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Online since: August 2013
Authors: De Li Wu, Hong Ping He
Materials and Methods
1.1 Wastewater Quality
The raw wastewater is taken from a secondary sedimentation tank of a papermaking factory and the water is in pale yellow, the effluent quality indicators are shown in Table 1.
Chinese Journal of Papermaking, 2006, 21(3):34—37
Environmental Science, 2000, 21(4): 52-56
Journal of Hazardous Materials, 2003, 98(123): 33-50
Environmental Science, 2000, 21(3): 93~98.
Chinese Journal of Papermaking, 2006, 21(3):34—37
Environmental Science, 2000, 21(4): 52-56
Journal of Hazardous Materials, 2003, 98(123): 33-50
Environmental Science, 2000, 21(3): 93~98.
Online since: February 2016
Authors: Gyula Varga
When machining of advanced materials in order to increase theirs life time productivity and reliability [17] some researchers check or investigate of these materials machinability [18, 19] while others examined the working efficiency of cutting tools [20].
Advanced Materials Research, vols. 816-817 (2013) 1225-1230 [4] N.
Materials and Manufacturing Processes, 19 (6) (2004) 979-993 [13] G.
Advances in Applied Physics and Materials Science Congress.
Advanced Materials Research, 712-715 June. (2013) 347-351
Advanced Materials Research, vols. 816-817 (2013) 1225-1230 [4] N.
Materials and Manufacturing Processes, 19 (6) (2004) 979-993 [13] G.
Advances in Applied Physics and Materials Science Congress.
Advanced Materials Research, 712-715 June. (2013) 347-351
Online since: January 2014
Authors: Bai Chuan Ding, Ran Zhu, Qing Fang Lv
This bonded-in method has complex processes and wastes of materials.
Matrix materials of pull-out specimens are bamboo sticks lamination [8, 16] and reconstituted bamboo [17].
The mechanical properties of bamboo materials are shown in table 1.
Table 1 The mechanical properties of bamboo materials Material type Size(mm) h(mm) No.
References [1] Land and resources of the People's Republic of China ministry make No. 33 Assessment method of cultivated land occupation and compensation (Ministry of Land and Resources of the People’s Repubilc of China , China, 2006) [2] Shan Wei and Li Yushun: submitted to Forest Engineering (2008) [3] Sha Xueping: submitted to Journal of Shanghai highway (2012) [4] Yan Xiao, Chen Guo and Shan Bo: submitted to Journal of building structures (2010) [5] Wei Yang and Lv Qingfang: submitted to Construction Technology (2009) [6] Xiao Yan, Yu Liyong and Shan Bo: submitted to Journal of Natural Disasters (2009) [7] Lv Qingfang, Wei Yang and Zhang Qisheng: submitted to Research & Application of Building Materials (2008) [8] Chen Xuhe and Wang Zheng: submitted to World Bamboo and Rattan (2005) [9] Lv Yan, Cheng Heming and Yu Bin: submitted to Scientific research in Sichuan building (2006) [10] Wei Yang, Wu Gang, Zhang Qisheng et al.: submitted to Journal of civil architectural and environmental
Matrix materials of pull-out specimens are bamboo sticks lamination [8, 16] and reconstituted bamboo [17].
The mechanical properties of bamboo materials are shown in table 1.
Table 1 The mechanical properties of bamboo materials Material type Size(mm) h(mm) No.
References [1] Land and resources of the People's Republic of China ministry make No. 33 Assessment method of cultivated land occupation and compensation (Ministry of Land and Resources of the People’s Repubilc of China , China, 2006) [2] Shan Wei and Li Yushun: submitted to Forest Engineering (2008) [3] Sha Xueping: submitted to Journal of Shanghai highway (2012) [4] Yan Xiao, Chen Guo and Shan Bo: submitted to Journal of building structures (2010) [5] Wei Yang and Lv Qingfang: submitted to Construction Technology (2009) [6] Xiao Yan, Yu Liyong and Shan Bo: submitted to Journal of Natural Disasters (2009) [7] Lv Qingfang, Wei Yang and Zhang Qisheng: submitted to Research & Application of Building Materials (2008) [8] Chen Xuhe and Wang Zheng: submitted to World Bamboo and Rattan (2005) [9] Lv Yan, Cheng Heming and Yu Bin: submitted to Scientific research in Sichuan building (2006) [10] Wei Yang, Wu Gang, Zhang Qisheng et al.: submitted to Journal of civil architectural and environmental
Online since: May 2011
Authors: Xue Bian, Shao Hua Yin, Feng Yun Zhang, Wen Yuan Wu, Gan Feng Tu
Study on Leaching Process of Activation Bastnaesite by HCl Solution
BIAN Xue, YIN Shaohua, ZHANG Fengyun, WU Wenyuan, TU Ganfeng
School of Materials & Metallurgy, Northeastern University, Shenyang, Liaoning 110004, China
E-mail: bxbx80_2003@yahoo.com.cn
Keywords: Bastnaesite, activation, rare earths carbonate.
Experimental Experimental materials Representative samples of bastnaesite concentrate taken from the Mianning Sichuan deposit were crushed to 6mm and the chemical composition is shown in Table 1.
The Chinese Journal of Nonferrous Metals, 2004, S1: 21-24.
Journal of Metals, 1965, 17(8): 847
Journal of Rare Earths, 2007, 25(4):508-511.
Experimental Experimental materials Representative samples of bastnaesite concentrate taken from the Mianning Sichuan deposit were crushed to 6mm and the chemical composition is shown in Table 1.
The Chinese Journal of Nonferrous Metals, 2004, S1: 21-24.
Journal of Metals, 1965, 17(8): 847
Journal of Rare Earths, 2007, 25(4):508-511.
Online since: January 2012
Authors: Shi Sha Zhu, Li Juan Qu, Bin Tang, Wei Yuan, Quan Fu Zhang
Introduction
The theory research of ER technology is one of the hot topics of smart materials field.
It means that the macro-characteristic intensity of capture effect is related to the pressure gradient, and different ER materials have different critical value which is related to the macro-characteristic intensity of capture effect.
Acknowledgment The authors gratefully acknowledge the financial support of the National Natural Science Foundation of China under Grant 51075345.
Tao, “Structure and dynamics of dipolar fluids under strong shear,” International Journal of Modern Physics B, vol. 17, 2003, pp. 3057-3063
[8] Annop Limsimarat and Boonchai Techaumnat, “Dynamic simulation using a multipolar model of particles under dielectrophoretic force,” Journal of Electrostatics, vol. 65, 2007, pp. 672–679
It means that the macro-characteristic intensity of capture effect is related to the pressure gradient, and different ER materials have different critical value which is related to the macro-characteristic intensity of capture effect.
Acknowledgment The authors gratefully acknowledge the financial support of the National Natural Science Foundation of China under Grant 51075345.
Tao, “Structure and dynamics of dipolar fluids under strong shear,” International Journal of Modern Physics B, vol. 17, 2003, pp. 3057-3063
[8] Annop Limsimarat and Boonchai Techaumnat, “Dynamic simulation using a multipolar model of particles under dielectrophoretic force,” Journal of Electrostatics, vol. 65, 2007, pp. 672–679
Online since: July 2012
Authors: Bin Ba Yan, Pin Wang, Si Man Liu
Experimental method
1.1 Materials and reagents
Montmorillonite is obtained from the Mianyang Longhu Technology Co., Ltd.
References [1]Zhang mgeng, Xie zhiyong, Shenshaohua, et al:China nou-metallic mining industry herald Vol.1(2002),p17(In Chinese) [2] Wen pei, Wu wenfie, Zhao lihui:Technology&development of chemical industry Vol. 37 (2008), p 27(In Chinese) [3] Yi Facheng, Yang Jian, Li Hujie, et al:China mining magazine Vol.14 (2005), p 35(in Chinese) [4] Huang Yanlin, Li Yingtang, Wu Bin:Acta petrologicaet mineralogical Vol.19 (2000), p 88(In Chinese) [5] Li caixia, Ren ruichen, Dong qinguo, eta:Journal of liaoning technical university Vol.28 (2009), p 649(In Chinese) [6]Ye ling, Xiao zijin: Express information of mining industry Vol.1 (2002), p58(In Chinese) [7] Yang Feng, Liu Kun, Wang Xi-min: Contemporary chemical industry Vol.36 (2007), p 8 (In Chinese) [8]Vicente M A, Belver C, Trujillano R, et al: Applied Catalysis,Vol.267 (2004), p 47 [9]Phlippopoulos C, Gangas N:Journal of Materials Sciences Vol.15 (1996), p 1940 [10]Yu Jian-ying, Wang Xiao, Zhang Heng-long, etal: Journal of Wuhan
University of Technology Vol.33 (2011), p32(In Chinese) [11]Lu Xian-jun, Wang Gui-fang, Ma Shao-jian, etal: Journal of China University of Mining & Technology Vol.40(2011), p 252(In Chinese) [12]Jin Wang.
A Thesis submitted to the university of jinan in partial fulfilment of the requirements for the degree of master of Engineering,2008(In Chinese) [13]Zhen guang, Gao mang-lai, Luo zhong-xin, etal:Journal of Petrochemical Universities Vol.24 (2011), p6(In Chinese)
References [1]Zhang mgeng, Xie zhiyong, Shenshaohua, et al:China nou-metallic mining industry herald Vol.1(2002),p17(In Chinese) [2] Wen pei, Wu wenfie, Zhao lihui:Technology&development of chemical industry Vol. 37 (2008), p 27(In Chinese) [3] Yi Facheng, Yang Jian, Li Hujie, et al:China mining magazine Vol.14 (2005), p 35(in Chinese) [4] Huang Yanlin, Li Yingtang, Wu Bin:Acta petrologicaet mineralogical Vol.19 (2000), p 88(In Chinese) [5] Li caixia, Ren ruichen, Dong qinguo, eta:Journal of liaoning technical university Vol.28 (2009), p 649(In Chinese) [6]Ye ling, Xiao zijin: Express information of mining industry Vol.1 (2002), p58(In Chinese) [7] Yang Feng, Liu Kun, Wang Xi-min: Contemporary chemical industry Vol.36 (2007), p 8 (In Chinese) [8]Vicente M A, Belver C, Trujillano R, et al: Applied Catalysis,Vol.267 (2004), p 47 [9]Phlippopoulos C, Gangas N:Journal of Materials Sciences Vol.15 (1996), p 1940 [10]Yu Jian-ying, Wang Xiao, Zhang Heng-long, etal: Journal of Wuhan
University of Technology Vol.33 (2011), p32(In Chinese) [11]Lu Xian-jun, Wang Gui-fang, Ma Shao-jian, etal: Journal of China University of Mining & Technology Vol.40(2011), p 252(In Chinese) [12]Jin Wang.
A Thesis submitted to the university of jinan in partial fulfilment of the requirements for the degree of master of Engineering,2008(In Chinese) [13]Zhen guang, Gao mang-lai, Luo zhong-xin, etal:Journal of Petrochemical Universities Vol.24 (2011), p6(In Chinese)
Online since: February 2013
Authors: Chun Rong Wang, Qin Yi Ren, Sha Chang, Min Ye
It is well known that the current efficiency and energy consumption of electrochemical oxidation process strongly depends on anode material.
Material and methods Chemical reagents.
Udert: submitted to Electrochemistry Communications (2010) [13] Guohua Zhao, Yaning Pang, Lei Liu, Junxia Gao and Baoying Lv: submitted to Journal of Hazardous Materials (2010) [14] M.
Comninellis: submitted to Journal of Electroanalytical Chemistry (2001) [15] Yadong Zhu, Ming Chang and Ling Wang: submitted to Journal of Tianjin University of Technology (2008).
In Chinese [16] Fengying Shen, Ming Chang, Qi Chen and Faliang Chen: submitted to Journal of Tianjin University of Technology (2008).
Material and methods Chemical reagents.
Udert: submitted to Electrochemistry Communications (2010) [13] Guohua Zhao, Yaning Pang, Lei Liu, Junxia Gao and Baoying Lv: submitted to Journal of Hazardous Materials (2010) [14] M.
Comninellis: submitted to Journal of Electroanalytical Chemistry (2001) [15] Yadong Zhu, Ming Chang and Ling Wang: submitted to Journal of Tianjin University of Technology (2008).
In Chinese [16] Fengying Shen, Ming Chang, Qi Chen and Faliang Chen: submitted to Journal of Tianjin University of Technology (2008).
Online since: April 2012
Authors: Shlomo Ta'asan, Katayun Barmak, Anthony D. Rollett, Richard Sharp, Scott Roberts, Terry Shyu, Tik Sun, Bo Yao, David Kinderlehrer, Kevin Coffey, Eva Eggeling
Grain Growth and the Puzzle of its Stagnation in Thin Films:
A Detailed Comparison of Experiments and Simulations
Katayun Barmak1,a, Eva Eggeling2,b, Richard Sharp3,c, Scott Roberts1,d,
Terry Shyu1,e, Tik Sun4,f, Bo Yao4,g, Shlomo Ta’asan3,h,
David Kinderlehrer3,i, Anthony Rollett1,j, and Kevin Coffey4,k
1Materials Research Science and Engineering Center and the Department of Materials Science and Engineering, Carnegie Mellon University, 5000 Forbes Avenue, Pittsburgh, PA 15213, USA
2Fraunhofer Austria Research GmbH, 8010 Graz, Austria
3Materials Research Science and Engineering Center and the Department of Mathematical Sciences, Carnegie Mellon University, 5000 Forbes Avenue, Pittsburgh 15213, USA
4Advanced Materials Processing and Analysis Center, University of Central Florida, 4000 Central Florida Boulevard, Orlando, FL 32816, USA
akatayun@andrew.cmu.edu, beva.eggeling@fraunhofer.at, crwsharp@cmu.edu, dsr2e@cmu.edu, etshyu@andrew.cmu.edu, fti857626@pegasus.cc.ucf.edu, gbo555252
Thompson, Annual Review of Materials Science, Vol. 20 (1990), p. 245, and Vol. 30 (2000), p. 159, and Solid State Physics, Vol. 55 (2001) p. 269, and references therein
Barmak, Journal of Applied Physics Vol. 84 (1998) p. 5843
Ta’asan, SIAM Journal on Scientific Computation, Vol. 28 (2006) p. 1694
Mullins, Journal of Applied Physics, Vol. 28 (1957) p. 333
Thompson, Annual Review of Materials Science, Vol. 20 (1990), p. 245, and Vol. 30 (2000), p. 159, and Solid State Physics, Vol. 55 (2001) p. 269, and references therein
Barmak, Journal of Applied Physics Vol. 84 (1998) p. 5843
Ta’asan, SIAM Journal on Scientific Computation, Vol. 28 (2006) p. 1694
Mullins, Journal of Applied Physics, Vol. 28 (1957) p. 333
Online since: June 2021
Authors: Bebe Adrian Olei, Ionel Dănuț Savu, Nicuşor Alin Sîrbu, Sorin Vasile Savu, Mirela Ciornei
The material became more viscous and the bonding of the successive layers was improved.
All 4 specimens proved similar complex viscosity, a small difference was recorded for the material heated by the normal resistive heater (green line), which showed a more viscous material.
Based on the DSC thermal analysis, the material suffered the following modifications: · A decreasing with 5-8% of the material stiffness was recorded when the IR lamp was introduced.
Rapid Prototyp J 14:173–179 [12] Pudek, P, FDM 3D Printing Technology in Manufacturing Composite Elements, Archives of Metallurgy and Materials 58(4), DOI: 10.2478/amm-2013-0186 [13] Melnikova, R., Ehrmann, A., Finsterbusch, K., 3D printing of textile-based structures by Fused Deposition Modelling (FDM) with different polymer materials, IOP Conference Series: Materials Science and Engineering, Volume 62, 2018 [14] Morîntale, E., et.al., Use of heat flows from DSC curve for calculation of specific heat of the solid materials, Ohysics AUC, vol. 23, 89-94 (2013) [15] Zhang CM, et al., Thermal, mechanical and rheological properties of polylactide toughened by expoxidized natural rubber, Mater.
[16] Lee, C.S., Yeh, G.S.Y., Caddell R.M. (1972) Mater SciEng 10:241 [17] Henderson, J.B., Emmerich, W.D., Polymer characterization using thermo mechanical analysis, Journal of Thermal Analysis, Vol. 37 (1991)1825-1831, DOI 10.1007/BF01912213
All 4 specimens proved similar complex viscosity, a small difference was recorded for the material heated by the normal resistive heater (green line), which showed a more viscous material.
Based on the DSC thermal analysis, the material suffered the following modifications: · A decreasing with 5-8% of the material stiffness was recorded when the IR lamp was introduced.
Rapid Prototyp J 14:173–179 [12] Pudek, P, FDM 3D Printing Technology in Manufacturing Composite Elements, Archives of Metallurgy and Materials 58(4), DOI: 10.2478/amm-2013-0186 [13] Melnikova, R., Ehrmann, A., Finsterbusch, K., 3D printing of textile-based structures by Fused Deposition Modelling (FDM) with different polymer materials, IOP Conference Series: Materials Science and Engineering, Volume 62, 2018 [14] Morîntale, E., et.al., Use of heat flows from DSC curve for calculation of specific heat of the solid materials, Ohysics AUC, vol. 23, 89-94 (2013) [15] Zhang CM, et al., Thermal, mechanical and rheological properties of polylactide toughened by expoxidized natural rubber, Mater.
[16] Lee, C.S., Yeh, G.S.Y., Caddell R.M. (1972) Mater SciEng 10:241 [17] Henderson, J.B., Emmerich, W.D., Polymer characterization using thermo mechanical analysis, Journal of Thermal Analysis, Vol. 37 (1991)1825-1831, DOI 10.1007/BF01912213
Online since: September 2016
Authors: Nikolay A. Feoktistov, D.A. Gorlenko, Konstantin N. Vdovin
Wang, Effects of phosphorus and sulfur on the thermoplasticity of high manganese austenitic steel, Materials Science and Engineering A. 21-22 (2010) 5648-5653
Hejazi, The fracture and plastic deformation of aluminum alloyed Hadfield steels, Materials Science and Engineering A. 513-514 (2009) 72-76
Lee, Stacking fault energy and plastic deformation of fully austenitic high manganese steels: Effect of Al addition, Materials Science and Engineering A. 16-17 (2010) 3651-3661
Twinning activities in high-Mn austenitic steels under high-velocity compressive loading, Materials Science and Engineering A. 648 (2015) 104-112
Xu, Thermodynamics of nanocrystilline formation in surface layer of Hadfield steel by shot peening, Materials Science and Engineering A. 445-446 (2007) 392-397
Hejazi, The fracture and plastic deformation of aluminum alloyed Hadfield steels, Materials Science and Engineering A. 513-514 (2009) 72-76
Lee, Stacking fault energy and plastic deformation of fully austenitic high manganese steels: Effect of Al addition, Materials Science and Engineering A. 16-17 (2010) 3651-3661
Twinning activities in high-Mn austenitic steels under high-velocity compressive loading, Materials Science and Engineering A. 648 (2015) 104-112
Xu, Thermodynamics of nanocrystilline formation in surface layer of Hadfield steel by shot peening, Materials Science and Engineering A. 445-446 (2007) 392-397