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Online since: June 2017
Authors: Zhi Shen
Chinese journal of materials research 27(4)( 2013) 337-341
Experimental study on hot deformation behavior and microstructure evolution of aluminum alloy 6061[J], Transactions of materials and heat treatment 32(6) (2011) 51-57
Journal of Plasticity Engineering 14(6) (2007) 130-133
Materials science and engineering A 505(2009):116-119
Journal of plasticity engineering 19(3) (2012) 88-93.
Experimental study on hot deformation behavior and microstructure evolution of aluminum alloy 6061[J], Transactions of materials and heat treatment 32(6) (2011) 51-57
Journal of Plasticity Engineering 14(6) (2007) 130-133
Materials science and engineering A 505(2009):116-119
Journal of plasticity engineering 19(3) (2012) 88-93.
Online since: December 2025
Authors: Helmut Takahiro Uchida, Makoto Ryo Harada, Tomohiro Hayashi, Taichi Nakamura
The technique using the investigated material affected by ion flux can also be applied to visualize the surface voltage distribution of textile materials.
Surface voltage is a parameter introduced to describe the electrical properties of textile materials.
The results of this study are useful for interpreting experimental data and characterizing textile materials, and can be used to evaluate the withstand voltage and half-life as indicators for various materials.
In: Nanotube Superfiber Materials, Elsevier 2019 pp. 263–311
[7] Stankutė, R., Grinevičiūtė, D., Gutauskas, M., Žebrauskas, S., Varnaitė, S, Evaluation of Electrostatic Properties of Fiber-forming, Polymers Materials Science 16 (1) (2010) 72–75
Surface voltage is a parameter introduced to describe the electrical properties of textile materials.
The results of this study are useful for interpreting experimental data and characterizing textile materials, and can be used to evaluate the withstand voltage and half-life as indicators for various materials.
In: Nanotube Superfiber Materials, Elsevier 2019 pp. 263–311
[7] Stankutė, R., Grinevičiūtė, D., Gutauskas, M., Žebrauskas, S., Varnaitė, S, Evaluation of Electrostatic Properties of Fiber-forming, Polymers Materials Science 16 (1) (2010) 72–75
Online since: October 2011
Authors: Chang Qing Dong, Da Long Jiang, Qiang Lu, Zhi Bo Zhang
Methods
Materials.
The six different kinds of prepared fly ash materials were put into the Muffle furnace (GW-300C) for 1h at the temperature of 700 ºC.
On this machine, a special mold was used to measure the shearing force of materials [9].
Furthermore, the prepared materials were put into Muffle furnace for an 1 hour’s burning at the temperature of 700 ºC.
Araki: Research Journal of Poultry Sciences, 3 (2010), 11 [10] Fumiyuki Kobayashi: Food science and technology research, 16 (2010), 175 [11] Dzieciol M. and Trzeszczynski J.: Journal of Applied Polymer Science, 77 (2000), 1894 [12] S.
The six different kinds of prepared fly ash materials were put into the Muffle furnace (GW-300C) for 1h at the temperature of 700 ºC.
On this machine, a special mold was used to measure the shearing force of materials [9].
Furthermore, the prepared materials were put into Muffle furnace for an 1 hour’s burning at the temperature of 700 ºC.
Araki: Research Journal of Poultry Sciences, 3 (2010), 11 [10] Fumiyuki Kobayashi: Food science and technology research, 16 (2010), 175 [11] Dzieciol M. and Trzeszczynski J.: Journal of Applied Polymer Science, 77 (2000), 1894 [12] S.
Online since: October 2008
Authors: Serena Best, J.H. Robinson
JH Robinson a, SM Best b
Department of Materials Science and Metallurgy, University of Cambridge, New Museum's Site,
Pembroke Street, Cambridge, CB2 3QZ
a
jhr37@cam.ac.uk, b smb51@cam.ac.uk
Keywords: Hydroxyapatite, carbonate, scaffold
Abstract
Precipitation routes for HA production result in the formation of suspensions of nano-scale
hydroxyapatite particles in water.
Journal of Materials Science, 2001. 36: p. 3061-3066. 2.
Journal of Materials Science: Materials in Medicine, 2001. 12: p. 181-188. 4.
Journal of Biomedical Materials Research, 2002. 59(4): p. 697-708. 5.
Journal of Materials Science: Materials in Medicine, 1998. 9(12): p. 779-783.
Journal of Materials Science, 2001. 36: p. 3061-3066. 2.
Journal of Materials Science: Materials in Medicine, 2001. 12: p. 181-188. 4.
Journal of Biomedical Materials Research, 2002. 59(4): p. 697-708. 5.
Journal of Materials Science: Materials in Medicine, 1998. 9(12): p. 779-783.
Online since: March 2012
Authors: Yuan Rui Wang, Guo Jun Qiang, Feng Juan Liu
Liu, J.E.Zhou and A.Larbot:Journal of Materials Processing Technology Vol.189(2007), p. 379-383
[3] W.W.Wu , Q.Y.Jiang: Materials Letters Vol.60(2006),p.2791-2794
[4] M.
Sato, H.Harada, and S.Morito: Applied Surface Science Vol.256 (2010),p.4497-4501 [5] M.
Crnjak Orel: Journal of the European Ceramic Society Vol.28 (2008),p.2915-2921 [6] S.J.Chena, L.H.
Lia and X.T.Chen: Journal of Crystal Growth Vol.252(2003), p.184-189 [7] C.S.Lin, C.C.Hwang and W.H.Lee: Materials Science and Engineering B Vol.140(2007),p. 31- 37
[8] C.L.Kuo, C.L.Wang and H.H.Ko: Ceramics International Vol.36(2010),p.693- 698 [9] O.Acarbas, E.Suvacı and A.Dogan: Ceramics International Vol.33( 2007), p.537-542 [10] K.C.Song , Y.Kang: Materials Letters Vol.42(2000), p.283-289 [11] T.Wang, Z.N.Ma and F.Xu: Electrochemistry Communications Vol.5.(2003),p.599-602 [12] S.Li, X.L.Qiao and J.G.Chen:Journal of Crystal Growth Vol.289(2006),p.151-156 [13] H.Yang , S.D.Han and L.Wang: Materials Chemistry and Physics Vol.56(1998),p.153-156 [14] F.Davar , F.Mohandes and M.S.Niasari.: Polyhedron Vol.29(2010) , p.3132-3136 [15] C.Cobianu, C.Savaniu and O.Buiu: Sensors and Actuators B Vol.43(1997),p.114-120.
Sato, H.Harada, and S.Morito: Applied Surface Science Vol.256 (2010),p.4497-4501 [5] M.
Crnjak Orel: Journal of the European Ceramic Society Vol.28 (2008),p.2915-2921 [6] S.J.Chena, L.H.
Lia and X.T.Chen: Journal of Crystal Growth Vol.252(2003), p.184-189 [7] C.S.Lin, C.C.Hwang and W.H.Lee: Materials Science and Engineering B Vol.140(2007),p. 31- 37
[8] C.L.Kuo, C.L.Wang and H.H.Ko: Ceramics International Vol.36(2010),p.693- 698 [9] O.Acarbas, E.Suvacı and A.Dogan: Ceramics International Vol.33( 2007), p.537-542 [10] K.C.Song , Y.Kang: Materials Letters Vol.42(2000), p.283-289 [11] T.Wang, Z.N.Ma and F.Xu: Electrochemistry Communications Vol.5.(2003),p.599-602 [12] S.Li, X.L.Qiao and J.G.Chen:Journal of Crystal Growth Vol.289(2006),p.151-156 [13] H.Yang , S.D.Han and L.Wang: Materials Chemistry and Physics Vol.56(1998),p.153-156 [14] F.Davar , F.Mohandes and M.S.Niasari.: Polyhedron Vol.29(2010) , p.3132-3136 [15] C.Cobianu, C.Savaniu and O.Buiu: Sensors and Actuators B Vol.43(1997),p.114-120.
Online since: October 2011
Authors: Denis P. Dowling, J.N. Barry
Journal of biomedical materials research, 2001. 58(5): p. 570-592
Materials Science and Engineering A, 2003. 360(1-2): p. 70-84
Journal of biomedical materials research, 1995. 29(1): p. 19-24
Journal of Materials Science: Materials in Medicine, 1990. 1(4): p. 233-238
Journal of Materials Science Letters, 1997. 16(4): p. 335-337.
Materials Science and Engineering A, 2003. 360(1-2): p. 70-84
Journal of biomedical materials research, 1995. 29(1): p. 19-24
Journal of Materials Science: Materials in Medicine, 1990. 1(4): p. 233-238
Journal of Materials Science Letters, 1997. 16(4): p. 335-337.
Online since: December 2016
Authors: Ahmad Majdi Abdul-Rani, Subramaniam Krishnan, T.V.V.L.N. Rao, T. Nagarajan
SMA materials are known by their aptitude to recover its original form when undergone suitable thermal changes.
Rani, "Review of Current Development of Pneumatic Artificial Muscle," Journal of Applied Sciences, vol. 11, pp. 1749-1755, 2011
Molfino, "Recent advances in nonlinear control technologies for shape memory alloy actuators," Journal of Zhejiang University SCIENCE A, vol. 8, pp. 818-829, 2007
Anson, "Shape memory alloys–medical applications," Materials World, vol. 7, pp. 745-747, 1999
Massalas, "Identification of 1D and 2D Preisach models for ferromagnets and shape memory alloys," International journal of engineering science, vol. 40, pp. 2235-2247, 2002
Rani, "Review of Current Development of Pneumatic Artificial Muscle," Journal of Applied Sciences, vol. 11, pp. 1749-1755, 2011
Molfino, "Recent advances in nonlinear control technologies for shape memory alloy actuators," Journal of Zhejiang University SCIENCE A, vol. 8, pp. 818-829, 2007
Anson, "Shape memory alloys–medical applications," Materials World, vol. 7, pp. 745-747, 1999
Massalas, "Identification of 1D and 2D Preisach models for ferromagnets and shape memory alloys," International journal of engineering science, vol. 40, pp. 2235-2247, 2002
Online since: October 2012
Authors: Kai Liao, Yun Xin Wu
Stresses around V-notch are obviously smaller than those around D-notch, and we suppose that it is because materials around V-notch which introduces intense stress concentration firstly yield under intensely increasing thermal stresses.
Acknowledgements This work was financially supported by Guangxi Natural Science Foundation Program (2012GXNSFBA053150).
References [1] HU Shao-qiu, ZHANG Hui, YANG Li-bin, et al.. : Natural Science Journal of Xiangtan University Vol. 6 (2004), p. 66(in Chinese) [2] Michael B.
Edwards: International Journal of Pressure Vessels and Piping, 86(2009):126-131.
Vol. 86(2009), p. 126 [5] LIAO Kai1, WU Yun-xin, GONG Hai: Transactions of Materials andHeat Treatment Vol. 30(2009), p. 197(in Chinese) [6] KE Ying-lin, DONG Hui-yu: The Chinese Journal of Nonferrous Metal Vol. 14(2004), p. 639(in Chinese)
Acknowledgements This work was financially supported by Guangxi Natural Science Foundation Program (2012GXNSFBA053150).
References [1] HU Shao-qiu, ZHANG Hui, YANG Li-bin, et al.. : Natural Science Journal of Xiangtan University Vol. 6 (2004), p. 66(in Chinese) [2] Michael B.
Edwards: International Journal of Pressure Vessels and Piping, 86(2009):126-131.
Vol. 86(2009), p. 126 [5] LIAO Kai1, WU Yun-xin, GONG Hai: Transactions of Materials andHeat Treatment Vol. 30(2009), p. 197(in Chinese) [6] KE Ying-lin, DONG Hui-yu: The Chinese Journal of Nonferrous Metal Vol. 14(2004), p. 639(in Chinese)
Online since: May 2007
Authors: Jin Shan Zhang, Yong Jun Xue, You Jun Guo, Chun Xiang Xu, Wei Liang
Acknowledgement
Projects supported by National Natural Science Foundation of China (No. 50571073) and Natural
Science Foundation of Shanxi Province (No. 20051052)
Reference
[1] LI Zhi-qiang, XU Zhou, LI Xiao-ping, WANG Shuo, Materials Review, 2002, 16(2): 9-11
[2] TSAI A P, AKIHISA I, TSUYOSHI M, Journal of Materials Science letters, 1987, 6(12):1403-1405
[7] LEE S M, KIM B H, KIM S H, FLEURY E, KIM W T, KIM D H., Materials Science and Engineering, 2000, 294-296:93-98
[9] ELINA H S, TUOMO T, Materials Chemistry and Physics 2004, 85(2-3): 383-395
[14] DONG Chuang, Scripta Metallweica et Materialia, 1995, 33(2):239-243 [15] DONG Chuang, Chinese Journal of Materials Research, 1994, 8(6):481-490.
[2] TSAI A P, AKIHISA I, TSUYOSHI M, Journal of Materials Science letters, 1987, 6(12):1403-1405
[7] LEE S M, KIM B H, KIM S H, FLEURY E, KIM W T, KIM D H., Materials Science and Engineering, 2000, 294-296:93-98
[9] ELINA H S, TUOMO T, Materials Chemistry and Physics 2004, 85(2-3): 383-395
[14] DONG Chuang, Scripta Metallweica et Materialia, 1995, 33(2):239-243 [15] DONG Chuang, Chinese Journal of Materials Research, 1994, 8(6):481-490.
Online since: October 2013
Authors: Xian Zhang Feng, Yan Mei Cui, Li Hong Yu, Liang Ji Chen, Zhi Qiang Jiang, Jun Wei Cheng
International Journal of Mechanical Sciences, 1998, 40(9):887-899
Materials processing technology, 2000, 102(3):70-77
Journal of Software, 2011, 6(1):72-77
Journal of Materials Processing Technology,2000, 103: 267-275
Fatigue & Fracture of Engineering Materials and Structures.
Materials processing technology, 2000, 102(3):70-77
Journal of Software, 2011, 6(1):72-77
Journal of Materials Processing Technology,2000, 103: 267-275
Fatigue & Fracture of Engineering Materials and Structures.