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Online since: March 2010
Authors: Chong Hai Xu, Chuan Zhen Huang, Sheng Sun, Bin Fang
The details of simulation model and Monte Carlo
algorithm for two-phase ceramic tool materials have been given [7, 8].
Fig.1 SEM micrograph of Al2O3/SiC ceramic tool materials Simulation Results and Discussion The simulation of microstructure evolution for two-phase ceramic tool materials at the different simulation time (MCS) is shown in Fig.2.
The microstructure evolution for two-phase ceramic tool materials is simulated at the different duration time.
SEM micrographs of Al2O3/5vol% SiC ceramic tool materials Acknowledgements This project is supported by National Outstanding Young Scholar Science Foundation of NSFC (50625517) and Excellent Younger Scientist Foundation of Shandong Province (No.2008BS05005).
Journal of the European Ceramic Society 19 (1999), p. 615 [2] B.
Fig.1 SEM micrograph of Al2O3/SiC ceramic tool materials Simulation Results and Discussion The simulation of microstructure evolution for two-phase ceramic tool materials at the different simulation time (MCS) is shown in Fig.2.
The microstructure evolution for two-phase ceramic tool materials is simulated at the different duration time.
SEM micrographs of Al2O3/5vol% SiC ceramic tool materials Acknowledgements This project is supported by National Outstanding Young Scholar Science Foundation of NSFC (50625517) and Excellent Younger Scientist Foundation of Shandong Province (No.2008BS05005).
Journal of the European Ceramic Society 19 (1999), p. 615 [2] B.
Online since: September 2013
Authors: Ze Ding Wei, Han Chao Xu, Hui Su
The braking force between the brake disc and the brake pad is equal to the tension of controlled material at that time.
When the disturbance tension increases, the controlled material holds up the adjustment wheel.
It results in that the speed of material reel unwinding turns faster, and the tension is reduced.
Journal of Zhejiang Institute of Science and Technology. 17(2000) 99-102
Journal of Hebei University of Science and Technology. 25(2004) 51-54
When the disturbance tension increases, the controlled material holds up the adjustment wheel.
It results in that the speed of material reel unwinding turns faster, and the tension is reduced.
Journal of Zhejiang Institute of Science and Technology. 17(2000) 99-102
Journal of Hebei University of Science and Technology. 25(2004) 51-54
Online since: August 2016
Authors: Tomasz Sadowski, Przemysław Golewski, Viorel Radoiu
The important example of the modern composite materials are functionally graded materials, (e.g. [1-6]) or polycrystalline materials having thin metallic layers between material components (e.g. [7-10]).
Therefore, the present analysis will be developed for more complex geometries and structural parts made of different materials.
References [1] V.Birman, L.V.Bryd, Modelling and Analysis of Functionally Graded Materials and Structures.
[8] L.A.Gömze, L.N.Gömze, Alumina-based hetero-modulus ceramic composites with extreme dynamic strength – phase transformation of Si3N4 during high speed collision with metallic bodies, Ĕpitöanyag – Journal of Silicate Based and Composite Materials 61 (2009) 38-42
Sadowski, S.D.Dimitrova, Computational simulations of thermal shock cracking by the virtual crack closure technique in a functionally graded plate, Computational Materials Science 116 (2016) 11-21
Therefore, the present analysis will be developed for more complex geometries and structural parts made of different materials.
References [1] V.Birman, L.V.Bryd, Modelling and Analysis of Functionally Graded Materials and Structures.
[8] L.A.Gömze, L.N.Gömze, Alumina-based hetero-modulus ceramic composites with extreme dynamic strength – phase transformation of Si3N4 during high speed collision with metallic bodies, Ĕpitöanyag – Journal of Silicate Based and Composite Materials 61 (2009) 38-42
Sadowski, S.D.Dimitrova, Computational simulations of thermal shock cracking by the virtual crack closure technique in a functionally graded plate, Computational Materials Science 116 (2016) 11-21
Online since: March 2015
Authors: Hong Hao Ma, Zhao Wu Shen, De Bao Wang, Wei Chen
For this device, the shell materials are used to be shaped materials and multiple shaped ring is designed on the circular tube.
Fig.4 Experiment result of first witness plate for radial shaped charge Borehole blasting experiment Materials and design In this experimental, cylindrical copper pipe is used as cartridge case, the length and external diameter of the copper pipe are especially 320mm and 16mm, and the thickness of the shell is 1mm.
Acknowledge: This work was supported by the National Fund of Nature Science of China.
Beijing: Science Press (2011).
O, USA, Patent 4,724,105. (1988) [6] Yingcai ZHANG, Yu-ning SUN, Guan-jun FENG: Mechanics in Engineering, 19 (1997), p. 54 (In Chinese) [7] Hong-bing XIA, Lei LI, Hong-hao MA: Chinese Journal of Energetic Materials, 21 (2013), p. 85 (In Chinese) [8] Xin-hui LI, Pin GAO: Blasting, 25 (2008), p. 79 (In Chinese) [9] Guo-liang YANG, Ren-shu YANG, Qiang TONG: Journal of China Coal Society, 37 (2012), p. 385 (In Chinese) [10] Yong LUO, Zhao-wu SHEN: Explosion and Shock Waves, 26 (2006), p. 250 (In Chinese) [11] Yao ZHOU, Xiao-lin LI, Yan-jun TONG, et.al: Chinese Journal of Explosives & Propellants, 29 (2006), p. 70 (In Chinese) [12] Yong LUO, Zhao-wu SHEN, Xiao-rong CUI: Chinese Journal of Energetic Materials, 14(2006), p. 236 (In Chinese)
Fig.4 Experiment result of first witness plate for radial shaped charge Borehole blasting experiment Materials and design In this experimental, cylindrical copper pipe is used as cartridge case, the length and external diameter of the copper pipe are especially 320mm and 16mm, and the thickness of the shell is 1mm.
Acknowledge: This work was supported by the National Fund of Nature Science of China.
Beijing: Science Press (2011).
O, USA, Patent 4,724,105. (1988) [6] Yingcai ZHANG, Yu-ning SUN, Guan-jun FENG: Mechanics in Engineering, 19 (1997), p. 54 (In Chinese) [7] Hong-bing XIA, Lei LI, Hong-hao MA: Chinese Journal of Energetic Materials, 21 (2013), p. 85 (In Chinese) [8] Xin-hui LI, Pin GAO: Blasting, 25 (2008), p. 79 (In Chinese) [9] Guo-liang YANG, Ren-shu YANG, Qiang TONG: Journal of China Coal Society, 37 (2012), p. 385 (In Chinese) [10] Yong LUO, Zhao-wu SHEN: Explosion and Shock Waves, 26 (2006), p. 250 (In Chinese) [11] Yao ZHOU, Xiao-lin LI, Yan-jun TONG, et.al: Chinese Journal of Explosives & Propellants, 29 (2006), p. 70 (In Chinese) [12] Yong LUO, Zhao-wu SHEN, Xiao-rong CUI: Chinese Journal of Energetic Materials, 14(2006), p. 236 (In Chinese)
Online since: October 2010
Authors: Yang Zhang, Dong Tang, Rui Xue Duan, Hong Jun Ni
However, there are some deficiencies in the research about structure and materials of TDMFC.
Based on the previous research, in this paper, by using MCMB as raw materials, carbon composites tubular cathode support body and flat anode support body were prepared by gel-casting process.
Using different materials and chemicals, the photograph of tubular cathode and plate anode for TDMFC was shown in Fig. 1.
Journal of Jiangsu University (Natural Science Edition), 2009.30 (2):129-133.
Journal of Jiangsu University (Natural Science), 2009, 30 (4): 366 ~ 369.
Based on the previous research, in this paper, by using MCMB as raw materials, carbon composites tubular cathode support body and flat anode support body were prepared by gel-casting process.
Using different materials and chemicals, the photograph of tubular cathode and plate anode for TDMFC was shown in Fig. 1.
Journal of Jiangsu University (Natural Science Edition), 2009.30 (2):129-133.
Journal of Jiangsu University (Natural Science), 2009, 30 (4): 366 ~ 369.
Online since: October 2011
Authors: Serena Best, Ruth Cameron, Koonyang Lee, Duygu Ege, Alexandre Bismarck
Journal of Biomedical Materials Research Part A 2007;83A:169
Journal of Biomedical Materials Research Part A 2009;89A:108
Journal of Materials Science-Materials in Medicine 2005;16:899
Journal of Materials Science-Materials in Medicine 2002;13:529
Journal of Biomedical Materials Research 2002;59:697.
Journal of Biomedical Materials Research Part A 2009;89A:108
Journal of Materials Science-Materials in Medicine 2005;16:899
Journal of Materials Science-Materials in Medicine 2002;13:529
Journal of Biomedical Materials Research 2002;59:697.
Online since: February 2012
Authors: Wen Long Lu
The material is 2024-T3.
International Journal of Fatigue 24 (2002)1021–36 [2] Curt A.Lavender, Sung-Tae Hong, Mark T.Smith, et al.
Journal of materials processing technology 204 (2008) 486-91 [3] P.Peyre, R.
Materials Science and Engineering A 210 (1996) 102-13 [4] Y.K.
Materials and Design 30 (2009) 1697–703
International Journal of Fatigue 24 (2002)1021–36 [2] Curt A.Lavender, Sung-Tae Hong, Mark T.Smith, et al.
Journal of materials processing technology 204 (2008) 486-91 [3] P.Peyre, R.
Materials Science and Engineering A 210 (1996) 102-13 [4] Y.K.
Materials and Design 30 (2009) 1697–703
Online since: February 2019
Authors: Vladimir P. Volkov, Aziret A. Shamshiev, Denis Rinatovich Salikhyanov, Ivan S. Kamantsev
Modelling of shape anvils in free hot forging of long products, Journal of Materials Processing Technology 157–158 (2004) 131–137
Journal of Materials Processing Technology 177 (2006) 238–242
Estimation of bonding efficiency by finite-element analysis, Journal of Materials Processing Technology 72 (1997) 32–41
Moon, Optimization of open die forging of round shapes using FEM analysis, Journal of Materials Processing Technology 172 (2006) 88–95
Mirzadeh, Crystal Plasticity Analysis of Texture Evolution of Pure Aluminum During Processing by a New Severe Plastic Deformation Technique, Metallurgical and Materials Transactions A: Physical Metallurgy and Materials Science, Vol. 47 Issue 2 (2016) 941–948
Journal of Materials Processing Technology 177 (2006) 238–242
Estimation of bonding efficiency by finite-element analysis, Journal of Materials Processing Technology 72 (1997) 32–41
Moon, Optimization of open die forging of round shapes using FEM analysis, Journal of Materials Processing Technology 172 (2006) 88–95
Mirzadeh, Crystal Plasticity Analysis of Texture Evolution of Pure Aluminum During Processing by a New Severe Plastic Deformation Technique, Metallurgical and Materials Transactions A: Physical Metallurgy and Materials Science, Vol. 47 Issue 2 (2016) 941–948
Online since: October 2019
Authors: Xing Yu Mao, Gong Qin Xu, Xiao Wei Chen
The ferromagnetism in Cu doped materials has been observed and reported [1-4].
The raw materials are analytical grade Y2O3 (yttria) and CuO(tenorite) powders.
Journal of Materials Research. 1991;6:450-4
Materials Science and Engineering: B. 1995;32:57-61
Advanced Materials Research. 2011; 239:3001-4
The raw materials are analytical grade Y2O3 (yttria) and CuO(tenorite) powders.
Journal of Materials Research. 1991;6:450-4
Materials Science and Engineering: B. 1995;32:57-61
Advanced Materials Research. 2011; 239:3001-4
Online since: August 2013
Authors: Bing Sun, Zhi Yu Yan, Xiao Mei Zhu, Hui Liu, Brim Stevy Ondon
References
[1] Paulo, A.M. and Peter, J.M: submitted to Journal of Materials Science(2008)
[6] Rivera, M., Sanchez, P., Gomez, V., Alvarez, P.M. and Ferraz, J.M: submitted to Journal of Hazardous Materials (2011)
And Wang, X: submitted to Journal of Hazardous Materials (2008)
,Kai, Y., Yongming,J., Cheng,S.and Lianhong,Wang: submitted to Journal of Hazardous Materials(2010)
[18] Guido, B., Silvia, B., Carlo, R. and Laura A: submitted to Journal of Hazardous Materials(2008)
[6] Rivera, M., Sanchez, P., Gomez, V., Alvarez, P.M. and Ferraz, J.M: submitted to Journal of Hazardous Materials (2011)
And Wang, X: submitted to Journal of Hazardous Materials (2008)
,Kai, Y., Yongming,J., Cheng,S.and Lianhong,Wang: submitted to Journal of Hazardous Materials(2010)
[18] Guido, B., Silvia, B., Carlo, R. and Laura A: submitted to Journal of Hazardous Materials(2008)