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Online since: October 2010
Authors: Dan Dan Liu, Chun Rui Tang
References
[1] Tang Longyi, Liu Qi, Zhang Ping: Journal of Functional Materials Vol.37 (2006), p.543-545
[2] Si Hu, Wu Xiaoyi, Li Xiaohong: Journal of Chongqing University Vol.29 (2006), p.124-127
[3] Liao Changrong, Yu Miao, et al: Chinese Journal of Mechanical Engineering Vol.14 (2005),
p.132-136
[4] REN Jianting, DENG Changhua and JIANG Jiesheng: Journal of Functional Materials Vol.37
(2006), p.729-732
[5] Wang Daihua, AI Hongxia: Journal of Functional Materials Vol.37 (2006), p.1183-1186
[6] Nicholas C Rosenfeld, Norman M Wereley: Smart Materials and Structures (2004) No.13,
p.1303-1313
[7] Quoc-Hung Nguyen, Seung-Bok Choi, Norman M Wereley: Smart Materials and Structures (2008) No.17, p.1-12
[8] Quoc-Hung Nguyen, Young-Min Han, Seung-Bok Choi: Smart Materials and Structures (2007) No.16, p.2242-2252
Grunwald: Materials & Design Vol.28 (2007), p. 2658-2664
[10] Wang daihua, Ai hongxia: Journal of Functional Materials Vol.7 (2006), p.1179-1182.
[7] Quoc-Hung Nguyen, Seung-Bok Choi, Norman M Wereley: Smart Materials and Structures (2008) No.17, p.1-12
[8] Quoc-Hung Nguyen, Young-Min Han, Seung-Bok Choi: Smart Materials and Structures (2007) No.16, p.2242-2252
Grunwald: Materials & Design Vol.28 (2007), p. 2658-2664
[10] Wang daihua, Ai hongxia: Journal of Functional Materials Vol.7 (2006), p.1179-1182.
Online since: June 2020
Authors: Himawan Tri Bayu Murti Petrus, Achmad Roesyadi, Firman Kurniawansyah, Aisyah J. Malahayati, Amila D. Istiqomah
Utilization of Silica from Indonesian Solid Wastes as Catalyst Materials
FIRMAN Kurniawansyah1,a*, AMILA D.
Another example of useful substance can be recovered from unused materials is silica.
The silica was further processed as catalyst materials.
The use of acidic solution was aimed at dissolving ligno-cellulosic materials, as well as leaching metal traces.
[8] M Zanata, S Amalia, MR Mumtazy, F Kurniawansyah, A Roesyadi, Synthesis of Biojet Fuel from Palm Oil, Material Science Forum 964 (2018) 193 – 198
Another example of useful substance can be recovered from unused materials is silica.
The silica was further processed as catalyst materials.
The use of acidic solution was aimed at dissolving ligno-cellulosic materials, as well as leaching metal traces.
[8] M Zanata, S Amalia, MR Mumtazy, F Kurniawansyah, A Roesyadi, Synthesis of Biojet Fuel from Palm Oil, Material Science Forum 964 (2018) 193 – 198
Online since: April 2016
Authors: Jia Jia Feng, Li Zhu He, Yan Qiang Li, Fang Hei, Chun Hua Chen, Sha Ou Chen, Wei Quan Shao, Yue Qin Ban, Xiao Jie Guo
Introduction
Lithium-ion battery electrode materials can be divided into the anode and the cathode materials.
Lithium metal was used as anode materials for the earlier time.
Considering carbon composite and the coordination effect of nanoscale materials, this paper has prepared composite nanomaterials by the electrostatic spinning method and studied the electrochemical properties of the composite material.
[9] ZHANG Xin-Long, HU Guo-Rong, PENG Zhong-Dong: Journal of Inorganic Materials. 26(4)(2011) 443-448
Journal of Materials Chemistry. 22(2012) 11257-11260
Lithium metal was used as anode materials for the earlier time.
Considering carbon composite and the coordination effect of nanoscale materials, this paper has prepared composite nanomaterials by the electrostatic spinning method and studied the electrochemical properties of the composite material.
[9] ZHANG Xin-Long, HU Guo-Rong, PENG Zhong-Dong: Journal of Inorganic Materials. 26(4)(2011) 443-448
Journal of Materials Chemistry. 22(2012) 11257-11260
Online since: December 2012
Authors: A.R. Toibah, Jariah Mohd Juoi, Zulkifli Mohd Rosli, Dilip Arudra, Siti Rahmah Shamsuri, Japper Jaafar Azuraien
Glass Composite Material (GCM) sintering
Batch of powder mixtures is formulated according to weight ratios.
[6] Mohammad Shahnor Bani,Zulkifli Abdul Rashid,Ku Halim Ku Hamid,Implementation of Decision Support System for Scheduled Waste Management in Malaysia,Journal of Applied Science 11 (13) (2011) 2358-2363 [7] Hauwa ISA, A review of glass-ceramics production from silicate Wastes , International Journal of the Physical Sciences Vol. 6(30) (2011) 6781 – 6790 [8] Sivakumar Naganathan, Hashim Abdul Razak, Siti Nadzriah Abdul Hamid, Properties of controlled low-strength material made using industrial waste incineration bottom ash and quarry dust, Journal Materials and Design 33 (2012) 56–63 [9] Tarnkamol Tarvornpanich, Guilherme P.
Schiller, Sintering of glass matrix composites with small rigid inclusions, Journal of the European Ceramic Society 29 (2009) 2469–2479 [12] Richards A.
Chen, Characterisation of glass ceramics made from incinerator fly ash, Journal Ceramics International 30 (2004) 343–349 [14] Dinh-Hieu Vu, Kuen-Sheng Wang, Bui Xuan Nam, Bui Hoang Bac, Tien-Chun Chu, Preparation of humidity-controlling porous ceramics from volcanic ash and waste glass, Journal Ceramics International 37 (2011) 2845–2853 [15] Bianka V.
Sci. & Technol. 18 (2) (2010) 223 – 229 [21] Young Jun Park, Jong Heo, Conversion to glass-ceramics from glasses made by MSW incinerator fly ash for recycling, Ceramics International 28 (2002) 689–694 [22] M I Ojovan, J M Juoi, W E Lee, Application Of Glass Composite Materials For Nuclear Waste Immobilization, J Pak Mater Soc 2(2) (2008) 72-76
[6] Mohammad Shahnor Bani,Zulkifli Abdul Rashid,Ku Halim Ku Hamid,Implementation of Decision Support System for Scheduled Waste Management in Malaysia,Journal of Applied Science 11 (13) (2011) 2358-2363 [7] Hauwa ISA, A review of glass-ceramics production from silicate Wastes , International Journal of the Physical Sciences Vol. 6(30) (2011) 6781 – 6790 [8] Sivakumar Naganathan, Hashim Abdul Razak, Siti Nadzriah Abdul Hamid, Properties of controlled low-strength material made using industrial waste incineration bottom ash and quarry dust, Journal Materials and Design 33 (2012) 56–63 [9] Tarnkamol Tarvornpanich, Guilherme P.
Schiller, Sintering of glass matrix composites with small rigid inclusions, Journal of the European Ceramic Society 29 (2009) 2469–2479 [12] Richards A.
Chen, Characterisation of glass ceramics made from incinerator fly ash, Journal Ceramics International 30 (2004) 343–349 [14] Dinh-Hieu Vu, Kuen-Sheng Wang, Bui Xuan Nam, Bui Hoang Bac, Tien-Chun Chu, Preparation of humidity-controlling porous ceramics from volcanic ash and waste glass, Journal Ceramics International 37 (2011) 2845–2853 [15] Bianka V.
Sci. & Technol. 18 (2) (2010) 223 – 229 [21] Young Jun Park, Jong Heo, Conversion to glass-ceramics from glasses made by MSW incinerator fly ash for recycling, Ceramics International 28 (2002) 689–694 [22] M I Ojovan, J M Juoi, W E Lee, Application Of Glass Composite Materials For Nuclear Waste Immobilization, J Pak Mater Soc 2(2) (2008) 72-76
Online since: September 2011
Authors: Ning Chen, Ya Bin Li
As a kind of raw materials of the nonwoven materials, it has wide range of applications [2, 3].
Li: Tianjin Textile Science & Technology, (3):23-25. (1999) [2] S.
Chen: Science Press in Beijing, 2001 [5] L.
Li: Wool Textile Journal, (12):20-22. (2008)
Wei: Textile Research Journal, 27(9):14-17. (2006)
Li: Tianjin Textile Science & Technology, (3):23-25. (1999) [2] S.
Chen: Science Press in Beijing, 2001 [5] L.
Li: Wool Textile Journal, (12):20-22. (2008)
Wei: Textile Research Journal, 27(9):14-17. (2006)
Online since: October 2015
Authors: Peter Mihalka, Peter Matiasovsky
A wider range was observed for macroporous materials [8].
Typical BET plots for representatives of the analysed materials are in Fig. 1.
Typical FHH plots for representatives of the analysed materials are in Fig. 2.
In case of mesoporous materials the equation is realistic in the range of 53 – 94%.
Journal of Chemical Physics 16 (1948) 931–937
Typical BET plots for representatives of the analysed materials are in Fig. 1.
Typical FHH plots for representatives of the analysed materials are in Fig. 2.
In case of mesoporous materials the equation is realistic in the range of 53 – 94%.
Journal of Chemical Physics 16 (1948) 931–937
Online since: March 2008
Authors: Jun Wang, Hong Tao Zhu, Chuan Zhen Huang, Quan Lai Li, Cui Lian Che
In this paper, the impact pressure of abrasives acting on the polished materials was
deduced by Field Theory and the model of surface roughness for polishing super hard materials
with Abrasive Water Jet (AWJ) was established.
The theoretical model of surface roughness for polishing super hard materials with AWJ was finally built.
This project is supported by Key Project of Shandong Natural Science Foundation (Z2005F02) and J.
Ercan: Journal of Materials Processing Technology, Vol.147 (2004), pp.389
Chen: Chinese Journal of Nonferrous Metals, Vol.15 (2005) No.7, pp.1075.
The theoretical model of surface roughness for polishing super hard materials with AWJ was finally built.
This project is supported by Key Project of Shandong Natural Science Foundation (Z2005F02) and J.
Ercan: Journal of Materials Processing Technology, Vol.147 (2004), pp.389
Chen: Chinese Journal of Nonferrous Metals, Vol.15 (2005) No.7, pp.1075.
Online since: June 2021
Authors: Sheng Zhong Kou, Rui Xian Ding, Ye Jiang, Jian Jun Fan
Materials, 2017, 10(6):625
Materials Letters, 2006, 60(9-10):1256-1260
Rare Metal Materials & Engineering, 2014, 43(7):1558-1561
Journal of Materials Science and Technology, 2018, 34(4):605-612
Journal of Materials Science Letters, 2002, 21(18):1419-1422
Materials Letters, 2006, 60(9-10):1256-1260
Rare Metal Materials & Engineering, 2014, 43(7):1558-1561
Journal of Materials Science and Technology, 2018, 34(4):605-612
Journal of Materials Science Letters, 2002, 21(18):1419-1422
Online since: January 2013
Authors: Qing Yan Xu, Yin Min Wang
The Effects of Processing Parameter on Melt-blown Filtration Materials
Qingyan Xu*1,a, Yinmin Wang2,b
1College of Material Science and Engineering, Donghua University, Shanghai 201620, China
2State Key Laboratory for Modification of Chemical Fibers and Polymer Materials, Shanghai 201620, China
aalbeexu@hotmail.com, bymw@dhu.edu.cn
Keywords: Nonwovens, Processing Parameter, Web Structure and Properties.
The preparation of melt-blown filtration materials was studied in this paper.
Experimental Materials and Equipments.
Preparation Scheme of Melt-blown Filtration Materials.
Textile Research Journal, 1994, 69: 795-804.
The preparation of melt-blown filtration materials was studied in this paper.
Experimental Materials and Equipments.
Preparation Scheme of Melt-blown Filtration Materials.
Textile Research Journal, 1994, 69: 795-804.
Online since: November 2010
Authors: Guang Ping Zou, Zhong Liang Chang, Xin Zheng Wang, Bao Jun Liu, Si Chen
Light weight aluminum alloy honeycomb materials are ideal lightweight structure
materials, which have higher specific strength and stiffness, and widely applied in aviation,
aerospace, automobile and so on, and also it is an ideal material for damping, buffering, heat
insulation and energy absorption.
Introduction Light weight Aluminum alloy honeycomb materials are ideal lightweight structure materials, which have higher specific strength and stiffness and could be core materials of the sandwich panels.
Nowadays the honeycomb materials impacting properties research mainly concentrate on numerical simulation[3-4] or drop hammer test[5].
Bao: Journal of Vibration and Shock Vol. 24 (2005), p. 49-52
Liu: Science Technology and Engineering Vol. 7 (2007), p. 2799-2802
Introduction Light weight Aluminum alloy honeycomb materials are ideal lightweight structure materials, which have higher specific strength and stiffness and could be core materials of the sandwich panels.
Nowadays the honeycomb materials impacting properties research mainly concentrate on numerical simulation[3-4] or drop hammer test[5].
Bao: Journal of Vibration and Shock Vol. 24 (2005), p. 49-52
Liu: Science Technology and Engineering Vol. 7 (2007), p. 2799-2802