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Online since: September 2013
Authors: Ya Feng Li, Wen Jing Zhang
Materials and Methods
Experimental setup and materals.
Water Science and Technology, 2001, 44(1): 153-160
Journal of Hazardous Materials, 2009, 166(1):336-334
Chinese Journal of Environmental Engineering, 2007, 1(2):39-42.
Chinese Journal of Biotechnology, 2009, 25(3): 406-412.
Water Science and Technology, 2001, 44(1): 153-160
Journal of Hazardous Materials, 2009, 166(1):336-334
Chinese Journal of Environmental Engineering, 2007, 1(2):39-42.
Chinese Journal of Biotechnology, 2009, 25(3): 406-412.
Online since: December 2018
Authors: Stefano Grimozzi, Claudia Rocchi, Giuseppe Napoli, Andrea Di Schino
Li, Journal of iron and steel research international 13(2006) 62-66
Kenny, Journal of material Science 35 (2000) 4803-4808
Edward: Journal of Chemical Education 4 (1970) 261-270
Science and Technology 19 (2004) 119-121
Science and Technology 36 (2001) 593-601.
Kenny, Journal of material Science 35 (2000) 4803-4808
Edward: Journal of Chemical Education 4 (1970) 261-270
Science and Technology 19 (2004) 119-121
Science and Technology 36 (2001) 593-601.
Online since: March 2017
Authors: Li Xia Ying, Chun Jie Zhang, Xiao Hui Wang, Xiu Peng Lv
Acknowledgements
The authors acknowledge the financial support from the National Nature Science Fund of China (No.51305090).
[6] WEI Wei,SUN Yuan,WEI Kun-xia,DU Qing-bo,HU Jing Preparation and Properties of Cu/Carbon Graphite Composites for Mechanical Seal, Journal of Materials Science and Engineering.,01 (2014) 15-19
Journal Of Applied Polymer Science. 127 (2013) 3186-3191
Journal of Nanoscience & Nanotechnology. 14 (2014) 6809-6815P
[10] WANG J, FENG Y, LI S, et al, Influence of graphite content on sliding wear characteristics of CNTs-Ag-G electrical contact materials, Transactions of Nonferrous Metals Society of China. 19 (2009) 113-118P.
[6] WEI Wei,SUN Yuan,WEI Kun-xia,DU Qing-bo,HU Jing Preparation and Properties of Cu/Carbon Graphite Composites for Mechanical Seal, Journal of Materials Science and Engineering.,01 (2014) 15-19
Journal Of Applied Polymer Science. 127 (2013) 3186-3191
Journal of Nanoscience & Nanotechnology. 14 (2014) 6809-6815P
[10] WANG J, FENG Y, LI S, et al, Influence of graphite content on sliding wear characteristics of CNTs-Ag-G electrical contact materials, Transactions of Nonferrous Metals Society of China. 19 (2009) 113-118P.
Online since: May 2007
Authors: Guo Wei Pan, Qing Hu Chen, Yong Hong Ruan
The difference in energy,
ND
BP
ND
BP
ND
EEE
,0
,1
1 −=∆ , yields the excitation energy, which is related to optical absorption of
bipolarons in semiconductor materials [13].
Gossard: science Vol. 309 (2005), p. 2180 [2] Q.H.
Altanhan: The European Physical Journal B Vol. 27 (2002), p. 517 [7] V.K.
Z., Xu: The European Physical Journal B Vol. 44 (2005), p. 15 [9] W.J.
Huybrechts: Journal of Physics C: Solid State Phys.
Gossard: science Vol. 309 (2005), p. 2180 [2] Q.H.
Altanhan: The European Physical Journal B Vol. 27 (2002), p. 517 [7] V.K.
Z., Xu: The European Physical Journal B Vol. 44 (2005), p. 15 [9] W.J.
Huybrechts: Journal of Physics C: Solid State Phys.
Online since: January 2014
Authors: Noorsyakirah Abdullah, Nurazilah Mohd Zainon, Ahmad Hafiz Zulkifly, Norazlan Roslani, Mohd Afian Omar
Moreover, this process also exhibit the defects and tolerence limitations of the implants and not suitable for the high melting point materials.
This will provide an excellent basis for discussing the choice of manufacturing process, material to be used and the adaptability of the process and materials to the mass production.
TF1208D168 , Science Fund grant no. 03-03-02-SF0124 and SIRIM Bhd References [1] R.M.
Innovative Materials Solution Inc, Pennsylvania, 1997
Davies, P.F.Messer and B.Ellis, Journal of Materials Processing Technology 113: 477-481, 2001 [5] Standard Test Methods for Metal Powder and Powder Metallurgy Products, MPIF, Edition, Princeton, NJ , 1992 [6] ISO/EN 10993-5: biological evaluation of medical devices – part 5 : Test for Cyctotoxicity: in-vitro Method [7] Zulkifly , A.H.
This will provide an excellent basis for discussing the choice of manufacturing process, material to be used and the adaptability of the process and materials to the mass production.
TF1208D168 , Science Fund grant no. 03-03-02-SF0124 and SIRIM Bhd References [1] R.M.
Innovative Materials Solution Inc, Pennsylvania, 1997
Davies, P.F.Messer and B.Ellis, Journal of Materials Processing Technology 113: 477-481, 2001 [5] Standard Test Methods for Metal Powder and Powder Metallurgy Products, MPIF, Edition, Princeton, NJ , 1992 [6] ISO/EN 10993-5: biological evaluation of medical devices – part 5 : Test for Cyctotoxicity: in-vitro Method [7] Zulkifly , A.H.
Online since: June 2011
Authors: Dao Bin Luo, Jian Ke Liu
Introduction
The absorption factor is an important physicalquantity in material science,especially in photovoltaic solar cell[1-4].
Santbergen, R.J.C. van Zolingen: Solar Energy Materials & Solar Cells Vol. 92(2008) ,P.432
[2] R.Santbergen,J.M.Goud,M.Zeman: Solar Energy Materials & Solar Cells Vol. 94 (2010) ,P.715
[3] Zhixun Ma, Xianbo Liao , Gonglin Kong: Materials Letters Vol. 42(2000),P.367
Matsumura: Solar Energy Materials & Solar Cells Vol. 90(2006) ,P.1527
Santbergen, R.J.C. van Zolingen: Solar Energy Materials & Solar Cells Vol. 92(2008) ,P.432
[2] R.Santbergen,J.M.Goud,M.Zeman: Solar Energy Materials & Solar Cells Vol. 94 (2010) ,P.715
[3] Zhixun Ma, Xianbo Liao , Gonglin Kong: Materials Letters Vol. 42(2000),P.367
Matsumura: Solar Energy Materials & Solar Cells Vol. 90(2006) ,P.1527
Online since: February 2022
Authors: Fan Zhu, Lei Zhang, Yu Feng Wang, Zi Min Fan
Research Progress in Thermal Conductivity of Polymer Matrix Composites
Zhu Fan1,a, Fan Zimin1,b*, Zhang Lei1,c and Wang Yufeng1,d
1School of Materials Science and Engineering, Xi’an University of Science and Technology, Xi’an, 710054, China
a3202540061@qq.com, bfanzm1212@xust.edu.cn, czhanglei5954@163.com, d670310618@qq.com
Keywords: polymer-based thermal conductive material; thermal conductivity mechanism; thermal conductivity factor
Abstract.
Traditional thermal conductivity materials include metal, inorganic and carbon materials.
Metal materials are poor in chemical corrosion resistance and insulation performance, inorganic materials have higher processing costs, and carbon materials have poor mechanical properties.
Zhou, Thermal Conductive Polymer Materials[M], National Defense Industry Press, 2014, pp. 256-257. ], and only composite materials with high thermal conductivity fillers (such as CNTs, GNSs, etc.) exist.
The higher the thermal conductivity of fillers, the stronger the thermal conductivity of the composite materials.
Traditional thermal conductivity materials include metal, inorganic and carbon materials.
Metal materials are poor in chemical corrosion resistance and insulation performance, inorganic materials have higher processing costs, and carbon materials have poor mechanical properties.
Zhou, Thermal Conductive Polymer Materials[M], National Defense Industry Press, 2014, pp. 256-257. ], and only composite materials with high thermal conductivity fillers (such as CNTs, GNSs, etc.) exist.
The higher the thermal conductivity of fillers, the stronger the thermal conductivity of the composite materials.
Online since: December 2013
Authors: M.H. Maslan, M.A. Sheikh, S. Arun
Table 1 gives the elastic properties of these materials.
Materials Properties.
Archard: Journal of Applied Physics Vol. 24 (1953), p. 981 [8] N.M.
Nemati: Materials Science and Engineering Vol. 516 (2009), p. 235-247
Pentz: International Journal of Fatigue Vol. 32 (2010), p. 815
Materials Properties.
Archard: Journal of Applied Physics Vol. 24 (1953), p. 981 [8] N.M.
Nemati: Materials Science and Engineering Vol. 516 (2009), p. 235-247
Pentz: International Journal of Fatigue Vol. 32 (2010), p. 815
Online since: April 2005
Authors: Cun You Wu, Yuichiro Murakami, Kensuke Sassa, Kazuhiko Iwai, Shigeo Asai
Kawasaki: Journal of Chromatography Vol.151 (1978), p.95
[2] M.
Tanaka: Composites Science and Technology Vol.64 (2004), p.819 [3] K.
Asai: Materials transactions, JIM Vol.44 (2003), p.1133 [4] M.
Asai: Materials transactions, JIM, Vol.44 (2003), p.285 [5] M.
Sahni: Acta metallurgica Vol.32 (1984), p.783 [6] Stephane A.Tedey, Michel Nardin, Didier Bernache-Assolant, Christian Rey, Philippe Delannoy, Laurent Sedel, Pierre J.Marie: Journal of Biomedical Materials Research Vol.50 (2000), p.353 [7] H.Morikawa, K.Sassa and S.Asai: Materials Transactions, JIM Vol.39 (1998), p.814 [8] Koji Inoue, Tomotaka Marukawa, Kensuke Sassa, Yoshiyuki Yokogawa, Yoshio Sakka, Masazumi Okido, Shigeo Asai: Key Engineering Materials Vol.240-242 (2003), p.513 [9] Kensuke Kuroda, Ryoichi Ichino, Masazumi Okido, Osamu Takai: Journal of Biomedical Materials Research Vol.61 (2002), p. 354 [10] Gengwei Jiang, Donghu Shi: Journal of Biomedical Materials Research (Applied Biomaterials) Vol.43 (1998), p.77 Fig.4 SEM images of samples obtained from the heat substrate method in an aqueous solution with and without a magnetic field and schematic views showing crystal orientation 3.0µm 6.0µm 20.0 µm B=0T B=12T B=12T
Tanaka: Composites Science and Technology Vol.64 (2004), p.819 [3] K.
Asai: Materials transactions, JIM Vol.44 (2003), p.1133 [4] M.
Asai: Materials transactions, JIM, Vol.44 (2003), p.285 [5] M.
Sahni: Acta metallurgica Vol.32 (1984), p.783 [6] Stephane A.Tedey, Michel Nardin, Didier Bernache-Assolant, Christian Rey, Philippe Delannoy, Laurent Sedel, Pierre J.Marie: Journal of Biomedical Materials Research Vol.50 (2000), p.353 [7] H.Morikawa, K.Sassa and S.Asai: Materials Transactions, JIM Vol.39 (1998), p.814 [8] Koji Inoue, Tomotaka Marukawa, Kensuke Sassa, Yoshiyuki Yokogawa, Yoshio Sakka, Masazumi Okido, Shigeo Asai: Key Engineering Materials Vol.240-242 (2003), p.513 [9] Kensuke Kuroda, Ryoichi Ichino, Masazumi Okido, Osamu Takai: Journal of Biomedical Materials Research Vol.61 (2002), p. 354 [10] Gengwei Jiang, Donghu Shi: Journal of Biomedical Materials Research (Applied Biomaterials) Vol.43 (1998), p.77 Fig.4 SEM images of samples obtained from the heat substrate method in an aqueous solution with and without a magnetic field and schematic views showing crystal orientation 3.0µm 6.0µm 20.0 µm B=0T B=12T B=12T
Online since: April 2014
Authors: Fabian Schongen, Fritz Klocke, Daniel Heinen, Kristian Arntz, Yuan Liu, Vladimir Bäcker, Björn Feldhaus
The investigations showed that a laser alloying of the selected hot working steel delivers best results within the selected materials.
The investigations were carried out for the above mentioned base materials.
The results show that all of the three materials can in principle be laser cladded.
All of the demonstration parts, except demonstration part 2, were manufactured including all selected base materials.
Journal of Materials Processing Technology 1, 2004, p. 35–42 [3] Engel, U.: Prediction of tool failure from a probabilistic point of view, Journal of Materials Processing Technology 42, 1994, p. 1–13 [4] Blum, C.; Roli, A.: Metaheuristics in combinatorial optimization: Overview and conceptual comparison, ACM Comput.
The investigations were carried out for the above mentioned base materials.
The results show that all of the three materials can in principle be laser cladded.
All of the demonstration parts, except demonstration part 2, were manufactured including all selected base materials.
Journal of Materials Processing Technology 1, 2004, p. 35–42 [3] Engel, U.: Prediction of tool failure from a probabilistic point of view, Journal of Materials Processing Technology 42, 1994, p. 1–13 [4] Blum, C.; Roli, A.: Metaheuristics in combinatorial optimization: Overview and conceptual comparison, ACM Comput.