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Online since: February 2018
Authors: You Fa Wang, Rui Min Zhao, Xian Ya Xue
Materials and Methods
General Materials and Synthesis of HYA/β-TCP Porous Scaffolds.
Cheng, et al.: Journal of Biomaterials Science, Vol. 21 (2010) No.3, p.359 [15] I.
Vallejo, et al.: Materials Science and Engineering: C, Vol. 55 (2015), p.592 [16] Y.
Ma, et al.: Materials Science and Engineering: C, Vol. 56 (2015) , p.37 [19] Y.
Xu, X.M Zhang, et al.: Materials Science and Engineering: C, Vol. 32 (2012) No.4, p.994 [20] F.
Cheng, et al.: Journal of Biomaterials Science, Vol. 21 (2010) No.3, p.359 [15] I.
Vallejo, et al.: Materials Science and Engineering: C, Vol. 55 (2015), p.592 [16] Y.
Ma, et al.: Materials Science and Engineering: C, Vol. 56 (2015) , p.37 [19] Y.
Xu, X.M Zhang, et al.: Materials Science and Engineering: C, Vol. 32 (2012) No.4, p.994 [20] F.
Online since: May 2016
Authors: Li Jing Xie, Tao Wang, Xi Guo Xue
Journal of materials processing technology. 201(2008) 574-579
The mechanical response of an A359/SiCp MMC and the A359 aluminum matrix to dynamic shearing deformations, J.Materials Science and Engineering A. 382(2004) 162–170
Materials Science and Engineering A.371(2004) 359–370
An intergral method to determine the mechanical behabior of materials in metal cutting, J.
Journal of Materials Processing Techology, 142(2003) 72-81
The mechanical response of an A359/SiCp MMC and the A359 aluminum matrix to dynamic shearing deformations, J.Materials Science and Engineering A. 382(2004) 162–170
Materials Science and Engineering A.371(2004) 359–370
An intergral method to determine the mechanical behabior of materials in metal cutting, J.
Journal of Materials Processing Techology, 142(2003) 72-81
Online since: August 2013
Authors: Feng Lan Li, Li Yun Pan, Yan Wei Guo
Experimental
Raw Materials.
Li: Journal of Building Materials Vol. 12 No. 1 (2009), p. 41-46
Yang: Journal of Wuhan University of Technology (Materials Science) Vol. 25 No. 2 (2010), p. 355-359
Liu: Journal of Railway Science and Engineering Vol. 3 No. 2 (2006), p. 15-20
Mobasher: Journal of Materials in Civil Engineering Vol. 15 No. 4 (2003), p. 314-322
Li: Journal of Building Materials Vol. 12 No. 1 (2009), p. 41-46
Yang: Journal of Wuhan University of Technology (Materials Science) Vol. 25 No. 2 (2010), p. 355-359
Liu: Journal of Railway Science and Engineering Vol. 3 No. 2 (2006), p. 15-20
Mobasher: Journal of Materials in Civil Engineering Vol. 15 No. 4 (2003), p. 314-322
Online since: August 2005
Authors: Xi Peng Xu, Yuan Li, Q.L. Han
Ersoy: Diamond and Related Materials, Vol. 13 (2004), pp. 22-37
Chen: Materials Science Forum, Vols. 471-472 (2004), pp. 77-81
Wang: Journal of Materials Processing Technology, Vol. 129 (2002), No. 1-3, pp. 371-375
Yu: Journal of Materials Processing Technology, Vol. 139 (2002), No. 1-3, pp. 281-285
Jackson: Transactions of the ASME: Journal of Manufacturing Science and Engineering, Vol. 120 (1998), No. 4, pp. 84-92.
Chen: Materials Science Forum, Vols. 471-472 (2004), pp. 77-81
Wang: Journal of Materials Processing Technology, Vol. 129 (2002), No. 1-3, pp. 371-375
Yu: Journal of Materials Processing Technology, Vol. 139 (2002), No. 1-3, pp. 281-285
Jackson: Transactions of the ASME: Journal of Manufacturing Science and Engineering, Vol. 120 (1998), No. 4, pp. 84-92.
Online since: February 2012
Authors: Andrea Adamne Major, Károly Belina
In the experiments polypropylene, polycarbonate and ABS polymers were used as matrix materials.
The prepared materials were characterised by scanning electron microscopy.
We did not find any sign of agglomerates in the materials.
Polypropylene homopolymer, polycarbonate and ABS were used as matrix materials.
The structure of the multiwall carbon nanotubes in the matrix materials was studied by LP-FTIR and heating methods.
The prepared materials were characterised by scanning electron microscopy.
We did not find any sign of agglomerates in the materials.
Polypropylene homopolymer, polycarbonate and ABS were used as matrix materials.
The structure of the multiwall carbon nanotubes in the matrix materials was studied by LP-FTIR and heating methods.
Online since: September 2017
Authors: Ping Yang, Jing An Li, Xiao Luo, Dan Zou, An Sha Zhao, Nan Huang, Cong Zhen Han
Queiroz, A novel drug delivery of 5-fluorouracil device based on TiO2/ZnS nanotubes, Materials Science and Engineering: C 56 (2015) 260-268
Alderete, PAMAM-grafted TiO2 nanotubes as novel versatile materials for drug delivery applications, Materials Science and Engineering: C 65 (2016) 164-171
Zhao, A computational study of stent performance by considering vessel anisotropy and residual stresses, Materials Science and Engineering: C 62 (2016) 307-316
Huang, Constructing bio-functional layers of hyaluronan and type IV collagen on titanium surface for improving endothelialization, Journal of Materials Science 50 (2015) 3226-3236
Naraghi, Multiscale Experimental Mechanics of Hierarchical Carbon-Based Materials, Advanced Materials 24 (2012) 2805–2823
Alderete, PAMAM-grafted TiO2 nanotubes as novel versatile materials for drug delivery applications, Materials Science and Engineering: C 65 (2016) 164-171
Zhao, A computational study of stent performance by considering vessel anisotropy and residual stresses, Materials Science and Engineering: C 62 (2016) 307-316
Huang, Constructing bio-functional layers of hyaluronan and type IV collagen on titanium surface for improving endothelialization, Journal of Materials Science 50 (2015) 3226-3236
Naraghi, Multiscale Experimental Mechanics of Hierarchical Carbon-Based Materials, Advanced Materials 24 (2012) 2805–2823
Online since: January 2005
Authors: Jin Cheng, Yue Zhang
In recent years, much work has been done on microwave absorbing materials, and
anisotropy magnetic materials are expected to have excellent microwave absorbing properties.
Anisotropy magnetic materials are expected to be good at absorbing microwave.
In the present work, as the base of magnetic materials ferrite, iron oxide films are prepared by atmospheric MOCVD.
The array materials are uniform.
The array materials have very high surface area.Fig.2 shows SEM images of the iron oxide whisker film formed on crystal silicon (111).
Anisotropy magnetic materials are expected to be good at absorbing microwave.
In the present work, as the base of magnetic materials ferrite, iron oxide films are prepared by atmospheric MOCVD.
The array materials are uniform.
The array materials have very high surface area.Fig.2 shows SEM images of the iron oxide whisker film formed on crystal silicon (111).
Online since: October 2018
Authors: Dalibor Matýsek, Ladislav Svoboda, Jiří Bednář, Pavel Mančík, Marketa Pomiklová, Richard Dvorsky
Introduction
Current technology uses suitable chemical compounds and materials that have a sorption and degradation effect against industrial pollutants and CBRN military agents.
Information obtained during the research and development of the new technology of controlled sublimation [1] confirms new possibilities of production and increase of sorption and photocatalytic efficiency of nanostructures of environemtntally inert materials such as new type of carbon-silicate and oxidic materials [2], [3] and [4].
Materials and chemicals.
To evaluate the sorptive and photocatalytic efficacy of the prepared materials was used UV-VIS spectrometer OCEAN OPTICS USB4000.
LO1203 "Regional Materials Science and Technology Centre - Feasibility Program" funded by Ministry of Education, Youth and Sports of the Czech Republic and by the student projects SP2018/79 and SP2018/75.
Information obtained during the research and development of the new technology of controlled sublimation [1] confirms new possibilities of production and increase of sorption and photocatalytic efficiency of nanostructures of environemtntally inert materials such as new type of carbon-silicate and oxidic materials [2], [3] and [4].
Materials and chemicals.
To evaluate the sorptive and photocatalytic efficacy of the prepared materials was used UV-VIS spectrometer OCEAN OPTICS USB4000.
LO1203 "Regional Materials Science and Technology Centre - Feasibility Program" funded by Ministry of Education, Youth and Sports of the Czech Republic and by the student projects SP2018/79 and SP2018/75.
Online since: March 2012
Authors: Qian Wen Chen, Wei Hua Luo, Bin Bin Zou, Gui Wu Wang
The effect of photosensitized oxidation reaction variables on the conversion and selectivity of the reactions was evaluated by the orthogonal experimental design of L9(34).Gas chromatography analysis showed that 94.55% conversion of the materials and 56.16% selectivity of the product were obtained when pyridine-acetic anhydride - copper salt mixture as a catalyst was used for the reaction at 45 ℃ under 0.45 L/min oxygen rate, 0.378 mol/L catalyst concentration and 0.5 mol/L material concentration.
Gas chromatography analysis showed that 94.55% conversion of the materials and 56.16% selectivity of the product were obtained. 4.
Russian Journal of Organic Chemistry.43( 2007) 56-59
Food science.23(2002)76-79
Journal of Chemical Sciences.114(2002) 593-602.
Gas chromatography analysis showed that 94.55% conversion of the materials and 56.16% selectivity of the product were obtained. 4.
Russian Journal of Organic Chemistry.43( 2007) 56-59
Food science.23(2002)76-79
Journal of Chemical Sciences.114(2002) 593-602.
Online since: March 2011
Authors: Jun Ping Song, Lian Xiang Ma, Yan He
Materials
The batch formula was normal.
Other materials were all purchased commercially.
Because of different raw material, processing and preparation method, different kinds of carbon black have different morphology and properties.
Acknowledgement The authors are grateful to National Natural Science Foundation of China (No. 50773034) and department of Science and Technology of Shandong province, P.R.China (No. 2008BS04028 and No.2009ZRB01071) for financial support of this project and are also grateful to Qingdao Municipal Science and Technology Commission for financial support in part of this project (No. 08-1-3-18-jch) References [1] G.T.Mohanraj, T.K.Chaki, and A.Chakraborty: Journal of Applied Polymer Science Vol.92(2004), p.2179 [2] A.R.Azura, Suriati Ghazali, and M.Mariatti: Journal of Applied Polymer Science Vol.110(2008), p.747 [3] Q.Q.Yang, J.Z.Liang: Applied Physics Letters Vol.93(2008) [4] Q.H.Zhang, D.J.Chen: Journal of Materials Science Vol.39(2004), p.1751 [5] L.Shen, Z.Y.Zhang, and J.J.Wang: Polymer Materials Science and Engineering Vol.22(2006), p.107 [6] Y.W.Wong, K.L.Lo, and F.G.Shin: Journal of Applied Polymer Science Vol.82(2001), p.1549 [7] G.M.Nasr, M.M.Badawy, and S.E.Gwaily
: Polymer Degradation and Stability Vol.48(1995),p.237 [8] A.Iqbal, L.Frormann, and A.Saleem: Polymer Composites (2007), p.186 [9] Y.He, H.T.Li, and L.X.Ma: Advanced Materials Research,Vol.87-88(2010), p.86 [10] Y.He,Z.Yin,L.X.Ma, and J.P.Song: Advanced Materials Research,Vol.87-88(2010), p.200 [11] J.P.Song, L.X.Ma: Advanced Materials Research,Vol.87-88(2010), p.536 [12] X.W.Zhang, R.Huang: China Plastic,8(1994), p.26
Other materials were all purchased commercially.
Because of different raw material, processing and preparation method, different kinds of carbon black have different morphology and properties.
Acknowledgement The authors are grateful to National Natural Science Foundation of China (No. 50773034) and department of Science and Technology of Shandong province, P.R.China (No. 2008BS04028 and No.2009ZRB01071) for financial support of this project and are also grateful to Qingdao Municipal Science and Technology Commission for financial support in part of this project (No. 08-1-3-18-jch) References [1] G.T.Mohanraj, T.K.Chaki, and A.Chakraborty: Journal of Applied Polymer Science Vol.92(2004), p.2179 [2] A.R.Azura, Suriati Ghazali, and M.Mariatti: Journal of Applied Polymer Science Vol.110(2008), p.747 [3] Q.Q.Yang, J.Z.Liang: Applied Physics Letters Vol.93(2008) [4] Q.H.Zhang, D.J.Chen: Journal of Materials Science Vol.39(2004), p.1751 [5] L.Shen, Z.Y.Zhang, and J.J.Wang: Polymer Materials Science and Engineering Vol.22(2006), p.107 [6] Y.W.Wong, K.L.Lo, and F.G.Shin: Journal of Applied Polymer Science Vol.82(2001), p.1549 [7] G.M.Nasr, M.M.Badawy, and S.E.Gwaily
: Polymer Degradation and Stability Vol.48(1995),p.237 [8] A.Iqbal, L.Frormann, and A.Saleem: Polymer Composites (2007), p.186 [9] Y.He, H.T.Li, and L.X.Ma: Advanced Materials Research,Vol.87-88(2010), p.86 [10] Y.He,Z.Yin,L.X.Ma, and J.P.Song: Advanced Materials Research,Vol.87-88(2010), p.200 [11] J.P.Song, L.X.Ma: Advanced Materials Research,Vol.87-88(2010), p.536 [12] X.W.Zhang, R.Huang: China Plastic,8(1994), p.26