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Online since: February 2016
Authors: Zhen Ping Sun, Liang Liang Shui, Dang Yi Li, Ke Ke Chen, Wen Xian Zhu
China
3 Shanghai Urban Construction Materials Co.
Journal of Materials in Civil Engineering, 1993, 5(4):478-496
Journal of Materials Science, 2004, (39): 3319-3327
Journal of Building Materials, 2007, 10(1):97-100
Adding crumb rubber into exterior wall materials.
Journal of Materials in Civil Engineering, 1993, 5(4):478-496
Journal of Materials Science, 2004, (39): 3319-3327
Journal of Building Materials, 2007, 10(1):97-100
Adding crumb rubber into exterior wall materials.
Online since: July 2013
Authors: Niu Yi Sun, Guo Hua Wang, Min Zhang, Wei Min Shi, Lin Jun Wang, Juan Qin
The Fabrication of Fe-doped TiCoSb Thin Films by magnetron sputtering and rapid thermal annealing
Jin Qina, Niu Yi Sunb, Guo Hua Wang, Min Zhang, Wei Min Shi, and Lin Jun Wang
School of Materials Science and Engineering, Shanghai University, Shanghai 200072, China
ajuan_qin@staff.shu.edu.cn
bniuyi.good@163.com
Keywords: TiFexCo1-xSb; Thin films; Magnetron sputtering; Annealing
Abstract.
Up to now, studies on TiCoSb-based compounds are mainly focused on improving thermoelectric properties of bulk materials through doping or isoelectronic substitution [4-7].
On the other hand, in bulk materials, ZT can only be optimized by varying the charge carrier concentration.
This result is in accord with the Slack-Pauling behavior [11] and the previous reports for bulk materials [14].
Shi, Journal of Shanghai University (Natural Science) 19 (2013), p. 71-74
Up to now, studies on TiCoSb-based compounds are mainly focused on improving thermoelectric properties of bulk materials through doping or isoelectronic substitution [4-7].
On the other hand, in bulk materials, ZT can only be optimized by varying the charge carrier concentration.
This result is in accord with the Slack-Pauling behavior [11] and the previous reports for bulk materials [14].
Shi, Journal of Shanghai University (Natural Science) 19 (2013), p. 71-74
Online since: January 2011
Authors: Hui Ji Shi, Hui Chen Yu, Bin Zhong, Hong Xia Deng, Seiji Tsuruoka
Wu: Metallurgical and Materials Transactions a-Physical Metallurgy and Materials Science 27 (1996), p. 3639
[3] A.
Daniell: Journal of Biomedical Materials Research 13 (1979), p. 265 [14] W.
Bhadeshia: Metallurgical Transactions a-Physical Metallurgy and Materials Science 20 (1989), p. 1037 [16] L.
Lugscheider: Materials Science and Technology 8 (1992), p. 657 [19] R.
Waterhouse: Journal of Materials Science 18 (1983), p. 3265 [20] M.
Daniell: Journal of Biomedical Materials Research 13 (1979), p. 265 [14] W.
Bhadeshia: Metallurgical Transactions a-Physical Metallurgy and Materials Science 20 (1989), p. 1037 [16] L.
Lugscheider: Materials Science and Technology 8 (1992), p. 657 [19] R.
Waterhouse: Journal of Materials Science 18 (1983), p. 3265 [20] M.
Online since: January 2009
Authors: Zhen Lun Song, Hui Wang, Xin Zhang, Xue Dong Wu, Jian Zhong Li, Dan Dai
Anticorrosion Behaviors of Quaternary Polyethyleneimine
in Acidic Environment
Xin ZHANGa, Xuedong WU
b, Jianzhong LI c, Hui WANG,
Dan DAI, Zhenlun SONG
Ningbo Institute of Materials Technology & Engineering, Chinese Academy of Sciences,
Ningbo China 315021
a
email:zxyuzuodeyun@163.com, bemail: xdwu@nimte.ac.cn, cemail: jianzhongli@nimte.ac.cn
Keywords: Anticorrosion; Polymeric film; Polyethyleneimine; Adsorption.
This work is expected to provide some valuable information for the molecular design and applications of polymeric corrosion inhibitors in corrosion science. 2 Experimental sections 2.1 Materials and Instruments Quaternary polyethyleneimine was prepared personally according to the reference [14].
Quraishi: Corrosion Science Vol. 36 (1994), p.79 [5] M.
Zheng: Materials Chemistry and Physics Vol. 77(2002), p.655 [7] Y.
Moritz: Journal of Controlled Release Vol. 102(2005), p.737 [13] M.
This work is expected to provide some valuable information for the molecular design and applications of polymeric corrosion inhibitors in corrosion science. 2 Experimental sections 2.1 Materials and Instruments Quaternary polyethyleneimine was prepared personally according to the reference [14].
Quraishi: Corrosion Science Vol. 36 (1994), p.79 [5] M.
Zheng: Materials Chemistry and Physics Vol. 77(2002), p.655 [7] Y.
Moritz: Journal of Controlled Release Vol. 102(2005), p.737 [13] M.
Online since: August 2009
Authors: Chang He Li, Bing Heng Lu, Yu Cheng Ding, Ya Li Hou
Introduction
Grinding processes are mainly technique employed widely as a finishing and difficult-to machine
such as hardness and brittleness materials finishing.
The grinding wheel is a porous solid disk consisting of abrasive grain, bond materials and pores of irregular shapes and different sizes.
Jahanmir: Journal of Tribology ASME, Vol.123(2001), p.101-107 [2] E.
Chang, S.H.Wang, and A.Z.Szeri: Journal of manufacturing science and engineering, Vol.118(1996), p.332-338 [5] Li Changhe, Hou Yali, Xiu Shichao, et al: Key Engineering Materials, Vols. 375-376(2008),p. 449-453 [6] M.R.Schumack, Jin-Bok Chung, W.W.Schultz, et al: Transaction of the ASME, Vol.113(1991), p.190-197 [7] F.
Journal of Engineering for Industry, Vol. 114(1992), p.61-66 [8] V.K.
The grinding wheel is a porous solid disk consisting of abrasive grain, bond materials and pores of irregular shapes and different sizes.
Jahanmir: Journal of Tribology ASME, Vol.123(2001), p.101-107 [2] E.
Chang, S.H.Wang, and A.Z.Szeri: Journal of manufacturing science and engineering, Vol.118(1996), p.332-338 [5] Li Changhe, Hou Yali, Xiu Shichao, et al: Key Engineering Materials, Vols. 375-376(2008),p. 449-453 [6] M.R.Schumack, Jin-Bok Chung, W.W.Schultz, et al: Transaction of the ASME, Vol.113(1991), p.190-197 [7] F.
Journal of Engineering for Industry, Vol. 114(1992), p.61-66 [8] V.K.
Online since: February 2011
Authors: Ming Hong Sha, Jun Li, Tong Min Wang, Ting Ju Li
School of Materials Science and Engineering, Dalian University of Technology, Dalian 116085, China
2.
Introduction Round copper billet as raw materials has been used in air conditioning, refrigeration copper tube, welding material and electric wire etc.
J Li: Materials Science and Engineering A.
Incropera: International Journal of Heat and Mass Transfer.
Thomas: Metallurgical and Materials Transactions B.Vol.35B (2004), p.1151.
Introduction Round copper billet as raw materials has been used in air conditioning, refrigeration copper tube, welding material and electric wire etc.
J Li: Materials Science and Engineering A.
Incropera: International Journal of Heat and Mass Transfer.
Thomas: Metallurgical and Materials Transactions B.Vol.35B (2004), p.1151.
Online since: July 2013
Authors: Xu Hui Zhang
At the some time, with the development of modern science technology, especially the development of new materials and applications, to vigorously promote the development of sports.
The development of modern science technology makes the tennis movement vigorously reform from tennis racket materials to quality assurance, to change the past racket’s sport properties, making modern tennis racket is more aggressive, but also increases the play of tennis players.
Journal of Suzhou University (Natural science edition) 3(8):127-129 [4] Liu.
H. (2009) Biomechanics principle of tennis service technique Journal of Beijing Sport University 4(3):413-417 [5] Wang.
Journal of sports adult education 7(1):743-745
The development of modern science technology makes the tennis movement vigorously reform from tennis racket materials to quality assurance, to change the past racket’s sport properties, making modern tennis racket is more aggressive, but also increases the play of tennis players.
Journal of Suzhou University (Natural science edition) 3(8):127-129 [4] Liu.
H. (2009) Biomechanics principle of tennis service technique Journal of Beijing Sport University 4(3):413-417 [5] Wang.
Journal of sports adult education 7(1):743-745
Online since: March 2010
Authors: Yun Xian Cui, De Shun Yang, Qi Yong Zeng, Bao Yuan Sun
The masks were processed by ultra-precision wire cutting
machine with stainless steel material in order to prevent the volatilization of organic material from
polluting vacuum chamber.
Jun: International Journal of Machine Tools & Manufacture, Vol. 47 (2007), pp.793-798
Li: Journal of the Electrochemical Society, Vol. 153(2006).
Deng: Journal of Dalian University of Technology, Vol. 41 (2001), No.3, pp.275-278.
Sun: ASME, Journal of Manufacturing Science and Engineering, Vol. 42 (2006), pp.206-211. ① a ③ a ② a ④ a
Jun: International Journal of Machine Tools & Manufacture, Vol. 47 (2007), pp.793-798
Li: Journal of the Electrochemical Society, Vol. 153(2006).
Deng: Journal of Dalian University of Technology, Vol. 41 (2001), No.3, pp.275-278.
Sun: ASME, Journal of Manufacturing Science and Engineering, Vol. 42 (2006), pp.206-211. ① a ③ a ② a ④ a
Online since: May 2010
Authors: Kai Ming Wu, H.H. Wang
Hahn: International Journal of Pressure Vessels and Piping,
Vol. 85, (2008), p. 38-46
Yamazaki: International Journal of Pressure Vessels and Piping, Vol. 83, (2006), p. 63-71
Saroja: Journal of Nuclear Materials, Vol. 312, (2003), p. 199-206
Onoro: Journal of Materials Porcessing Technology, Vol. 180, (2006), p. 137-142
Svensson: Applied surface science, Vol. 87/88, (1995), p. 200-206
Yamazaki: International Journal of Pressure Vessels and Piping, Vol. 83, (2006), p. 63-71
Saroja: Journal of Nuclear Materials, Vol. 312, (2003), p. 199-206
Onoro: Journal of Materials Porcessing Technology, Vol. 180, (2006), p. 137-142
Svensson: Applied surface science, Vol. 87/88, (1995), p. 200-206
Online since: February 2014
Authors: Shao Gang Liu, Xiang Yi Guan
Solid mass conservation equation:
(1)
Solid phase momentum conservation equation
(2)
Solid phase energy conservation equation
(3)
Gas phase mass conservation equation
(4)
Gas phase momentum conservation equation
(5)
Gas phase energy conservation equation
(6)
state equation:
-gas phase;-solid phase;-pressure;-speed;-the density of the material particles;-Particle diameter;, the gas phase, particle phase concentration;-the volume fraction of gas;-the volume fraction of the particle phase; ; -internal energy;;-the
Selection of fire extinguishing bomb length diameter ratio is 3.3 3.8 4.3, specific central explosive about 1.5%,2%,2.5%, the missile shell material is glass steel, the shell of glass steel is machined groove.
Acknowledgements This work was financially supported by the Fund for the doctoral program of higher school (20102304110007) and the Natural Science Foundation for young teachers. of Harbin University of Commerce (HCUL2013003).
References [1] Zhao Fengjun, Wang Mingyu and Shu Lifu: World Forestry Research Vol.23(2010),p.39 [2] Wei maozhou, Wang keyin: Forestry Science & Technology Vol.31(2006),p.32 [3] Zhang qi, Qin bin and Bai chunhua: Chinese Journal of Energetic Materials Vol.15(2007),p.447 [4]Zhao ruicheng, Wang keyin and Wei maozhou: Science Technology and Engineering Vol.8 (2008),p.428 [5]Liu xiangjun, Shi lei and Xu xuchang: Chinese Journal of Computational Mechanics Vol. 24(2007), p.166 [6]Luo aimin,Zhang Qi and LI jian-ping: Transactions of Beijing Institute of Technology Vol.25 (2005), p.103 [7]Zhang Qi, Wei Kezhen, Luo Aimin: Defence Science Journal Vol.57(2007),p.571 [8]Zhang Qi, Lin dachao and Bai chunhua: Journal of Beijing Institute of Technology Vol.13 (2004),p.174
Selection of fire extinguishing bomb length diameter ratio is 3.3 3.8 4.3, specific central explosive about 1.5%,2%,2.5%, the missile shell material is glass steel, the shell of glass steel is machined groove.
Acknowledgements This work was financially supported by the Fund for the doctoral program of higher school (20102304110007) and the Natural Science Foundation for young teachers. of Harbin University of Commerce (HCUL2013003).
References [1] Zhao Fengjun, Wang Mingyu and Shu Lifu: World Forestry Research Vol.23(2010),p.39 [2] Wei maozhou, Wang keyin: Forestry Science & Technology Vol.31(2006),p.32 [3] Zhang qi, Qin bin and Bai chunhua: Chinese Journal of Energetic Materials Vol.15(2007),p.447 [4]Zhao ruicheng, Wang keyin and Wei maozhou: Science Technology and Engineering Vol.8 (2008),p.428 [5]Liu xiangjun, Shi lei and Xu xuchang: Chinese Journal of Computational Mechanics Vol. 24(2007), p.166 [6]Luo aimin,Zhang Qi and LI jian-ping: Transactions of Beijing Institute of Technology Vol.25 (2005), p.103 [7]Zhang Qi, Wei Kezhen, Luo Aimin: Defence Science Journal Vol.57(2007),p.571 [8]Zhang Qi, Lin dachao and Bai chunhua: Journal of Beijing Institute of Technology Vol.13 (2004),p.174