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Online since: March 2022
Authors: Agus Geter Edy Sutjipto, Norshaheeda Mohd Zainal@Zulkifli
They were mixed in desire composition of starting materials.
Materials and Experiment Method Materials.
Fatile, Characterization of Vitrified Porcelain Tiles using Feldspar from Three Selected Deposits in Nigeria, European International Journal of Science and Technology. 3 (2014) No. 5
[4] H Baccour, M Medhioub, F Jamoussi, T Mhiri, Influence of firing temperature on the ceramic properties of Triassic clays from Tunisia, Journal of Materials Processing Technology. 209 (6) (2009) 2812-2817
Sayong Clay Material for Biocatalyst Immobilization, Materials Science Forum. 737 (2013) 145-152
Materials and Experiment Method Materials.
Fatile, Characterization of Vitrified Porcelain Tiles using Feldspar from Three Selected Deposits in Nigeria, European International Journal of Science and Technology. 3 (2014) No. 5
[4] H Baccour, M Medhioub, F Jamoussi, T Mhiri, Influence of firing temperature on the ceramic properties of Triassic clays from Tunisia, Journal of Materials Processing Technology. 209 (6) (2009) 2812-2817
Sayong Clay Material for Biocatalyst Immobilization, Materials Science Forum. 737 (2013) 145-152
Online since: December 2024
Authors: Mohamed H. El-Hofy, Mohamed Abd-Alrazzaq, Hassan A. El-Hofy
IOP Conference Series: Materials Science and Engineering, 709, 044099–. doi:10.1088/1757-899x/709/4/044099
[11] H.
Journal of Materials Processing Technology, 174, 145–154
Engineering Science and Technology, an International Journal, Volume 23, Issue 4, Pages 801-811. doi:10.1016/j.jestch.2020.06.009 [17] S.
IOP Conference Series: Materials Science and Engineering, 402(), 012102–. doi:10.1088/1757-899X/402/1/012102 [18] Mohamed El-Hofy; Mohamed Osama Helmy; Gustavo A Escobar-Palafox; Kevin Kerrigan; R.
Journal of Composite Materials, Vol. 55, Issue 12, Pages 1693-1703. doi.org/10.1177/0021998320974428 [20] N.
Journal of Materials Processing Technology, 174, 145–154
Engineering Science and Technology, an International Journal, Volume 23, Issue 4, Pages 801-811. doi:10.1016/j.jestch.2020.06.009 [17] S.
IOP Conference Series: Materials Science and Engineering, 402(), 012102–. doi:10.1088/1757-899X/402/1/012102 [18] Mohamed El-Hofy; Mohamed Osama Helmy; Gustavo A Escobar-Palafox; Kevin Kerrigan; R.
Journal of Composite Materials, Vol. 55, Issue 12, Pages 1693-1703. doi.org/10.1177/0021998320974428 [20] N.
Online since: February 2018
Authors: Chao Hao Hu, Zong Wei Ji, Yi Fan Li, Lian Sheng Zhong, Jun Qing Chang, Jia Liang Luo, Yan Zhong
Su: Materials Science in Semiconductor Progressing, Vol. 15 (2012), p. 20-26
[6] Z.G.
Li: Materials Science in Semiconductor Processing, Vol. 16 (2013), p. 62-69 [10] A.
Zhu: Journal of Materials Chemistry, Vol. 17 (2007), p. 2526-2532 [15] A.
Zhu: Computational Materials Science, Vol. 43 (2008), p. 1101-1108 [21] X.
Xu: Journal of Hazardous Materials, Vol. 196 (2011), p. 255-262 [30] T.
Li: Materials Science in Semiconductor Processing, Vol. 16 (2013), p. 62-69 [10] A.
Zhu: Journal of Materials Chemistry, Vol. 17 (2007), p. 2526-2532 [15] A.
Zhu: Computational Materials Science, Vol. 43 (2008), p. 1101-1108 [21] X.
Xu: Journal of Hazardous Materials, Vol. 196 (2011), p. 255-262 [30] T.
Online since: November 2012
Authors: Qi Dou Zhou, Gang Ji, Lu Cai Wang, Jia Xi Duan
Winandy Encyclopedia of Agricultural Science, Vol. 4.
Journal of Huangshan University.
Beijing: Chinese Academy of Architecture Science. 1991.
Beijing: Chinese Academy of Architecture Science. 1991.
Journal of Naval University of Engineering.
Journal of Huangshan University.
Beijing: Chinese Academy of Architecture Science. 1991.
Beijing: Chinese Academy of Architecture Science. 1991.
Journal of Naval University of Engineering.
Design on Support Training System of High-Speed Wheel Engineering Equipment Based on Virtual Reality
Online since: October 2011
Authors: Qiang Wang, Yu Min Jiao, Fan Tun Su
This method could save manpower and material resources, reduce the consumption of potential dangerous and provide a practical and efficient teaching methods.
References [1] Qunxing Su, Pengyuan Liu: Journal of China Ordnance Vol.21(2006),p.79-83,in Chinese
[2] Bensheng Zhang, Ying Wang: Journal of Naval Aeronautical Engineering Institute Vol.17(2002), p.571-574,in Chinese
[5] Tianhui Zhang, Ying Liu, Yuanchang Zhu: Journal of Ordnance Engineering College Vol.16 (2004),p.56-59,in Chinese
[6] Suangsuang Jiang: Journal of System Simulation Vol..19(2007),p.2488-2491,in Chinese.
References [1] Qunxing Su, Pengyuan Liu: Journal of China Ordnance Vol.21(2006),p.79-83,in Chinese
[2] Bensheng Zhang, Ying Wang: Journal of Naval Aeronautical Engineering Institute Vol.17(2002), p.571-574,in Chinese
[5] Tianhui Zhang, Ying Liu, Yuanchang Zhu: Journal of Ordnance Engineering College Vol.16 (2004),p.56-59,in Chinese
[6] Suangsuang Jiang: Journal of System Simulation Vol..19(2007),p.2488-2491,in Chinese.
Online since: October 2012
Authors: Guo Ping Luo, Yi Ci Wang, Jian Liang Zhang, Wen Wu Yu, Qi Jiang
Table 1 Chemical composition of the parent glass (wt %)
CaO
SiO2
Al2O3
MgO
26
54
10
10
Experimental materials and method
Experimental materials.
CaO-MgO-Al2O3-SiO2 system glass-ceramics was prepared by melting method in this experiment, and the BF slag and quartz sand were used as the major raw materials, added with a small amount of pure chemical reagents CaO, MgO and Al2O3.
All kinds of materials were respectively ground to smaller than 200 mesh and made into mixture according to the raw material proportion in Table 3.
References [1] D.L.Lin: Process Research and Technical Progress of Mining, Mineral Processing and Smelting for Baiyanobo Ore, edited by the Publishing House of Metallurgical Industry, Beijing, (2007) [2] X.G.Liu: Science &Technology of Baotou Steel (Group) Corporation Vol. 26 (2000), p. 35-37 [3] C.L.Yu, X.M.Guo: Science &Technology of Baotou Steel (Group) Corporation Vol. 37 (2011), p. 87-89 [4] M A.A.Francis: Journal of the European ceramic society Vol. 24 (2004), p. 2819-2824 [5] Z.W.Liu, Y.X.Sun, Z.Y.Zhong: Science &Technology of Laiwu Steel (Group) Corporation Vol. (2006), p. 49-50 [6] H.X.Lu, H.Y.Liu, L.J.Li: Brick and Tile Vol. (2008), p. 42-43 [7] G.A.
Khater: Ceramics International Vol. 28 (2002), p. 59-67 [8] H.Y.Liu, Y.Y.Sun, X.Q.Ren: Brick and Tile Vol. (2010), p. 58-61 [9] W.Zhang, S.M.Yang, X.L.Zhou: Journal of Xinjiang University (Natural Science Edition) Vol. 27 (2010), p. 209-213 [10] Z.J.Wang, W.Ni, Y.Jia: Journal of Non-Crystalline Solids Vol. 356 (2010), p. 1554-1558 [11] H.N.XIAO, Y.Liu, H.X.Shi: Science and Art of Ceramic Vol. (2003), p. 42-46
CaO-MgO-Al2O3-SiO2 system glass-ceramics was prepared by melting method in this experiment, and the BF slag and quartz sand were used as the major raw materials, added with a small amount of pure chemical reagents CaO, MgO and Al2O3.
All kinds of materials were respectively ground to smaller than 200 mesh and made into mixture according to the raw material proportion in Table 3.
References [1] D.L.Lin: Process Research and Technical Progress of Mining, Mineral Processing and Smelting for Baiyanobo Ore, edited by the Publishing House of Metallurgical Industry, Beijing, (2007) [2] X.G.Liu: Science &Technology of Baotou Steel (Group) Corporation Vol. 26 (2000), p. 35-37 [3] C.L.Yu, X.M.Guo: Science &Technology of Baotou Steel (Group) Corporation Vol. 37 (2011), p. 87-89 [4] M A.A.Francis: Journal of the European ceramic society Vol. 24 (2004), p. 2819-2824 [5] Z.W.Liu, Y.X.Sun, Z.Y.Zhong: Science &Technology of Laiwu Steel (Group) Corporation Vol. (2006), p. 49-50 [6] H.X.Lu, H.Y.Liu, L.J.Li: Brick and Tile Vol. (2008), p. 42-43 [7] G.A.
Khater: Ceramics International Vol. 28 (2002), p. 59-67 [8] H.Y.Liu, Y.Y.Sun, X.Q.Ren: Brick and Tile Vol. (2010), p. 58-61 [9] W.Zhang, S.M.Yang, X.L.Zhou: Journal of Xinjiang University (Natural Science Edition) Vol. 27 (2010), p. 209-213 [10] Z.J.Wang, W.Ni, Y.Jia: Journal of Non-Crystalline Solids Vol. 356 (2010), p. 1554-1558 [11] H.N.XIAO, Y.Liu, H.X.Shi: Science and Art of Ceramic Vol. (2003), p. 42-46
Online since: March 2016
Authors: Xiao Guo Cao, Chun Lei Liang, Shi Ming Xia
Materials Letters 132 (2014) 302-306
Journal of Materials Science 35 (2000) 1303-1313
Journal of Materials Engineering and Performance 21 (2012) 324-330
Journal of Materials Chemistry A 3 (2015) 2876-2882
Journal of Materials Processing Technology 209 (2009) 2104-2110
Journal of Materials Science 35 (2000) 1303-1313
Journal of Materials Engineering and Performance 21 (2012) 324-330
Journal of Materials Chemistry A 3 (2015) 2876-2882
Journal of Materials Processing Technology 209 (2009) 2104-2110
Online since: January 2013
Authors: Yu Shi, Xiao Xing Han, Si Chao Huang, Ying Liang
China
3School of Materials& Metallurgy Science and Engineering, Inner Mongolia University of Science and Technology, Bao Tou, Inner Mongolia, 014010, P.R.
Materials Chemistry and Physics.
Journal of Materials Science: Materials in Electronics.
Journal of materials science.
Journal of Materials Science Letters.
Materials Chemistry and Physics.
Journal of Materials Science: Materials in Electronics.
Journal of materials science.
Journal of Materials Science Letters.
Online since: March 2011
Authors: Hai Ting Cui
Acknowledgment
The work was support by the Nature Science Foundation of China with grant number, 50876004, the Nature Science Foundation of Hebei with grant number, 2008000700,the Science and Technology Support Project of Hebei Province, 09203923Dand the Project of Hebei Educational Office.
Koyun.Energy and exergy analysis of a latent heat storage system with phase change material for a solar collector.Renewable Energy Vol.34(2008),p. 567 [2] Bansal, N.K., Buddhi, D.Performance equations of a collector cum storage system using phase change materials.
International Journal of Heat and Mass Transfer Vol 43(2000),p. 3183 [5] Murat,Kenisarin.
,Khamid,Mahkamov..Solar energy storage using phase change materials.Renewable Energy Vol 9(2007),p. 1913 [6] N,Nallusamy.
Renewable Energy Vol 32(2007),p1206 [7] Sharma, A., Tyagi, V.V., Chen, C.R..Review on thermal energy storage with phase change materials and applications.
Koyun.Energy and exergy analysis of a latent heat storage system with phase change material for a solar collector.Renewable Energy Vol.34(2008),p. 567 [2] Bansal, N.K., Buddhi, D.Performance equations of a collector cum storage system using phase change materials.
International Journal of Heat and Mass Transfer Vol 43(2000),p. 3183 [5] Murat,Kenisarin.
,Khamid,Mahkamov..Solar energy storage using phase change materials.Renewable Energy Vol 9(2007),p. 1913 [6] N,Nallusamy.
Renewable Energy Vol 32(2007),p1206 [7] Sharma, A., Tyagi, V.V., Chen, C.R..Review on thermal energy storage with phase change materials and applications.
Online since: May 2011
Authors: Rui Jie Wang, He Ming Cheng, Bao Dong Shao, Jian Yun Li
Since materials have different structures and properties under different heat treatment schemes, heat treatment schemes have explicit effect on material fatigue property [2].
Ji: Journal of Materials Processing Technology Vol.176 (2006), p. 19–23
Gavgal et al.: Materials and Design Vol.25 (2004), p. 439-445
Manson: Journal of Engineering Material Technology Vol. 110(1988), p. 55-88
Ong: International journal of Fatigue Vol. 15(1993), p. 213-219
Ji: Journal of Materials Processing Technology Vol.176 (2006), p. 19–23
Gavgal et al.: Materials and Design Vol.25 (2004), p. 439-445
Manson: Journal of Engineering Material Technology Vol. 110(1988), p. 55-88
Ong: International journal of Fatigue Vol. 15(1993), p. 213-219