous Materials (2007) No.139, p.293-300
ZHANG and Y.M.ZHANG: Environmental Protection Science Vol.121 (2004) No.30, p.12-14
[3] T.Sakamoto, K.Shibat K.Takanashi, M.Owari and Y.Nihei: Applied Surface Science Vols.209-204 (2003), p.762-766
So, the two filtering materials were called high calcium fly ash biological filtering material and low calcium fly ash biological filtering materials.
Sun: Journal of Hazardous Materials (2007) No.139, p.293-300
ZHANG and Y.M.ZHANG: Environmental Protection Science Vol.121 (2004) No.30, p.12-14
[3] T.Sakamoto, K.Shibat K.Takanashi, M.Owari and Y.Nihei: Applied Surface Science Vols.209-204 (2003), p.762-766
Experimental Investigation on Electroformed Copper-Based Zirconia Nanocomposites Aided by Ultrasonic
Online since: September 2013
Authors: Zhi Yong Li, Hong Bin Cui, Pei Yu Dong, Tao Liu
Experimental Investigation on Electroformed Copper-based Zirconia Nanocomposites Aided by Ultrasonic
Li Zhiyong1,a , Cui Hongbin1,b, Dong Peiyu1,c, Liu Tao1,d
1School of Mechanical Engineering, Shan Dong University of Technology, Zibo, 255049, China
alzy761012@sdut.edu.cn, bwangyigang07@163.com, cliuhongli@163.com, ddzp344212@sina.com
Keywords: Ultrasonic, electroforming, nano-ZrO2 particles, nanocomposite electrode materials
Abstract.
However, the mechanical and physical properties of the final composite material after electroforming are closely related to electroforming defects and grain size.
Materials science and Engineering 2004, 386(1-2):284-290 [7] S-B.KIM, K-T.KIM, C-J.PARK,H-S.KWON, Electrochemical nucleation and growth of copper on chromium-plated electrodes[J], Journal of Applied Electrochemistry 2002,32,1247~1255
[8] Zhou Shao min, Electro deposition of Metal—Principle and Methods [M], Shanghai: Shanghai Press of Science and Technology, 1987, 242-305
Chinese Journal of Mechanical Engineering, 2004, 40 (12): 126-127.
However, the mechanical and physical properties of the final composite material after electroforming are closely related to electroforming defects and grain size.
Materials science and Engineering 2004, 386(1-2):284-290 [7] S-B.KIM, K-T.KIM, C-J.PARK,H-S.KWON, Electrochemical nucleation and growth of copper on chromium-plated electrodes[J], Journal of Applied Electrochemistry 2002,32,1247~1255
[8] Zhou Shao min, Electro deposition of Metal—Principle and Methods [M], Shanghai: Shanghai Press of Science and Technology, 1987, 242-305
Chinese Journal of Mechanical Engineering, 2004, 40 (12): 126-127.
Online since: September 2012
Authors: Ishaya Musa Dagwa, O. Ojo
Materials and Methods
Materials: The materials used in this study were Caesar weed bast harvested (see Figure 1a) from a wild source at the Ifesowapo quarters, Ado Ekiti, Nigeria, sawdusts of Afara – Terminalia superba, (Figure 1b) and Mahogany trees (Figure 1c) enough to fill 0.01 cubic meter containers.
Journal of Applied Polymer Science, Willey periodicals Inc. 93 (2004) 1021-1030 www.interscience.wiley.com
Vigie, Flexural properties of sawdust reinforced phenolic composites: Pilot study, Journal of Applied Polymer Science, .114 (2009) 1927-1934
Journal of Minerals and Materials Characterization and Engineering 9 (3) ( 2010) 199 – 210
The Arabian Journal for Science and Engineering 32, ( 2B) (2007)
Journal of Applied Polymer Science, Willey periodicals Inc. 93 (2004) 1021-1030 www.interscience.wiley.com
Vigie, Flexural properties of sawdust reinforced phenolic composites: Pilot study, Journal of Applied Polymer Science, .114 (2009) 1927-1934
Journal of Minerals and Materials Characterization and Engineering 9 (3) ( 2010) 199 – 210
The Arabian Journal for Science and Engineering 32, ( 2B) (2007)
Online since: August 2016
Authors: Mohamed Chabaat, Salaheddine Harzallah, Kahina Chabane
3D Eddy Current Testing by FEM for detection of crack’s in materials
KahinaChabane1,a* , Salaheddine Harzallah2,b and Mohamed Chabaat3,c,
1,2,Doctorate,3Professor, Built Environmental ResearchLab., Civil Engineering Faculty, University of Sciences and Technology HouariBoumediene, B.P 32 Bab Ezzouar, Algiers 16111 Algeria.
Abstract In this paper, we present a nondestructive Testing by sensor Eddy current is used as a tool to control cracks and micro-cracks in materials.
This method has emerged as one of the most efficient technique for prospecting cracks in materials, evaluating and analyzing crack’s growth.
Harzallah1,M.Chabaat, S.Benissad, Inverse Problems using Neural Networks for Cracks Characterization in Materials, International Journal of Key Engineering Materials.Vol 660 (2015) pp 361-365
Modeling and Simulation for 3D Eddy CurrentTesting in Conducting Materials International Journal of Mechanical, Aerospace, Industrial and Mechatronics Engineering Vol:8 No:4, 2014
Abstract In this paper, we present a nondestructive Testing by sensor Eddy current is used as a tool to control cracks and micro-cracks in materials.
This method has emerged as one of the most efficient technique for prospecting cracks in materials, evaluating and analyzing crack’s growth.
Harzallah1,M.Chabaat, S.Benissad, Inverse Problems using Neural Networks for Cracks Characterization in Materials, International Journal of Key Engineering Materials.Vol 660 (2015) pp 361-365
Modeling and Simulation for 3D Eddy CurrentTesting in Conducting Materials International Journal of Mechanical, Aerospace, Industrial and Mechatronics Engineering Vol:8 No:4, 2014
Online since: August 2010
Authors: Zhu Ding, Feng Xing, Peng Liu, Ming Zhang, Ming Ke Wang
Abstract: Electrodeless resistivity and impedance spectroscopy measurement are reliable
equipments of test online for monitoring the hydration process of cement-based materials
continuously and accurately.
Experiment Raw Materials.
Acknowledgement Project supported by National Science Fund for Distinguished Young Scholars (Grant No. 50925829) and The team Programs for Science and Technology Development of Shenzhen University (Grant No.
Dissertation of China Building Materials Academy (2006)
Li: Journal of the Chinese Ceramic Society, VOL. 32 (2004), p.34
Experiment Raw Materials.
Acknowledgement Project supported by National Science Fund for Distinguished Young Scholars (Grant No. 50925829) and The team Programs for Science and Technology Development of Shenzhen University (Grant No.
Dissertation of China Building Materials Academy (2006)
Li: Journal of the Chinese Ceramic Society, VOL. 32 (2004), p.34
Online since: September 2017
Authors: Anton Panda, Ema Nováková-Marcinčinová, Ľudmila Nováková-Marcinčinová
Novak-Marcincin, Production of composite material by FDM rapid prototyping technology, Applied Mechanics and Materials 474 (2014) 186-191
Novak-Marcincin, Testing of ABS Material Tensile Strength for Fused Deposition Modeling Rapid Prototyping Method, Advanced Materials Research 912-914 (2014) 370-373
Novak-Marcincin, Testing of Materials for Rapid Prototyping Fused Deposition Modelling Technology, World Academy of Science, Engineering and Technology 70 (2012) 411-414
Pandová, Manufacturing technologies in automotive production and waste water cleaning on zeolite in view of copper, MM Science Journal 2016 (2016) 1218-1221
Sysel, Cutting efficiency by drilling with tools from different materials, Advanced Materials Research538-541 (2012) 1327-1331
Novak-Marcincin, Testing of ABS Material Tensile Strength for Fused Deposition Modeling Rapid Prototyping Method, Advanced Materials Research 912-914 (2014) 370-373
Novak-Marcincin, Testing of Materials for Rapid Prototyping Fused Deposition Modelling Technology, World Academy of Science, Engineering and Technology 70 (2012) 411-414
Pandová, Manufacturing technologies in automotive production and waste water cleaning on zeolite in view of copper, MM Science Journal 2016 (2016) 1218-1221
Sysel, Cutting efficiency by drilling with tools from different materials, Advanced Materials Research538-541 (2012) 1327-1331