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Online since: July 2017
Authors: Xiao Dong Wang, Yi Luo, Zhi Xin Li, Zi Cheng Yu
Experimental Thermal and Fluid Science. 47(2013) 143-149
Journal of Microelectromechanical Systems. 19(4) (2010)878-884
International Journal of Heat and Mass Transfer. 53(4) (2010) 694-702
Journal of Micromechanics and Microengineering. 14(2004)220-225
Journal of the Chinese Society of Mechanical Engineers. 27(1) (2006)1-5
Journal of Microelectromechanical Systems. 19(4) (2010)878-884
International Journal of Heat and Mass Transfer. 53(4) (2010) 694-702
Journal of Micromechanics and Microengineering. 14(2004)220-225
Journal of the Chinese Society of Mechanical Engineers. 27(1) (2006)1-5
Online since: November 2012
Authors: Xiao Xian Wu, Jian Bin Yu, Hong Bin Qin, Chong Chong Niu, Guo Qi Liu
,Luoyang 471039, China
2School of Materials Science and Engineering, University of Science and Technology Beijing,
Beijing 100083, China
aniuchongchong1986@163.com, bliugq@lirrc.com
Keywords: low-carbon Al2O3-C refractories; thermal shock resistance; critical particle size; thermal expansion; fracture energy
Abstract.
Low-carbon Al2O3-C refractories were prepared using white fused corundum, α-Al2O3 powders and flake graphite as main raw materials.
Refractory fracture energy is the average energy consumption of the materials when the materials crack per unit area, characterizing the ability to resist cracking.
Therefore, by increasing the critical particle size to some extent, the thermal shock resistance of the materials can be improved.
;Malis,T.F.: Journal of Materials Science Vol. 26 (1991),p. 5655 [4] Tianming Wang, Zongshu Zou, Yintai Li(in Chinese): Steel making Vol. 1 (1996),p. 25
Low-carbon Al2O3-C refractories were prepared using white fused corundum, α-Al2O3 powders and flake graphite as main raw materials.
Refractory fracture energy is the average energy consumption of the materials when the materials crack per unit area, characterizing the ability to resist cracking.
Therefore, by increasing the critical particle size to some extent, the thermal shock resistance of the materials can be improved.
;Malis,T.F.: Journal of Materials Science Vol. 26 (1991),p. 5655 [4] Tianming Wang, Zongshu Zou, Yintai Li(in Chinese): Steel making Vol. 1 (1996),p. 25
Online since: February 2012
Authors: Zeng Wu Zhao, Bao Wei Li, Zhang Yin Xu, Yin Ju Jiang
Nb compounds powders and reduction agents were packaged in a self-made feeder with a bullet shape in order to ensure all materials were added on the surface of melt.
Journal of Beijing Institute of iron and steel. 1983, (2):79-91
[3] University of Science and Technology Beijing, Japan Metal Materials Technology Institute.
Inner Mongolia :Inner Mongolia University of Science and Technology School of materials and metallurgy. 2009
[6] JIANG Yin-jiu; SONG Shao-kai; ZHAO Zeng-wu; LI Bao-wei; Study on the thermodynamic equilibrium among niobium-bearing slag and molten steel[J]; Journal of Inner Mongolia University of Science and Technology2010, 29(3):207-209.
Journal of Beijing Institute of iron and steel. 1983, (2):79-91
[3] University of Science and Technology Beijing, Japan Metal Materials Technology Institute.
Inner Mongolia :Inner Mongolia University of Science and Technology School of materials and metallurgy. 2009
[6] JIANG Yin-jiu; SONG Shao-kai; ZHAO Zeng-wu; LI Bao-wei; Study on the thermodynamic equilibrium among niobium-bearing slag and molten steel[J]; Journal of Inner Mongolia University of Science and Technology2010, 29(3):207-209.
Online since: September 2013
Authors: Julie Juliewatty Mohamed, Zainal Arifin Ahmad, Sharifah Aishah Syed Salim
EFFECT OF CaO DOPANT ON THE DIELECTRIC PROPERTIES OF NiO
Sharifah Aishah Syed SalimaSalim1, a, Julie Juliewatty MohamedbMohamed1, b,
Zainal Arifin AhmadcAhmad1, c
1 a,b,cSchool of Materials and Mineral Resources Engineering Campus,
Universiti Sains Malaysia, 14300 Nibong Tebal, Penang, Malaysia.
Experimental Method High purity oxides NiO (Aldrich 99%) and CaO (Merck 99%) were used as starting materials in the sample preparation.
Li, “Dielectric characteristics and their field dependence of (Ba, Ca)TiO3 ceramics,” Materials Science and Engineering., vol.113, pp 117-120, April. 2004
Alaya “ Structural and optical properties of calcium doped zinc oxide sputtered from nanopowder target materials,” Int.J.Nanoelectronic and Materials., vol.3, pp 87-97, 2010
Zhu: Journal Applied Physics.
Experimental Method High purity oxides NiO (Aldrich 99%) and CaO (Merck 99%) were used as starting materials in the sample preparation.
Li, “Dielectric characteristics and their field dependence of (Ba, Ca)TiO3 ceramics,” Materials Science and Engineering., vol.113, pp 117-120, April. 2004
Alaya “ Structural and optical properties of calcium doped zinc oxide sputtered from nanopowder target materials,” Int.J.Nanoelectronic and Materials., vol.3, pp 87-97, 2010
Zhu: Journal Applied Physics.
Online since: December 2011
Authors: Dun Qiang Tan, Xiao Xia Yang, Dong Fei Xiao, Yi Jie Zhan
Study on nitridation behavior of Mg-Ca alloy under Nitrogen
Xiaoxia Yang1,a, Dunqiang Tan1,b, Dongfei Xiao1,c, Yijie Zhan1,d
1School of Materials Science and Engineering, Nanchang University,Nanchang 330031, China
ayilan_2010@126.com,bcntdunqiang@yahoo.com.cn, cxiaodongfei898@tom.com,dzhanyijie666@126.com
Keywords: Mg-Ca alloy; Spray deposition; Surface film; Nitridation behavior
Abstract.
References [1] Hairong Luo,Hua Cui,Yongbing Li,et al:Materials Review,2006,20(8),p.119 (In Chinese) [2] S.K.
Panigrahi: Journal of Materials Processing Technology,2007,182: 343–351 [3] C.Y.
Chen, Chi Y.A.Tsao: Materials Science and Engineering A,2004,383:21-29 [4] M.
Proceeding of the fifth Asian foundry congress, 1997 [5]M.Sakamoto, S.Akiyama, K.Ogi: Journal of materials science letters,16(1997):1048-1050 [6] Xiaofeng Huang, Hong Zhou, Zhenming He: Rare Metal Materials and Engineering, 2002,3: 221-224(In Chinese) [7] Jianfeng Fan,Gencang Yang,Suling Cheng,et al:The Chinese Journal of Nonferrous Metals,14 (2004) :1667-1670.
References [1] Hairong Luo,Hua Cui,Yongbing Li,et al:Materials Review,2006,20(8),p.119 (In Chinese) [2] S.K.
Panigrahi: Journal of Materials Processing Technology,2007,182: 343–351 [3] C.Y.
Chen, Chi Y.A.Tsao: Materials Science and Engineering A,2004,383:21-29 [4] M.
Proceeding of the fifth Asian foundry congress, 1997 [5]M.Sakamoto, S.Akiyama, K.Ogi: Journal of materials science letters,16(1997):1048-1050 [6] Xiaofeng Huang, Hong Zhou, Zhenming He: Rare Metal Materials and Engineering, 2002,3: 221-224(In Chinese) [7] Jianfeng Fan,Gencang Yang,Suling Cheng,et al:The Chinese Journal of Nonferrous Metals,14 (2004) :1667-1670.
Online since: June 2012
Authors: Mei Chen, Fu Quan Zhang, Yong Zhou Wang, Mao Fang Huang
In previous work[5], the research on structure and property of materials by analyzing the morphological or microstructure of NR has made progress.
Experimental Materials The fresh NR latex was supplied by Guanghai Natural Rubber Industrial Group Co., Ltd, Guangdong, China.
Other materials were all commercial products with a purity of AR or CP grade.
References [1] Mei Chen, Fuquan Zhang, Yongzhou Wang, et al: Advanced Materials Research, Vols. 418-420 (2012) p. 544-547
[2] Xiaolong Yuan, Chenghai Chen: Chinese Journal of Latex Industry, Vol.1 (2001), p9
Experimental Materials The fresh NR latex was supplied by Guanghai Natural Rubber Industrial Group Co., Ltd, Guangdong, China.
Other materials were all commercial products with a purity of AR or CP grade.
References [1] Mei Chen, Fuquan Zhang, Yongzhou Wang, et al: Advanced Materials Research, Vols. 418-420 (2012) p. 544-547
[2] Xiaolong Yuan, Chenghai Chen: Chinese Journal of Latex Industry, Vol.1 (2001), p9
Online since: March 2015
Authors: Hong Ming Zhang, Li Xiang Zhang
Poudel et al. [5] studied the impact of sediment on turbine material.
Acknowledgements This work was financially supported by the National Natural Science Foundation of china (No. 51279071) and the Natural Science Foundation of Kunming University of Science and Technology (No.20149x16).
Sediment impact on turbine material: case study of Modi River, Nepal[J].
Kathmandu University Journal of Science, Engineering and Technology, 2012, 8(1): 88-96
Earth and Environmental Science 15 (2012)
Acknowledgements This work was financially supported by the National Natural Science Foundation of china (No. 51279071) and the Natural Science Foundation of Kunming University of Science and Technology (No.20149x16).
Sediment impact on turbine material: case study of Modi River, Nepal[J].
Kathmandu University Journal of Science, Engineering and Technology, 2012, 8(1): 88-96
Earth and Environmental Science 15 (2012)
Online since: April 2016
Authors: Ma Li Zhou, Jia Qi Wu, Jiang Nan Shen, Cong Jie Gao, Shan Shan Yang
The acid-treated materials were filtered, washed with deionized water, and dried to obtain lithium ion-sieves.
Fig. 3 shows the XRD patterns of the obtained materials.
Ooi: Chemistry of Materials, 12 (2000) 3151-3157
Gao: Journal of Functional Materials, 3 (2010) 432-435.
Zhuo: New Chemical Materials, 8 (2013) 123-125.
Fig. 3 shows the XRD patterns of the obtained materials.
Ooi: Chemistry of Materials, 12 (2000) 3151-3157
Gao: Journal of Functional Materials, 3 (2010) 432-435.
Zhuo: New Chemical Materials, 8 (2013) 123-125.
Effect of Metal Ions (Cu2+/Fe2+) on the Antioxidant Activity of L-Ascorbic Acid-Glycine Model System
Online since: November 2011
Authors: Da Zhai Zhou, Rong Zhao, Qi Hui Deng, Ai Nong Yu, Xiao Hong Yang, Cheng Yi Lei
Materials and methods.
Materials and methods Experimental instruments. pH meter (PHSJ-3F type pH meter, Shanghai Precision & Scientific Instrument Co., Ltd), UV spectrophotometer (UV-2501, Shimadzu Corporation), pressure reaction flask (P170005, Beijing Synthware Glass, Inc.), UF Cup (MSC300, Shanghai Mosu Science Equipment Co., Ltd) Laboratory reagents.
Vol. 200(1995),P .52 ~ 58 [3] M.Alaiz, F.J.Hidalgo, R.Zamora:Journal of Agricultural and Food Chemistry.
Vol. 47(1999), P.748 ~ 752 [4] D.Mastrocola.., & M.Munari: Journal of Agricultural and Food Chemistry.
Y.Chen:Journal of Agricultural and Food Chemistry.
Materials and methods Experimental instruments. pH meter (PHSJ-3F type pH meter, Shanghai Precision & Scientific Instrument Co., Ltd), UV spectrophotometer (UV-2501, Shimadzu Corporation), pressure reaction flask (P170005, Beijing Synthware Glass, Inc.), UF Cup (MSC300, Shanghai Mosu Science Equipment Co., Ltd) Laboratory reagents.
Vol. 200(1995),P .52 ~ 58 [3] M.Alaiz, F.J.Hidalgo, R.Zamora:Journal of Agricultural and Food Chemistry.
Vol. 47(1999), P.748 ~ 752 [4] D.Mastrocola.., & M.Munari: Journal of Agricultural and Food Chemistry.
Y.Chen:Journal of Agricultural and Food Chemistry.