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Online since: September 2022
Authors: Yuen Mei Lian, Shariena Shamsul Bahari, Lee Siew Ling, Ros Azlinawati Ramli
Experiment
Materials.
Pandey, A review on the factors affecting the photocatalytic degradation of hazardous materials, Material Science and Engineering International Journal. 1(3) (2017) 106-114
Sustainable Materials and Technologies. 9 (2016) 10-40
Advances in Materials Science and Engineering. (2015) [40] M.N.
A review, Indian Journal of Materials Science. (2015)
Pandey, A review on the factors affecting the photocatalytic degradation of hazardous materials, Material Science and Engineering International Journal. 1(3) (2017) 106-114
Sustainable Materials and Technologies. 9 (2016) 10-40
Advances in Materials Science and Engineering. (2015) [40] M.N.
A review, Indian Journal of Materials Science. (2015)
Online since: September 2018
Authors: Elidio Angioletto, Erlon Mendes, Elton Mendes, Humberto Gracher Riella, Raquel Ternus, Kelly Regina Betiatto, Riss Heloisa, Karine Testa, Raquel Piletti, Márcio Antônio Fiori
When incorporated in aluminosilicates matrix has been effective for the development of antimicrobial materials [3,4].
Acknowledgments The authors thank the Multifunctional Materials Laboratory (LMF) of the Unochapecó, the Corrosion and Materials Laboratory of the UFSC and the CNPq by support a part of the studies.
Materials Science and Engineering C. 29 (2009) 1569–1573.
Materials Science and Engineering C. 32 (2012), 1518-1523.
Elaboration and characterization of solid materials of types zeolite NaA and faujasite NaY exchanged by zinc metallic ions.
Acknowledgments The authors thank the Multifunctional Materials Laboratory (LMF) of the Unochapecó, the Corrosion and Materials Laboratory of the UFSC and the CNPq by support a part of the studies.
Materials Science and Engineering C. 29 (2009) 1569–1573.
Materials Science and Engineering C. 32 (2012), 1518-1523.
Elaboration and characterization of solid materials of types zeolite NaA and faujasite NaY exchanged by zinc metallic ions.
Online since: May 2012
Authors: Gigel Neagu, Alexandrina Mihai, Florin Ştefănescu, Iuliana Odagiu, Iuliana Stan
Satyanarayana: Journal of Materials Science 30 (1995), p. 1903-1911
[5].
Eustathopoulos: Journal of Materials Science 22 (1987), p. 244-250 [8].
Atkinson: Journal of Materials Science 28 (1993), p. 2654-2658 [10].
Pamies: Journal of Materials Science 21 (1986), p. 2787-2792 [16].
Nogi: Journal of Materials Science 40 (2005), p. 2329-2333 [18].
Eustathopoulos: Journal of Materials Science 22 (1987), p. 244-250 [8].
Atkinson: Journal of Materials Science 28 (1993), p. 2654-2658 [10].
Pamies: Journal of Materials Science 21 (1986), p. 2787-2792 [16].
Nogi: Journal of Materials Science 40 (2005), p. 2329-2333 [18].
Online since: June 2015
Authors: Zuraidawani Che Daud, Shamsul Baharin Jamaludin, Noorazimah Ab Llah
Zheng, Novel magnesium alloys developed for biomedical application: A review, Journal Materials Science Technology 29(6) (2013)489-502
Hench, The story of Bioglass Journal of Materials Science: Materials Medicine 17(2006) 967-978
Materials Science and Engineering B 176(2011)1644-1652
Journal of Materials Science Letters 15(1996) 1122-1125
Materials Science and Engineering C 29(2009)2036-2044
Hench, The story of Bioglass Journal of Materials Science: Materials Medicine 17(2006) 967-978
Materials Science and Engineering B 176(2011)1644-1652
Journal of Materials Science Letters 15(1996) 1122-1125
Materials Science and Engineering C 29(2009)2036-2044
Online since: December 2025
Authors: Martin Vana
Introduction
Biocomposite materials are technical materials that represent a more environmentally friendly alternative to the more well-known carbon composites [1].
Journal of Thermoplastic Composite Materials. 2019, [2] ANDREW, J.
Drilling of biocomposite materials: Modelling and experimental validation.
Progress in Polymer Science. 2012, roč. 37, č. 11
Composites Part A: Applied Science and Manufacturing. 2016, roč. 83
Journal of Thermoplastic Composite Materials. 2019, [2] ANDREW, J.
Drilling of biocomposite materials: Modelling and experimental validation.
Progress in Polymer Science. 2012, roč. 37, č. 11
Composites Part A: Applied Science and Manufacturing. 2016, roč. 83
Online since: March 2013
Authors: Jerzy Malachowski, Pawel Baranowski, Łukasz Mazurkiewicz, Krzysztof Damaziak
Krawczyk and others, Mechanics of polymer and composite materials, Science (1985)
Forrestal, Dynamic compressive testing of soft materials, Journal of Applied Mechanics, 69 (2002) 214–223
Fassnacht, Material behaviour of polymers under impact loading, International Journal of Impact Engineering, 32 (2006) 725-740
Bekar, High-speed testing and material modelling of unfilled styrene butadiene vulcanizates at impact rates, Journal of Materials Science, 39 (2004) 6885–6899
Parry, A freely expanding ring technique for measuring the tensile properties of polymers, Materials Science Technology, 7 (1996) 746-752
Forrestal, Dynamic compressive testing of soft materials, Journal of Applied Mechanics, 69 (2002) 214–223
Fassnacht, Material behaviour of polymers under impact loading, International Journal of Impact Engineering, 32 (2006) 725-740
Bekar, High-speed testing and material modelling of unfilled styrene butadiene vulcanizates at impact rates, Journal of Materials Science, 39 (2004) 6885–6899
Parry, A freely expanding ring technique for measuring the tensile properties of polymers, Materials Science Technology, 7 (1996) 746-752
Online since: June 2020
Authors: Vladimír Hrbek, Václav Nežerka, Petr Bily, Josef Fladr
Construction and Building Materials 25 (2011), pp. 2639–2648
Mechanics of Materials 105 (2017), pp. 49–60
Journal of Cleaner Production 195 (2018), pp. 1081–1090
Mechanics of Materials 6 (1987), pp. 147–157
Material Science and Engineering A 430 (2006), pp. 189–202
Mechanics of Materials 105 (2017), pp. 49–60
Journal of Cleaner Production 195 (2018), pp. 1081–1090
Mechanics of Materials 6 (1987), pp. 147–157
Material Science and Engineering A 430 (2006), pp. 189–202
Online since: January 2011
Authors: Xiao Hua Cao, Juan Wan
In the materials supply course, the different materials are used at the different workstations or assembly sites.
If the number is larger, the limited storing space cannot contain the materials in the workstation or assembly site, and the using efficiency of materials will reduce consumedly.
The products are made by assembling the materials at each assembly site.
International Journal of Production Research, 2007, vol.45(24), p. 5789-5809
International Journal of Radio Frequency Identification Technology and Applications, vol.2(3-4) , p. 115-132, 2009
If the number is larger, the limited storing space cannot contain the materials in the workstation or assembly site, and the using efficiency of materials will reduce consumedly.
The products are made by assembling the materials at each assembly site.
International Journal of Production Research, 2007, vol.45(24), p. 5789-5809
International Journal of Radio Frequency Identification Technology and Applications, vol.2(3-4) , p. 115-132, 2009
Online since: September 2013
Authors: Yi Li, Zhi Long Wang, Ying Dong Li, Cheng Yi Li, Yi Zhou Du, Lu Lu
Y2O2S:Eu3+as a powerful light-emitting properties of materials, Commonly used in the industry[4] .
[4] BAI Zhao-Hui1 RI Su-Hyon1,2 ZHANG Xi-Yan*,1 LU Li-Ping1 LIU Quan-Sheng1 MI Xiao-Yun1(1School of Materials Science and Engineering,Changchun University of Science and Technology,Changchun 130022,China)(2Department of Physics,University of Science,DPR of Korea).
[5] HAN Pengde,ZHU Yiqing,ZHANG Le,CHEN Yan,WANG Lixi,ZHANG Qitu(College of Materials Science and Engineering,Nanjing University of Technology,Nanjing 210009,China).
Preparation and Properties of Upconversion Luminescent Materials of Y2O2S:Yb,Ho, Journal of the Chinese Ceramic Society, July, (2012)
Journal of Materials Science & Technology,, July, (2012)
[4] BAI Zhao-Hui1 RI Su-Hyon1,2 ZHANG Xi-Yan*,1 LU Li-Ping1 LIU Quan-Sheng1 MI Xiao-Yun1(1School of Materials Science and Engineering,Changchun University of Science and Technology,Changchun 130022,China)(2Department of Physics,University of Science,DPR of Korea).
[5] HAN Pengde,ZHU Yiqing,ZHANG Le,CHEN Yan,WANG Lixi,ZHANG Qitu(College of Materials Science and Engineering,Nanjing University of Technology,Nanjing 210009,China).
Preparation and Properties of Upconversion Luminescent Materials of Y2O2S:Yb,Ho, Journal of the Chinese Ceramic Society, July, (2012)
Journal of Materials Science & Technology,, July, (2012)
Online since: March 2016
Authors: Lim Kean Pah, Siau Wei Ng, M.M. Awang Kechik, Wan Nur Wathiq Wan Jusoh, S.A. Halim
*limkp@upm.edu.my
Keywords: Bulks, electrical properties, magnetic materials, perovskite manganites, structural.
Materials and Method Polycrystalline of La0.67(Sr,Ca)0.33MnO3 were prepared in conventional solid-state reaction method.
Tokura, Journal of Magnetism and Magnetic Materials 200 (1999)
Mendes, Journal of Magnetism and Magnetic Materials 322 (2010) 1174
Jung, Journal of Magnetism and Magnetic Materials 310 (2007 ) 2668.
Materials and Method Polycrystalline of La0.67(Sr,Ca)0.33MnO3 were prepared in conventional solid-state reaction method.
Tokura, Journal of Magnetism and Magnetic Materials 200 (1999)
Mendes, Journal of Magnetism and Magnetic Materials 322 (2010) 1174
Jung, Journal of Magnetism and Magnetic Materials 310 (2007 ) 2668.