Sort by:
Publication Type:
Open access:
Publication Date:
Periodicals:
Search results
Online since: February 2008
Authors: Zhao Xian Xiong, C.X. Song, Y.Y. Chen
Xiong
b
Department of Materials Science and Engineering, Xiamen University, Xiamen 361005, China
b
zxxiong@xmu.edu.cn
Keywords: Rare earth phosphor; Ca0.85(W1-xMox)O4:Eu0.15; Luminescence
Abstract.
Experimental Raw materials.
Optical Materials, Vol. 4(2006), p. 120
Journal of Alloys and Compounds, Vol. 10(2006), p. 488
Grabmaier: Luminescent Materials (Verlag, Berlin, Germany, 1994), p. 41.
Experimental Raw materials.
Optical Materials, Vol. 4(2006), p. 120
Journal of Alloys and Compounds, Vol. 10(2006), p. 488
Grabmaier: Luminescent Materials (Verlag, Berlin, Germany, 1994), p. 41.
Online since: May 2013
Authors: Yu Jiao Wu, Chang Gui Liu, Chun Ping Yang
Experiment
Materials.
Polypropylene, T30S, Guangzhou Maoming Petrochemical Company; nano-TiO2, rutile, 20nm, New Material Co., Ltd.
And then adding PP to the masterbatch to prepare composite materials in nano-TiO2 mass rate of 1%, 1.5%, 2% and 2.5%, respectively recorded as PP-1, PP-1.5, PP-2 and PP-2.5.
Chen: Polymer Materials Science and Engineering China Vol. 23 (2007), p.159-162 [5] H.
Zhang: Journal of Polymer Science China Vol. 42 (2004), p. 1181-1191 [8] B.
Polypropylene, T30S, Guangzhou Maoming Petrochemical Company; nano-TiO2, rutile, 20nm, New Material Co., Ltd.
And then adding PP to the masterbatch to prepare composite materials in nano-TiO2 mass rate of 1%, 1.5%, 2% and 2.5%, respectively recorded as PP-1, PP-1.5, PP-2 and PP-2.5.
Chen: Polymer Materials Science and Engineering China Vol. 23 (2007), p.159-162 [5] H.
Zhang: Journal of Polymer Science China Vol. 42 (2004), p. 1181-1191 [8] B.
Online since: February 2013
Authors: Yan Yan Liu, Yang Lin Liu, Xue Chen Duan
Study on Preparation and photoluminescence performance
of High-directional ZAO Nanorod Arrays
Yanglin Liu1,2,a , Xuechen Duan 1,b, Yanyan Liu3,c
1School of Material Science and Engineering, Central South University,Changsha,China
2Changsha Environmental Protection College, Changsha,China
3College of Science and Engineering, Jinan University, Guangzhou,China
aLYL9909@126.com,bxc_d@vip.tom.com,c124917785@qq.com
Key words:Al-doped zinc oxide (ZAO);nanorod arrays;thin film;preparation; photoluminescence.
Raw materials ZAO Precursor Into the reactor Hydrothermal reaction Separation of reaction solution Low-temperature drying ZAO nanorod arrays ZAO seed layer Figure 1 Preparation process diagram of ZAO array films Dissolve Mixing Figure 2 XRD pattern of ZAO array films With 5% AI-doping concentration 3.2 Impact of Aluminum Doping on the Shape of Nanorod Arrays Figure 3 is the SEM image of ZAO seed layer and nanorod arrays: granules of ZAO seed layer are densely arranged and evenly distributed, with an average size of about 45nm.
Materials Letters, 2005, 59: 3620~3625
Journal of Physical Chemistry B, 2006, 110: 20263-20267
Nature Materials, 2005, 4: 455-459
Raw materials ZAO Precursor Into the reactor Hydrothermal reaction Separation of reaction solution Low-temperature drying ZAO nanorod arrays ZAO seed layer Figure 1 Preparation process diagram of ZAO array films Dissolve Mixing Figure 2 XRD pattern of ZAO array films With 5% AI-doping concentration 3.2 Impact of Aluminum Doping on the Shape of Nanorod Arrays Figure 3 is the SEM image of ZAO seed layer and nanorod arrays: granules of ZAO seed layer are densely arranged and evenly distributed, with an average size of about 45nm.
Materials Letters, 2005, 59: 3620~3625
Journal of Physical Chemistry B, 2006, 110: 20263-20267
Nature Materials, 2005, 4: 455-459
Online since: January 2012
Authors: Jin Sheng Liang, Li Fang Zhao, Yan Ding, Jun Ping Meng, Hui Wen Li
Introduction
The infrared emissivity of materials can be measured in a form of continuous spectrum accurately by the Fourier transforms infrared spectrometer (FTIR) [1] which is widely used in testing infrared emissivity.
However, the method of FTIR to test infrared emissivity of powder materials was limited in widely use, because the device was expensive, bulky and tedious.
Liang [2] etc designed a portable infrared emission performance testing devices of powder materials basing on the principle of heat transfer.
Test Results and Analysis 4.1 Samples and performance characterization Tourmaline is a kind of natural mineral materials with high infrared emission properties [8].
Ding, et al.: Journal of Nanoscience and Nanotechnology, 2011, 11:1-5 (in press) [3] D.Y.
However, the method of FTIR to test infrared emissivity of powder materials was limited in widely use, because the device was expensive, bulky and tedious.
Liang [2] etc designed a portable infrared emission performance testing devices of powder materials basing on the principle of heat transfer.
Test Results and Analysis 4.1 Samples and performance characterization Tourmaline is a kind of natural mineral materials with high infrared emission properties [8].
Ding, et al.: Journal of Nanoscience and Nanotechnology, 2011, 11:1-5 (in press) [3] D.Y.
Online since: March 2013
Authors: Mohamad Hafiz Mamat, N.D. Md Sin, Mohamad Rusop
All the materials were mixed together and were stirred using hot plate magnetic stirrer at 80oC for 3 hour to yield a clear and homogeneous solution.
Heating process was applied to increase the reaction process between the materials in the solution.
The images also proved prepared ZnO materials in this research were within nanometer range (<100nm).
Deng, Journal of Alloys and Compounds 458 (2008) 572
[6] Jin-Hong Lee, Byung-Ok Park, Materials Science and Engineering B 106 (2004) 243-244
Heating process was applied to increase the reaction process between the materials in the solution.
The images also proved prepared ZnO materials in this research were within nanometer range (<100nm).
Deng, Journal of Alloys and Compounds 458 (2008) 572
[6] Jin-Hong Lee, Byung-Ok Park, Materials Science and Engineering B 106 (2004) 243-244
Online since: July 2011
Authors: Li Li Dai, Shu Li Fan, Rui Mu, Ai Min Deng
Study of Epoxy Resin Emulsion by Emulsion Graft Polymerization
MU Rui1,a, DAI Lili1,b, FAN Shuli2,c, DENG Aimin2,d
1School of Environment and Chemical Engineering, Shenyang Ligong University, Shenyang 110159, China
2School of Materials Science and Engineering, Shenyang Ligong University, Shenyang 110159, China
amuruisy@yahoo.com.cn,bdaill821@163.com,c fanshuli-1985@163.com,
d dengaiminsy@yahoo.cn
Key words: epoxy resin; vinyl acetate; emulsion graft polymerization
Abstract.
It was widely used in adhesives, paint, composite materials, electric, electronics and so on.
Experimental Materials Epoxy resin (E-51, Wuxi Resin Factory of Blue Star New Material Co.
References [1] PAN Gui-rong, WU Li-min and ZHANG Zhu-qing: Polymer Materials Science and Engineering.
Vol.46 (2008), p.32 [6] Ma Chengyin, Deng Cuiyan and Zheng Wenji:Journal of Wuhan University of Technology-Mater.
It was widely used in adhesives, paint, composite materials, electric, electronics and so on.
Experimental Materials Epoxy resin (E-51, Wuxi Resin Factory of Blue Star New Material Co.
References [1] PAN Gui-rong, WU Li-min and ZHANG Zhu-qing: Polymer Materials Science and Engineering.
Vol.46 (2008), p.32 [6] Ma Chengyin, Deng Cuiyan and Zheng Wenji:Journal of Wuhan University of Technology-Mater.
Online since: January 2017
Authors: Navadol Laosiripojana, Verawat Champreda, Sawitree Cheiwpanich
Lignocellulosic biomass is a renewable source for sustainable production of fuels, chemicals, and other materials with the advantages on its carbon-neutral nature.
Fractionation of lignocellulosic materials is a pre-requisite in the biorefinery process in order to convert the cellulose, hemicellulose, and lignin to valuable products with maximized economics prospective.
A conversion of cellulose and hemicellulose materials into fermentable sugars is an important step because these fermentable sugars extracted from biomass feedstock play an important role for further conversion to biofuel and other biorefinery products.
The lignin content accounts for (24.64%) of dried materials.
Journal of Environmental Chemical Engineering, 2(1), (2014), p. 573-584
Fractionation of lignocellulosic materials is a pre-requisite in the biorefinery process in order to convert the cellulose, hemicellulose, and lignin to valuable products with maximized economics prospective.
A conversion of cellulose and hemicellulose materials into fermentable sugars is an important step because these fermentable sugars extracted from biomass feedstock play an important role for further conversion to biofuel and other biorefinery products.
The lignin content accounts for (24.64%) of dried materials.
Journal of Environmental Chemical Engineering, 2(1), (2014), p. 573-584
Online since: June 2021
Authors: Xian Zheng Gong, Yu Liu, Xiao Qing Li, Shui Long Chen, Zhen Lu Lei
Nonferrous metals are the basic materials for industrial production, while copper is one of the indispensable metal materials in modern society.
The transport distance of other materials is calculated according to the average road transport distance of goods of 180km.
Finally, we did not calculate the raw materials with small amount and small water footprint, so the calculation result was a little smaller.
Journal of Industrial Ecology, 2014,18(1)
China Environmental Science Press, 2011
The transport distance of other materials is calculated according to the average road transport distance of goods of 180km.
Finally, we did not calculate the raw materials with small amount and small water footprint, so the calculation result was a little smaller.
Journal of Industrial Ecology, 2014,18(1)
China Environmental Science Press, 2011
On the Use of Adaptive Mesh Refinement for Modelling the Taylor Impact Test with the CEL Formulation
Online since: April 2026
Authors: Domenico Umbrello, Olivier Pantalé, Laurent Spitaels, François Ducobu
The specimen material is 42CrMo4-FP steel.
Table 1 provides the material properties and JC parameters.
Wegener, Inverse identification of Johnson–Cook flow stress parameters for Ti6Al4V, CIRP Journal of Manufacturing Science and Technology 64 (2026) 15–31. https://doi.org/10.1016/j.cirpj.2025.11.012
Kolsky, An Investigation of the Mechanical Properties of Materials at very High Rates of Loading, Proc.
Taylor, The testing of materials at high rates of loading, Journal of the Institution of Civil Engineers 26 (1946) 486–519. https://doi.org/10.1680/ijoti.1946.13699
Table 1 provides the material properties and JC parameters.
Wegener, Inverse identification of Johnson–Cook flow stress parameters for Ti6Al4V, CIRP Journal of Manufacturing Science and Technology 64 (2026) 15–31. https://doi.org/10.1016/j.cirpj.2025.11.012
Kolsky, An Investigation of the Mechanical Properties of Materials at very High Rates of Loading, Proc.
Taylor, The testing of materials at high rates of loading, Journal of the Institution of Civil Engineers 26 (1946) 486–519. https://doi.org/10.1680/ijoti.1946.13699
Online since: November 2013
Authors: M. Mariatti, Muhammad Safwan Hamzah, M. Kamarol, Noor Syazwani Mansor
Introduction of nanofillers were attributed due to the enhancement of the electrical properties of insulating materials.
But until now there is less invention on thermoplastic elastomer materials, TPE based on PP blend with EPDM compare to Polyethylene/rubber blend.
Shah, Polymer Outdoor Insulating Materials.
Part I: Comparison of Porcelain and Polymer Electrical Insulation, Electrical Insulation Magazine, IEEE (1997) 5-12, [2] G.Tesoro, Epoxy Resins-chemistry and Technology, Journal of Polymer Science Part C, Polymer Letters (1998) 539
[7] Electrical Strength of Insulating Materials-Test methods-Part I : Tests at Power Frequencies (IEC 60243-1:1998), European Committee for Electro technical Standardization
But until now there is less invention on thermoplastic elastomer materials, TPE based on PP blend with EPDM compare to Polyethylene/rubber blend.
Shah, Polymer Outdoor Insulating Materials.
Part I: Comparison of Porcelain and Polymer Electrical Insulation, Electrical Insulation Magazine, IEEE (1997) 5-12, [2] G.Tesoro, Epoxy Resins-chemistry and Technology, Journal of Polymer Science Part C, Polymer Letters (1998) 539
[7] Electrical Strength of Insulating Materials-Test methods-Part I : Tests at Power Frequencies (IEC 60243-1:1998), European Committee for Electro technical Standardization