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Online since: February 2011
Authors: Nan Chun Chen, Ai Ping Deng, Wei Wang, Xiao Hu Zhang, Quan Tang
Because the synthesis of type-A zeolite based on chemical materials costs too much and is also restricted by chemical materials, which can not meet the needs of zeolite application.
Therefore, researchers have become focus on preparing type-A zeolite with cheap mineral- materials[5-8].
Journal of Inorganic Materials, 2005, Vol.20 (4): P. 907~913
Journal of Anhui University of Technology (Natural Science), 2007, Vol.27 (4): P. 53~56
Journal of Natural Science of Heilongjiang University, 2003, Vol.20 (1): P. 115~117
Therefore, researchers have become focus on preparing type-A zeolite with cheap mineral- materials[5-8].
Journal of Inorganic Materials, 2005, Vol.20 (4): P. 907~913
Journal of Anhui University of Technology (Natural Science), 2007, Vol.27 (4): P. 53~56
Journal of Natural Science of Heilongjiang University, 2003, Vol.20 (1): P. 115~117
Online since: March 2015
Authors: He Li Peng, Yong Yuan, Xian Feng Chen
McCosh: Popular Science, Vol.244 (1994), p.76
[3] M.
Welo: Journal of Materials Processing Technology, Vol. 128 (2002), p. 48 [6] J.
Bstard: International Journal of Mechanical Sciences, Vol. 43 (2001), p. 1283 [7] N.
Sakaki: Journal of Materials Processing Technology, Vol. 123 (2002), p. 264 [8] Z.H.
Li: Journal of Materials Processing Technology, Vol. 209 (2009), p. 396-407 [10] S.H.
Welo: Journal of Materials Processing Technology, Vol. 128 (2002), p. 48 [6] J.
Bstard: International Journal of Mechanical Sciences, Vol. 43 (2001), p. 1283 [7] N.
Sakaki: Journal of Materials Processing Technology, Vol. 123 (2002), p. 264 [8] Z.H.
Li: Journal of Materials Processing Technology, Vol. 209 (2009), p. 396-407 [10] S.H.
Online since: May 2011
Authors: Samwel Manyele
Materials and Methods
Assumptions: The assumptions and literature values used to setup material balances are summarized in Table 2.
For Rp below 0.1, the PRML is very low and ranges below 5% of the raw materials bought.
Good quality raw materials (through intensive grading) and well-managed operation will reduce wastage.
J. of Food Science & Technology 45 (2010) 1755–1767
Lilly, Food Engineering Operations, Elsevier Applied Science, London, 1990
For Rp below 0.1, the PRML is very low and ranges below 5% of the raw materials bought.
Good quality raw materials (through intensive grading) and well-managed operation will reduce wastage.
J. of Food Science & Technology 45 (2010) 1755–1767
Lilly, Food Engineering Operations, Elsevier Applied Science, London, 1990
Online since: August 2019
Authors: Purnima Jain, Parul Malik, Bhasha Bhasha, Sanjeev Gautam
International Journal of Minerals, Metallurgy, and Materials 1995, 47 (12), 19–21
Journal of Materials Science 1998, 33, 2405–2412
Journal of Materials Science 2009, 44, 1934- 1951
Journal of Materials Science Letters 1999, 18, 201–203
International Journal of Refractory Metals and Hard Materials 2013, 41, 315–321
Journal of Materials Science 1998, 33, 2405–2412
Journal of Materials Science 2009, 44, 1934- 1951
Journal of Materials Science Letters 1999, 18, 201–203
International Journal of Refractory Metals and Hard Materials 2013, 41, 315–321
Online since: May 2014
Authors: Suphaphat Kwonpongsagoon, Manaporn Wongsoonthornchai
Material flow analysis (MFA) is a systematic assessment method to account, describe, and interpret material flow to achieve the understanding of flows and stocks of materials within a system defined in space and time.
Rechberger, Practical handbook of material flow analysis. lewis, Florida, 2004
Gujer, Confronting limitations: New solutions required for urban water management in Kunming City, Journal of Environmental Management. 84(2007) 49-61
Vicent, Material flow analysis adapted to an industrial area, Journal of Cleaner Production. 15(2007) 1706-1715
Hao, and Y.Shen, Study on production and mercury consumption of clinical mercury thermometers in China, Research of Environmental Sciences. 19(2006) 18-21
Rechberger, Practical handbook of material flow analysis. lewis, Florida, 2004
Gujer, Confronting limitations: New solutions required for urban water management in Kunming City, Journal of Environmental Management. 84(2007) 49-61
Vicent, Material flow analysis adapted to an industrial area, Journal of Cleaner Production. 15(2007) 1706-1715
Hao, and Y.Shen, Study on production and mercury consumption of clinical mercury thermometers in China, Research of Environmental Sciences. 19(2006) 18-21
Online since: May 2011
Authors: Zhen Fa Liu, Mei Fang Yan, Li Hui Zhang, Han Shuo Liu
Study on synergistic scale inhibition performance of the rare-earth
permanent magnetic material and polyaspartic acid
Zhenfa Liu1, a, Hanshuo Liu2,b, Lihui Zhang1,c and Meifang Yan1,d
1Institute of Energy Resources, Heibei Academy of sciences, China
2Heibei University of Technology, China
alzf63@sohu.com,beffie87.student@sina.com, czlhkxy@sohu.com, dyanmeifang525@sina.com
Keywords: rare-earth permanent magnetic material, polyaspartic acid, scale inhibition, water treatment
Abstract.
Materials and Methods Synthesis of PASP.
The production technique of PASP is simple and innoxious.The static and dynamic experimental results show that the synergistic scale inhibition effect of rare-earth permanent magnetic material and PASP is good and adapts to high hardness and rate of concentration circulating cooling water system Acknowledgements This work was supported by the Science Foundation of Hebei Province(B2007000956).
Journal of Materials Science Letters, Vol.15(1996),P. 613 [7] K W Busch, M A Busch.
Materials Performance, Vol.2(1997),P. 53
Materials and Methods Synthesis of PASP.
The production technique of PASP is simple and innoxious.The static and dynamic experimental results show that the synergistic scale inhibition effect of rare-earth permanent magnetic material and PASP is good and adapts to high hardness and rate of concentration circulating cooling water system Acknowledgements This work was supported by the Science Foundation of Hebei Province(B2007000956).
Journal of Materials Science Letters, Vol.15(1996),P. 613 [7] K W Busch, M A Busch.
Materials Performance, Vol.2(1997),P. 53
Online since: September 2011
Authors: Tan Tan Gao, Jian Hua Yuan
The PhC structure is composed of alternatively materials ABCD with , and the refractive indices (GaAs), (AlAs) surrounded by vacuum.
Vol. 31 (2010), p. 916-918 [7] Yiling Gong, Zhenyu Xu and Ruojing Zhang: Journal of Tongji University (Natural Science).
Vol. 32 (2004), p. 920-923 [8] Shufen Fang, Jisi Li, Shi Su and Hanzhuang Zhang: Journal of JilinUniversity (Science Edition).
Vol. 47 (2009), p. 98~101 [9] Xiying Ma: Journal of Lanzhou University (Natural Sciences).
Vol. 33 (2006), p. 127-130 [11] Bingshu Tang, Lili Liu, Hongxing Liu, Yanwei Zhang and Jianliang Xu: Journal of Jishou University (Natural Science Edition).
Vol. 31 (2010), p. 916-918 [7] Yiling Gong, Zhenyu Xu and Ruojing Zhang: Journal of Tongji University (Natural Science).
Vol. 32 (2004), p. 920-923 [8] Shufen Fang, Jisi Li, Shi Su and Hanzhuang Zhang: Journal of JilinUniversity (Science Edition).
Vol. 47 (2009), p. 98~101 [9] Xiying Ma: Journal of Lanzhou University (Natural Sciences).
Vol. 33 (2006), p. 127-130 [11] Bingshu Tang, Lili Liu, Hongxing Liu, Yanwei Zhang and Jianliang Xu: Journal of Jishou University (Natural Science Edition).
Online since: December 2012
Authors: Yun Hwei Shen, Yi Kuo Chang, Wun Jiun Guo, Kun Liao Chen, Jian Liang Chen
Research on utilizing Environmental Friendly Materials of Barrier Board for Particle Reduction of High-turbidity Raw Water
Jian-Liang Chen1, a, Yi-Kuo Chang2,Yun-Hwei Shen 1, Kun-Liao Chen 1,b
and Wun-Jiun Guo 1
1 Department of Resources Engineering, National Cheng Kung University, Tainan City 701, Taiwan
2 Department of Safety Health and Environmental Engineering, Central Taiwan University of Science and Technology, Taichung 406, Taiwan
a1969liang@gmail.com, b c44514451@gmail.com
Keywords: high-turbidity raw water, environmental friendly materials, barrier board treatment, particle reduction.
Chang; Journal of Environmental Engineering-ASCE, Vol.130 (12) (2004), p.1481-1487 [10] S.
Ahn: Water Science and Technology, Vol. 53 (7) (2006),p.191-197 [11] S.
K., Water Science and Technology , Vol. 50 (12) (2004), p. 245-253 [12] G.
Labonde, Journal American Water Works Association, Vol. 85 (12) (1993), p. 39-46
Chang; Journal of Environmental Engineering-ASCE, Vol.130 (12) (2004), p.1481-1487 [10] S.
Ahn: Water Science and Technology, Vol. 53 (7) (2006),p.191-197 [11] S.
K., Water Science and Technology , Vol. 50 (12) (2004), p. 245-253 [12] G.
Labonde, Journal American Water Works Association, Vol. 85 (12) (1993), p. 39-46
Online since: June 2015
Authors: P. Sengottuvel, N.R.R. Anbusagar, S. Senthamilperarasu, B. Shanmuganathan, P. Padmini
International Journal of Applied Mechanics and Materials, 2012, 159, 176-180
Journal of Materials Processing Technology, 87(1-3), 139-145
Tsai: (2001) Semi-empirical model on work removal and toolwear in Electrical Discharge Machining, Journal of Materials Processing Technology, Vol. 114 (1), pp.1-17 [9] B.H.
Tosun: (2004) A study on kerf and material removal rate in wire electrical discharge machining based on Taguchi method Journal of Materials Processing Technology, Vol. 152, pp. 316–322 [12] C.J.
Villa: (2005) Material removal rate and electrode wear study on the EDM of silicon carbide Journal of Materials Processing Technology, Vol. 164–165, pp. 889–896 [13] K.
Journal of Materials Processing Technology, 87(1-3), 139-145
Tsai: (2001) Semi-empirical model on work removal and toolwear in Electrical Discharge Machining, Journal of Materials Processing Technology, Vol. 114 (1), pp.1-17 [9] B.H.
Tosun: (2004) A study on kerf and material removal rate in wire electrical discharge machining based on Taguchi method Journal of Materials Processing Technology, Vol. 152, pp. 316–322 [12] C.J.
Villa: (2005) Material removal rate and electrode wear study on the EDM of silicon carbide Journal of Materials Processing Technology, Vol. 164–165, pp. 889–896 [13] K.
Online since: June 2014
Authors: Jun Ming Guo, Bin Li, Zhi Fang Zhang, Ming Wu Xiang, Gui Yang Liu, Ji Jun Huang, Hong Li Bai
China
3 College of Science, Honghe University, Mengzi, Yunnan,661199, P.
After the formation of molten-salt, the raw materials can be directly ignited and then combust themselves.
Experimental Synthetic Materials.
The raw materials after weighing were preheated at 200℃ for 5 min in muffle furnace to achieve the homogeneous raw mixed materials. and then placed in the muffle furnace roasting temperature calcination at 3 h can obtain the target product .The calcination temperature were 400℃, 500℃, 600℃, 700℃ .
[10] Wu Y P, Li Y X, Wan C R: Journal Of Function Materials Vol. 31 (2000),p .18-22 [11] Guo J M, Liu G Y, Wang R, Wang B S, He Y, Chen K X:Journal Of Function Materials Vol. 40 (2009)
After the formation of molten-salt, the raw materials can be directly ignited and then combust themselves.
Experimental Synthetic Materials.
The raw materials after weighing were preheated at 200℃ for 5 min in muffle furnace to achieve the homogeneous raw mixed materials. and then placed in the muffle furnace roasting temperature calcination at 3 h can obtain the target product .The calcination temperature were 400℃, 500℃, 600℃, 700℃ .
[10] Wu Y P, Li Y X, Wan C R: Journal Of Function Materials Vol. 31 (2000),p .18-22 [11] Guo J M, Liu G Y, Wang R, Wang B S, He Y, Chen K X:Journal Of Function Materials Vol. 40 (2009)