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Online since: January 2007
Authors: Ersin Bahceci, Mehmet Turker, Yusuf Ozcatalbas
Ren, and J.K.M Kwok: Journal of Materials Processing Technology,
Vol. 89-90 (1999), p. 591-596
[2] Y.M.
Yue: Journal of Materials Processing Technology, Vol. 91 (1999), p. 231-235 [3] I.E Clark,: Machining Guide, IDR3 (1994), p.135-138 [4] Q.
Zehua: Journal of Materials Processing Technology, Vol. 100 (2000), p.194-199 [5] K.
Feng and W.M Lau: Journal of Materials Processing Technology, Vol. 102 (2000), p. 25-29 [7] E.
Bhattacharayya: Journal of Materials Processing Technology Vol.140 (2003) p. 711-716
Yue: Journal of Materials Processing Technology, Vol. 91 (1999), p. 231-235 [3] I.E Clark,: Machining Guide, IDR3 (1994), p.135-138 [4] Q.
Zehua: Journal of Materials Processing Technology, Vol. 100 (2000), p.194-199 [5] K.
Feng and W.M Lau: Journal of Materials Processing Technology, Vol. 102 (2000), p. 25-29 [7] E.
Bhattacharayya: Journal of Materials Processing Technology Vol.140 (2003) p. 711-716
Online since: November 2011
Authors: Heng Lin Yang, Zhong Ian Tian, Li Song Zhang, Xiang Zhen Yan
Face cleat and butt cleat in coal are both well developed, and the hole is large compared with coal mass, so coal can be regarded as Hoek-Brown materials.
[5] Hoek E, Brown E T, "Practical estimates of rock mass strength", International Journal of Rock Mechanics and Mining Sciences, vol.34, pp.1165-1186, August 1997
[11] A.Younessi, V.Rasouli “A fracture sliding potential index for wellbore stability analysis” International Journal of Rock Mechanics and Mining Sciences, vol. 47, pp. 927-939, September 2010
[12] Saeed Salehi, Geir Hareland, Runar Nygaard, "Numerical simulations of wellbore stability in under-balanced-drilling wells" Journal of Petroleum Science and Engineering, vol. 72, pp. 229-235, June 2010
[14] Reem Freij-Ayoub, Chee Tan, Ben Clennell, Bahman Tohidi, Jinhai Yang, "A wellbore stability model for hydrate bearing sediments" Journal of Petroleum Science and Engineering, vol. 57,pp. 209-220, May 2007
[5] Hoek E, Brown E T, "Practical estimates of rock mass strength", International Journal of Rock Mechanics and Mining Sciences, vol.34, pp.1165-1186, August 1997
[11] A.Younessi, V.Rasouli “A fracture sliding potential index for wellbore stability analysis” International Journal of Rock Mechanics and Mining Sciences, vol. 47, pp. 927-939, September 2010
[12] Saeed Salehi, Geir Hareland, Runar Nygaard, "Numerical simulations of wellbore stability in under-balanced-drilling wells" Journal of Petroleum Science and Engineering, vol. 72, pp. 229-235, June 2010
[14] Reem Freij-Ayoub, Chee Tan, Ben Clennell, Bahman Tohidi, Jinhai Yang, "A wellbore stability model for hydrate bearing sediments" Journal of Petroleum Science and Engineering, vol. 57,pp. 209-220, May 2007
Online since: November 2013
Authors: Feng Lan Han, Rong Zhao
All of the materials are mixed in blender for 3min.
Xu, et al: Chinese Journal of Environmental Engineering, Vol. 6 (2012),p3757 [4] Y.S.Zhang and S.Wei,et al: Journal of Materials.
Zaharaki, et al: Applied Clay Science, Vol.(2012), p1
Construction and Building Materials, Vol. 40(2013),p 1002
Ahmari, et al: Construction and Building Materials.
Xu, et al: Chinese Journal of Environmental Engineering, Vol. 6 (2012),p3757 [4] Y.S.Zhang and S.Wei,et al: Journal of Materials.
Zaharaki, et al: Applied Clay Science, Vol.(2012), p1
Construction and Building Materials, Vol. 40(2013),p 1002
Ahmari, et al: Construction and Building Materials.
Analytical Solution on the Relation of Technique Parameters for Continuous Casting with Heated Mould
Online since: September 2011
Authors: Rui Long, Shi Zhong Wei, Feng Ni
Analytical solution on the relation of technique parameters for continuous casting with heated mould
Feng Ni1, a, Shi Zhong Wei2, b and Rui Long2, c
1School of Materials Science and Engineering, Henan University of Science and Technology, Luoyang 471003, China
2Henan Engineering Research Center for Wear of Material, Henan University of Science and Technology, Luoyang 471003, China
annifeng@sina.com, bwm@mail.haust.edu.cn, clongrui@mail.haust.edu.cn
Keywords: Continuous casting, heated mould, thermal modeling, analytic solution, technique parameters.
It is also used for commercial production for tin-bismuth solder materials, complex cross-sectional tubes, di-metal wires and metal covered optical fibers [2,3].
The formed metal materials can be cast with thin wall and complex cross-sectional geometries.
Motoyasu: Journal of Materials Science Vol. 30(1995), p. 5438 [2] G.
Lisbôa: Materials Science and Technology, Vol.11(1995), p. 1169 [4] G.
It is also used for commercial production for tin-bismuth solder materials, complex cross-sectional tubes, di-metal wires and metal covered optical fibers [2,3].
The formed metal materials can be cast with thin wall and complex cross-sectional geometries.
Motoyasu: Journal of Materials Science Vol. 30(1995), p. 5438 [2] G.
Lisbôa: Materials Science and Technology, Vol.11(1995), p. 1169 [4] G.
Online since: June 2010
Authors: Hui Ji Shi, Jian Lu, Guo Dong Zhang, Zhao Xi Wang, Bao Ping Qu, Xian Bo Zhao
A considerable amount of research has been conducted to understand the damaging effect of
hydrogen in materials [5,6].
References [1] R.K.Dayal, N.parvathavarthini, Sadhana, Vol.28(2003), p.431 [2] R.D.Sisson, G.Fuller, Wire Forming Technology International, Vol.20 (2007) p.20 [3] Z.X.Wang, H.J.Shi, Nuclear engineering and design Vol.238(2008) p.3186 [4] T.Nambu, K.Shimizu, Journal of Alloys and Compounds Vol.446(2007) p.588 [5] R.A.Siddiqui, H.A.Abdullah, Journal of Materials processing technology Vol.170(2005) p.430 [6] N.F.Rhines, Trans.ASM Vol.48(1956) p.919 [7] J.S.
Ha, E.Fleury, International Journal of Pressure Vessels and Piping, Vol.75 (1998) p.707 [8] S.
Timoshenko, Strength of materials: II.
Chung, Fatigue Fract Engng Mater Struct Vol.22 (1999) p.889 [10] J.Kameda, X.Mao, Journal of materials science Vol.27(1992) p.983 [11] G.M.V.Pressouyre, C.G.Interrante, Current solution to hydrogen problems in steels, ASM, Metal Park, OH, 1982, p.18
References [1] R.K.Dayal, N.parvathavarthini, Sadhana, Vol.28(2003), p.431 [2] R.D.Sisson, G.Fuller, Wire Forming Technology International, Vol.20 (2007) p.20 [3] Z.X.Wang, H.J.Shi, Nuclear engineering and design Vol.238(2008) p.3186 [4] T.Nambu, K.Shimizu, Journal of Alloys and Compounds Vol.446(2007) p.588 [5] R.A.Siddiqui, H.A.Abdullah, Journal of Materials processing technology Vol.170(2005) p.430 [6] N.F.Rhines, Trans.ASM Vol.48(1956) p.919 [7] J.S.
Ha, E.Fleury, International Journal of Pressure Vessels and Piping, Vol.75 (1998) p.707 [8] S.
Timoshenko, Strength of materials: II.
Chung, Fatigue Fract Engng Mater Struct Vol.22 (1999) p.889 [10] J.Kameda, X.Mao, Journal of materials science Vol.27(1992) p.983 [11] G.M.V.Pressouyre, C.G.Interrante, Current solution to hydrogen problems in steels, ASM, Metal Park, OH, 1982, p.18
Online since: August 2014
Authors: Yu Chun Zhai, Xiao Yi Shen, Hong Mei Shao, Zhi Meng Wang
Preparation of Na2S from Na2SO4 Using CO
Xiaoyi Shen 1,a, Hongmei Shao 1,b, Zhimeng Wang1,c, Yuchun Zhai1,a
1School of Materials and Metallurgy, Northeastern University, Shenyang, Liaoning 110004, China
ashenxy@smm.neu.edu.cn, bshm-0816@163.com, cwangzhimeng823@163.com
Key words: Na2SO4·7H2O crystallization, Hexagonal wurtzite structure, Hydrothermal method, precipitant
Abstract: Na2SO4 solution that was obtained from ZnSO4 solution after Zn2+ precipitation using Na2CO3 was used as raw material.
Experiments Materials and apparatus Na2SO4 solution that was obtained from ZnSO4 solution after Zn2+ precipitation using Na2CO3 was used as raw material.
Acknowledgement This work was financially supported by the Project Supported by National Natural Science Foundation of China No. 51204054 and the Fundamental Research Funds for the Central Universities N110402012.
Journal of Kunming University of Science and Technology, 36 (2011): 62-66.
Journal of Inner Mongolia university of technology, 24 (2005): 109-113.
Experiments Materials and apparatus Na2SO4 solution that was obtained from ZnSO4 solution after Zn2+ precipitation using Na2CO3 was used as raw material.
Acknowledgement This work was financially supported by the Project Supported by National Natural Science Foundation of China No. 51204054 and the Fundamental Research Funds for the Central Universities N110402012.
Journal of Kunming University of Science and Technology, 36 (2011): 62-66.
Journal of Inner Mongolia university of technology, 24 (2005): 109-113.
Online since: December 2010
Authors: Chun De Jin, Jie Wang Ye, Song Li, Li Liu, Jie Wang Ye
Physical and mechanical properties of laccase treated bamboo particle boards which made from surplus materials of bamboo flooring process were investigated.
Therefore, the ways to use the surplus materials from the processing of bamboo flooring will decide the raw material utilization ratio and economic benefit.
Fig.1 XRD of three kinds of bamboo particle XRD analysis Wood materials was a natural organic complex which composed by several high polymers.
Z305054), The Innovative Team Foundation of Zhejiang Forestry University (Grant No. 2006B03) and Key laboratory open object of ministry of education about biologic materials science and technology in 2004(04-12).
Journal of Northwest Forestry University, 22 (2): 169-171 [5] Capani F, Aguirre F, et al.
Therefore, the ways to use the surplus materials from the processing of bamboo flooring will decide the raw material utilization ratio and economic benefit.
Fig.1 XRD of three kinds of bamboo particle XRD analysis Wood materials was a natural organic complex which composed by several high polymers.
Z305054), The Innovative Team Foundation of Zhejiang Forestry University (Grant No. 2006B03) and Key laboratory open object of ministry of education about biologic materials science and technology in 2004(04-12).
Journal of Northwest Forestry University, 22 (2): 169-171 [5] Capani F, Aguirre F, et al.
Online since: October 2012
Authors: Dyi Cheng Chen, Fung Ling Nian, Jiun Ru Shiu, Wen Hsuan Ku
Movahhedy, Die design for the radial forging process using 3D FEM, Journal of Materials Processing Technology, 182 (2007) 534-539
Lu, Experimental study on process of precision forging of an aluminum-alloy rotor, Journal of Materials Processing Technology, 170 (2005) 412-415
Hsu, The influence of die shape on the flow deformation of extrusion forging, Journal of Materials Processing Technology, 124 (2002) 67-76
Moon, Process analysis of multistage forging by using finite element method, Journal of Materials Processing Technology, 187-188 (2007) 586-590
Petzov, Microstructure evolution during metal forming processes, Computational Materials Science, 28 (2003) 563–573
Lu, Experimental study on process of precision forging of an aluminum-alloy rotor, Journal of Materials Processing Technology, 170 (2005) 412-415
Hsu, The influence of die shape on the flow deformation of extrusion forging, Journal of Materials Processing Technology, 124 (2002) 67-76
Moon, Process analysis of multistage forging by using finite element method, Journal of Materials Processing Technology, 187-188 (2007) 586-590
Petzov, Microstructure evolution during metal forming processes, Computational Materials Science, 28 (2003) 563–573
Online since: November 2012
Authors: Shu Xi Zhang, Zhi Long Xiu, En Min Feng, Hong Li Xiao
The concentrations of all the materials which is in the process change according to the time.
And all the concentration change from zero to the correlative maximum concentration, and (3)It is considered that the materials concentration in the cell membrane and out of the membrane in the glycerol metabolic process, including the inhibition influence about the intermediate on the two main enzymes
The concentrations of each material are .
It shows that it is necessary to increase some intracellular materials in microbial batch fermentation process.
Journal of Shandong University(Natural Science), 2009, 7(44): 71-76 [10] GONG Zhao-hua, FENG En-min, XIU Zhi-long.
And all the concentration change from zero to the correlative maximum concentration, and (3)It is considered that the materials concentration in the cell membrane and out of the membrane in the glycerol metabolic process, including the inhibition influence about the intermediate on the two main enzymes
The concentrations of each material are .
It shows that it is necessary to increase some intracellular materials in microbial batch fermentation process.
Journal of Shandong University(Natural Science), 2009, 7(44): 71-76 [10] GONG Zhao-hua, FENG En-min, XIU Zhi-long.