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Online since: October 2011
Authors: Wang Jing Ma, Zhan Jiang Zhang, Jin Pei Li, Liang Zhuan Wu
In order to explore new materials with better performance and functionality [1], many efforts have been made in manipulating the particles on nanometer scale [2].
Silver carboxylates, as one kind of organic/inorganic hybrid materials, have been used as precursors for the preparation of silver nanoparticles [18,19].
Experimental Section Materials and Apparatuses.
Mulik, “Synthesis and characterization of Ag/PVA nanocomposite by chemical reduction method,” Materials Chemistry and Physics., 2005, vol. 93, pp. 117-121
Rogers, “Chemistry of Photothermographic Imaging Materials.II,” Journal of imaging science and technology., 1999, vol. 43, pp. 517-520
Silver carboxylates, as one kind of organic/inorganic hybrid materials, have been used as precursors for the preparation of silver nanoparticles [18,19].
Experimental Section Materials and Apparatuses.
Mulik, “Synthesis and characterization of Ag/PVA nanocomposite by chemical reduction method,” Materials Chemistry and Physics., 2005, vol. 93, pp. 117-121
Rogers, “Chemistry of Photothermographic Imaging Materials.II,” Journal of imaging science and technology., 1999, vol. 43, pp. 517-520
Online since: July 2020
Authors: Norihan Yahya, Azman Kasim, Nurulhuda Mohammad Yusoff, Azhan Hashim, Nurul Huda Afrizal
The raw materials are in powder form.
Journal of Electronic Materials, 43 (11), 4023-4032
International Conference on Materials Science and Technology, 73, 1-4
Materials Chemistry and Physics, 217, 519-526
Materials Research Bulletin, 45 (9), 1165-1170
Journal of Electronic Materials, 43 (11), 4023-4032
International Conference on Materials Science and Technology, 73, 1-4
Materials Chemistry and Physics, 217, 519-526
Materials Research Bulletin, 45 (9), 1165-1170
Online since: May 2006
Authors: Uilame Umbelino Gomes, Antonio Eduardo Martinelli, Rubens Maribondo Nascimento, Carlos Alberto Paskocimas, Ricardo Peixoto Suassuna Dutra
Mixtures containing different
contents residue and clayed materials were prepared.
With that in mind, research groups have worked towards introducing sludge as raw materials to industrial processes in the manufacture of a variety of components including building and sealing materials.
Acknowledgments The authors wish to acknowledge the Materials Science and Engineering Graduate Program (PPGCEM) from the Federal University of Rio Grande do Norte (UFRN) for its support, Prof.
Tay: ACI Materials Journal, v.84, n.5, p.358-364, 1987
Wang: Construction and Building Materials, v.19, n.8, p.627-633, 2005
With that in mind, research groups have worked towards introducing sludge as raw materials to industrial processes in the manufacture of a variety of components including building and sealing materials.
Acknowledgments The authors wish to acknowledge the Materials Science and Engineering Graduate Program (PPGCEM) from the Federal University of Rio Grande do Norte (UFRN) for its support, Prof.
Tay: ACI Materials Journal, v.84, n.5, p.358-364, 1987
Wang: Construction and Building Materials, v.19, n.8, p.627-633, 2005
Online since: February 2022
Authors: Kacim Hadjadj, Lakhdar Hachani, Mohamed Filali
AIMS Materials Science, 7(1), 116
Engineering science and technology, an international journal, 20(4), 1324-1333.Ashok, A., et al. (2019).
Journal of Hazardous Materials, 403, 123443
International Journal of Mechanical Sciences, 105704
International journal of thermal sciences, 49(6), 1031-41
Engineering science and technology, an international journal, 20(4), 1324-1333.Ashok, A., et al. (2019).
Journal of Hazardous Materials, 403, 123443
International Journal of Mechanical Sciences, 105704
International journal of thermal sciences, 49(6), 1031-41
Online since: July 2013
Authors: Wen Yan Shan, Guang Wei Zhu, De Dong Hu
Shan1, 2, c
1College of Electromechanical Engineering Qingdao University of Science and Technology, Qingdao, 266061, China
2Shandong Provincial Key Laboratory of Polymer Material Advanced Manufacturing Technology, Qingdao University of Science & Technology
ahudedong@126.com, bxiaoxiaosmart@163.com, cshanwenyan@163.com
Keywords: Rotating packed bed; Gas pressure drop; Count-flow; Cross-flow; Correlation
Abstract.
Rotating packed bed is a new high efficient equipment for multiphase flow transference, it has been widely used in chemical separation and preparation of nano-materials.
Introduction Rotating packed bed (Abbreviation for RPB) is a new high efficient equipment for multiphase flow transference, it has been widely used in chemical separations and preparations of nano-materials.
Chemical Engineering Science. 56 (2001), p. 587 [8] H.W.
Science & Technology in Chemical Industry. 12(2004), p. 12 [18] W.Z.
Rotating packed bed is a new high efficient equipment for multiphase flow transference, it has been widely used in chemical separation and preparation of nano-materials.
Introduction Rotating packed bed (Abbreviation for RPB) is a new high efficient equipment for multiphase flow transference, it has been widely used in chemical separations and preparations of nano-materials.
Chemical Engineering Science. 56 (2001), p. 587 [8] H.W.
Science & Technology in Chemical Industry. 12(2004), p. 12 [18] W.Z.
Online since: September 2003
Authors: X.M. Cheng, Xia Wan Wu, T.Q. Chen, Lian Meng Zhang
Experimental
The experimental materials were SiO2 (vitreous silica) and industrial-pure aluminum with a purity
of 0.99.
References [1] Noboru Y, Atsushi K and Shoji T: Materials Transactions, JIM, Vol. 41 No.3 (2000), p. 399
[2] William C and Harrigan J: Materials Science and Engineering, A 244 (1998), p. 75
Shen: Chinese Journal of Materials Research, Vol. 9 No.5 (1995), p. 473
Huang: Materials Science & Engineering, Vol. 15 No.1 (1997), p. 6
References [1] Noboru Y, Atsushi K and Shoji T: Materials Transactions, JIM, Vol. 41 No.3 (2000), p. 399
[2] William C and Harrigan J: Materials Science and Engineering, A 244 (1998), p. 75
Shen: Chinese Journal of Materials Research, Vol. 9 No.5 (1995), p. 473
Huang: Materials Science & Engineering, Vol. 15 No.1 (1997), p. 6
Online since: December 2010
Authors: Bert Verlinden, Hugo Ricardo Zschommler Sandim, Marc Seefeldt, Liang Zhu
Sandim 2,b, Marc Seefeldt 1,c, Bert Verlinden 1,d
1Katholieke Universiteit Leuven, Department of Metallurgy and Materials Engineering, Kasteelpark Arenberg 44, B 3001 Heverlee, Belgium
2University of Sao Paulo, Dep. of Materials Engineering, P.O.
Barnett, Materials Science and Engineering a-Structural Materials Properties Microstructure and Processing, 2004. 386(1-2): p. 244-253. 4.
Kuo, J.C., et al., Journal of Materials Science, 2007. 42(18): p. 7673-7677. 14.
Pantleon, W., Materials Science and Technology, 2005. 21(12): p. 1392-1396. 19.
Pantleon, International Journal of Materials Research, 2009: p. 433-8.
Barnett, Materials Science and Engineering a-Structural Materials Properties Microstructure and Processing, 2004. 386(1-2): p. 244-253. 4.
Kuo, J.C., et al., Journal of Materials Science, 2007. 42(18): p. 7673-7677. 14.
Pantleon, W., Materials Science and Technology, 2005. 21(12): p. 1392-1396. 19.
Pantleon, International Journal of Materials Research, 2009: p. 433-8.
Online since: August 2016
Authors: Alexandra A.P. Mansur, Herman Sander Mansur, Nadia Sueli Vieira Capanema
Experimental
Materials.
Mansur: Biomedical Materials Vol. 2 (2007), p. 135
Mansur: Journal of Materials Science Vol. 43 (2008), p 510
Lima: Materials Chemistry and Physics Vol. 130 (2011), p. 84
In: Monographs in Oral Science H.M.
Mansur: Biomedical Materials Vol. 2 (2007), p. 135
Mansur: Journal of Materials Science Vol. 43 (2008), p 510
Lima: Materials Chemistry and Physics Vol. 130 (2011), p. 84
In: Monographs in Oral Science H.M.
Online since: February 2017
Authors: Tamás Mikó, Gábor Szabó, Péter Barkóczy
Acknowledgement
This research was (partially) carried out in the framework of the Center of Applied Materials Science and Nano-Technology at the University of Miskolc.
Kocks, Forward and Reverse Rearrangements of Dislocations in Tangled Walls, Materials Science and Engineering, 81 (1986) pp.189-199. [2] T.
Karashima, Deformation Behaviour and Dislocation Structures upon Stress Reversal in Polycrystalline Aluminium, Materials Science and Engineering, 20 (1975) pp. 267-276
Mecking, Physics and phenomenology of strain hardening: the FCC case, Progress in Materials Science 48 (2003) pp. 171–273
Higginson, Strain path effects under hot working: an introduction, Journal of Materials Processing Technology 98 (2000) pp. 267-291.
Kocks, Forward and Reverse Rearrangements of Dislocations in Tangled Walls, Materials Science and Engineering, 81 (1986) pp.189-199. [2] T.
Karashima, Deformation Behaviour and Dislocation Structures upon Stress Reversal in Polycrystalline Aluminium, Materials Science and Engineering, 20 (1975) pp. 267-276
Mecking, Physics and phenomenology of strain hardening: the FCC case, Progress in Materials Science 48 (2003) pp. 171–273
Higginson, Strain path effects under hot working: an introduction, Journal of Materials Processing Technology 98 (2000) pp. 267-291.
Online since: March 2013
Authors: Ge Chen, Yang Wang, Min Yu Han, Xiu Qing Zhang
Materials and methods
Experiment of magnesium alloy was operated with Inductively Coupled Plasma Emission Spectrometer (ICP).
Science Press, China, BJ, 2007 [2] DING W J, et al: Magnesium alloy Science and Technology.
Metal journal, China, 2009, 45 (11): 1303-1308
Materials and Engineering A, 2002, 337: 121 [9] WANG Z X, XIE J X, LIU X F, et al: Deformation and aging on the microstructure and mechanical properties of AZ91 magnesium alloy.
Metal journal, 2007, 43 (9): 920-924
Science Press, China, BJ, 2007 [2] DING W J, et al: Magnesium alloy Science and Technology.
Metal journal, China, 2009, 45 (11): 1303-1308
Materials and Engineering A, 2002, 337: 121 [9] WANG Z X, XIE J X, LIU X F, et al: Deformation and aging on the microstructure and mechanical properties of AZ91 magnesium alloy.
Metal journal, 2007, 43 (9): 920-924