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Online since: October 2014
Authors: Hai Jun Zhou, Xiao Qi Chen, Xiao Lei Zhang, Yan Tao Li, Dan Zheng, Ying Cheng, Chao Liu
Experimental
Materials.
Çelikok:European Journal of Pharmaceutics and Biopharmaceutics Vol. 57(2004), P. 279 [3] E.
Abdelbary: International Journal of Pharmaceutics, Vol. 468(2014), P. 97 [4] H.
Chai: Chinese Journal of Pharmaceuticals,Vol.6(2008), P. 432 [5] X.Q.Chen, C.Lliu and Y.
Li: Applied Mechanics ang Materials,Vol. 483(2014),P. 56
Çelikok:European Journal of Pharmaceutics and Biopharmaceutics Vol. 57(2004), P. 279 [3] E.
Abdelbary: International Journal of Pharmaceutics, Vol. 468(2014), P. 97 [4] H.
Chai: Chinese Journal of Pharmaceuticals,Vol.6(2008), P. 432 [5] X.Q.Chen, C.Lliu and Y.
Li: Applied Mechanics ang Materials,Vol. 483(2014),P. 56
Online since: October 2007
Authors: Małgorzata Lewandowska, Kinga Wawer
Optimization of Particle Size and Distribution by Hydrostatic Extrusion
Malgorzata Lewandowska1, a, Kinga Wawer1,b
1
Warsaw University of Technology Faculty of Materials Science and Engineering, Woloska 141,
02-507 Warsaw, Poland
a
malew@inmat.pw.edu.pl, bkingac@inmat.pw.edu.pl
Keywords: Hydrostatic extrusion, nanostructured materials, processing, microstructure, second
phase particles
Abstract.
SPD processed materials exhibit very high mechanical strength [10-11] which can not be achieved using conventional techniques of materials fabrication and thus are prospective for structural and functional applications.
Materials and Methods The materials used in the present study were 2017 and 43300 aluminium alloys.
The materials in initial state had the form of 20 mm rods.
Kurzydłowski: Journal of Microscopy 223 (2006) p. 272-274 [10] R.Z.
SPD processed materials exhibit very high mechanical strength [10-11] which can not be achieved using conventional techniques of materials fabrication and thus are prospective for structural and functional applications.
Materials and Methods The materials used in the present study were 2017 and 43300 aluminium alloys.
The materials in initial state had the form of 20 mm rods.
Kurzydłowski: Journal of Microscopy 223 (2006) p. 272-274 [10] R.Z.
Online since: January 2010
Authors: Denis Solas, Richard Penelle, Thierry Baudin, Sorphal Chhann
Experimental results
The texture of the deformed materials was measured by X-ray diffraction at different levels through
the thickness.
Journal of Mechanical Sciences, vol. 43 (2001), p. 1997 [3] F.
Journal of Plasticity, vol. 10 (1994), p. 535 [9] L.
Materials Science and Engineering A, vol. 337 (2002), p. 241 [10] S.
Science forum, vol. 550 (2007), p.551 [11] S.
Journal of Mechanical Sciences, vol. 43 (2001), p. 1997 [3] F.
Journal of Plasticity, vol. 10 (1994), p. 535 [9] L.
Materials Science and Engineering A, vol. 337 (2002), p. 241 [10] S.
Science forum, vol. 550 (2007), p.551 [11] S.
Online since: November 2012
Authors: Masami Shibata, Chihiro Mochizuki, Takashi Senga
It is possible to give the material the new function, when various material surfaces are coated with such metallic glass film.
Chen, Materials Science Engineering, 23 (1976) 151-154
Shen, Materials Science and Engineering A, 448 (2007) 15-19
Qiu, Journal of Alloys and Compounds, 452 (2008) 268-272
Inoue, Journal of Alloys and Compounds, 483 (2009) 616–619
Chen, Materials Science Engineering, 23 (1976) 151-154
Shen, Materials Science and Engineering A, 448 (2007) 15-19
Qiu, Journal of Alloys and Compounds, 452 (2008) 268-272
Inoue, Journal of Alloys and Compounds, 483 (2009) 616–619
Online since: October 2010
Authors: Hai Chuan Wang, Gui Wang, Peng Hong, Zhi You Liao, Xin Li, Jie Lie, Shi Jun Wang, Matthew S. Dargusch
For high melting point metals or alloys, such as iron and steel materials, it is more difficult to apply the pulsing electric currents to the melts, and therefore few investigations have been conducted [7,8].
Pure iron and graphite have been used to make the Fe-0.5%C alloy by mixing the raw materials and heating to 1550oC in a ceramic fiber Muffle furnace.
Dabo: Journal of Crystal Growth Vol. 216 (2000), p.495 [2] L.N.
Balasubramanian: Materials and Design Vol: 29 (2008), p.1459 [4] M.
Li: Materials Science, Vol.13 (2007), p.120 [8] J.
Pure iron and graphite have been used to make the Fe-0.5%C alloy by mixing the raw materials and heating to 1550oC in a ceramic fiber Muffle furnace.
Dabo: Journal of Crystal Growth Vol. 216 (2000), p.495 [2] L.N.
Balasubramanian: Materials and Design Vol: 29 (2008), p.1459 [4] M.
Li: Materials Science, Vol.13 (2007), p.120 [8] J.
Online since: February 2012
Authors: Xiao Zhong Deng, Jian Xin Su, Xin Jie Jia
Narendran: International Journal of Machine Tools & Manufacture, Vol.40 (2000), p.401
Lin: Journal of Materials Processing Technology, Vol.209 (2009), p.4395
[4] L.Gao,Y.Zeng and A.G.Dong:Progress in Natural Science, Vol.18(2008),p.1173
[6] O.Zarei, M.Fesanghary, B.Farshi, etc: Journal of Materials Processing Technology, Vol.209 (2009), p.2386
Ren: Advanced Materials Research, Vols.328-330(2011), p.90.
Lin: Journal of Materials Processing Technology, Vol.209 (2009), p.4395
[4] L.Gao,Y.Zeng and A.G.Dong:Progress in Natural Science, Vol.18(2008),p.1173
[6] O.Zarei, M.Fesanghary, B.Farshi, etc: Journal of Materials Processing Technology, Vol.209 (2009), p.2386
Ren: Advanced Materials Research, Vols.328-330(2011), p.90.
Online since: March 2015
Authors: Shao Qun Jiang, Ze Hua Wang, Ze Hua Zhou, Gang Wang, Zong Shu Li, Jiang Bo Cheng
Introduction
Perovskite manganites La1-xMxMnO3 (M= Sr, Ca or Ba) are regarded as a promising candidate for smart variable emittance thermal control materials [1-3].
Zhou: Journal of Rare Earths Vol. 29, No. 1 (2011), p. 83 [3] D.
Xuan: International Journal of Thermophysics Vol. 32 (2011), p. 2127 [4] X.
Cao: Materials Letters Vol. 62 (2008), p. 2914 [6] D.
Dhahri: Journal of Magnetism and Magnetic Materials Vol. 311 (2007), p. 512
Zhou: Journal of Rare Earths Vol. 29, No. 1 (2011), p. 83 [3] D.
Xuan: International Journal of Thermophysics Vol. 32 (2011), p. 2127 [4] X.
Cao: Materials Letters Vol. 62 (2008), p. 2914 [6] D.
Dhahri: Journal of Magnetism and Magnetic Materials Vol. 311 (2007), p. 512
Online since: July 2011
Authors: Anders Engström, Lars Höglund, Johan Bratberg, Qing Cheng, Paul Mason
Warnken, Materials Science and Engineering A 397 (2005) 385-390
Tancret, Computational Materials Science 41 (2007) 13-19
Shinozaki, Journal of Materials Processing Technology 209 (2009) 416-425
Schmücker, Materials Science and Engineering A 384 (2004) 162-171
Henry, Materials Science and Engineering: A 407 (2005) 135-146
Tancret, Computational Materials Science 41 (2007) 13-19
Shinozaki, Journal of Materials Processing Technology 209 (2009) 416-425
Schmücker, Materials Science and Engineering A 384 (2004) 162-171
Henry, Materials Science and Engineering: A 407 (2005) 135-146
Online since: March 2021
Authors: Mary Donnabelle L. Balela, Kenneth C. Fermano
Balela: IOP Conference Series: Materials Science and Engineering Vol. 201 (2017), pp. 1-5
[10] X.
Dunn: MATERIALS SCIENCE Vol. 343 (2014), pp. 1210-1211 [12] M.
Series: Materials Science and Engineering Vol. 201 (2017), pp. 1-5 [15] L.
Shen: Journal of Materials Chemistry Vol. 22 (2012), p. 21647-21653 [17] L.
Jiang: Journal of Environmental Sciences Vol. 51 (2017), pp. 248-255 [18] A.
Dunn: MATERIALS SCIENCE Vol. 343 (2014), pp. 1210-1211 [12] M.
Series: Materials Science and Engineering Vol. 201 (2017), pp. 1-5 [15] L.
Shen: Journal of Materials Chemistry Vol. 22 (2012), p. 21647-21653 [17] L.
Jiang: Journal of Environmental Sciences Vol. 51 (2017), pp. 248-255 [18] A.
Online since: March 2014
Authors: Yong Liu, Jia Li, Yu Tian, Jian Liu, Jie Fan
[4] Ding, B., Wang, M., Wang, X., Yu, J., and Sun, G. (2010), "Electrospun Nanomaterials for Ultrasensitive Sensors", Materials Today, Vol. 13, No. 11, pp. 16-27
[11] Lin, J., Wang, X., Ding, B., Yu, J., Sun, G., and Wang, M. (2012), "Biomimicry Via Electrospinning", Critical Reviews In Solid State And Materials Sciences, Vol. 37, No. 2, pp. 94-114
[16] Liu, Y., Ren, Z.F., and He, J.H. (2010), "Bubble Electrospinning Method for Preparation of Aligned Nanofibre Mat", Materials Science and Technology, Vol. 26, No. 11, pp. 1309-1312
[22] Wang, L., He, J.H., Xu, L., and Mo, L.F. (2013), "Detachment of a Charged Nano-Jet for Fabrication of Nanoporous Materials", Journal of Nano Research, Vol. 23, pp. 117-124
[23] Wang, X., Ding, B., Sun, G., Wang, M., and Yu, J. (2013), "Electro-Spinning/Netting: A Strategy for the Fabrication of Three-Dimensional Polymer Nano-Fiber/Nets", Progress In Materials Science, Vol. 58, No. 8, pp. 173-1243
[11] Lin, J., Wang, X., Ding, B., Yu, J., Sun, G., and Wang, M. (2012), "Biomimicry Via Electrospinning", Critical Reviews In Solid State And Materials Sciences, Vol. 37, No. 2, pp. 94-114
[16] Liu, Y., Ren, Z.F., and He, J.H. (2010), "Bubble Electrospinning Method for Preparation of Aligned Nanofibre Mat", Materials Science and Technology, Vol. 26, No. 11, pp. 1309-1312
[22] Wang, L., He, J.H., Xu, L., and Mo, L.F. (2013), "Detachment of a Charged Nano-Jet for Fabrication of Nanoporous Materials", Journal of Nano Research, Vol. 23, pp. 117-124
[23] Wang, X., Ding, B., Sun, G., Wang, M., and Yu, J. (2013), "Electro-Spinning/Netting: A Strategy for the Fabrication of Three-Dimensional Polymer Nano-Fiber/Nets", Progress In Materials Science, Vol. 58, No. 8, pp. 173-1243