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Online since: July 2014
Authors: Feng Yun Liu, Shu Sen Bai, Yun Xia Gao
With the development of the Science and Technology, How to deal with the information by using computer and irrternet has been very important, the process of the human and computer interaction, the use of the visualization of information makes human and computer consistent, and also makes the transmission and access of the information intuitive and vivid.
Introduction With the progress of science and technology and the increasing focus on people's emotional needs, today's interface design must use much more complex people’s impression of factors than in the past[1-2].
Table.1 Graphic classification of information parallel type progressive type comparison type process type combination type have an appareled logical relationship, principal parts exists at the same level stand for growth or information of influent core classes By comparing the relationship quickly locate and access to property information time process analysis process behavior process a whole combination of several parts together The web interface between people and computers to the network as a platform for information interface, it is a non - material design of digital form to interact with people.
Some corporate image and marketing websites to give users a deep impression, you need to innovate on the structure.South Korean fire level of the Building Materials Association home page, the frame skeleton of the page is evolved from its logo, is an uppercase " K " glyphs, delivering a high level of corporate philosophy of information, with a strong sense of identification.To sum up, the Web interface in the design of layout design of frame structure of bones, properly designed not only with the guiding role of visual processes, and enhance information delivery.Meet the aesthetic and personalized needs of people.
[2] H.M.Yu: Journal of Hunan University ( Social Science Edition ),Vol.15( 2011)No.4,p.119 [3] X.Q.Xiong: Journal of Hebei University ( Philosophy and Social Sciences Edition ). 2009 [4] Richard Saul wunman : Beijing, Publishing House of Electronics Industry, 2010
Introduction With the progress of science and technology and the increasing focus on people's emotional needs, today's interface design must use much more complex people’s impression of factors than in the past[1-2].
Table.1 Graphic classification of information parallel type progressive type comparison type process type combination type have an appareled logical relationship, principal parts exists at the same level stand for growth or information of influent core classes By comparing the relationship quickly locate and access to property information time process analysis process behavior process a whole combination of several parts together The web interface between people and computers to the network as a platform for information interface, it is a non - material design of digital form to interact with people.
Some corporate image and marketing websites to give users a deep impression, you need to innovate on the structure.South Korean fire level of the Building Materials Association home page, the frame skeleton of the page is evolved from its logo, is an uppercase " K " glyphs, delivering a high level of corporate philosophy of information, with a strong sense of identification.To sum up, the Web interface in the design of layout design of frame structure of bones, properly designed not only with the guiding role of visual processes, and enhance information delivery.Meet the aesthetic and personalized needs of people.
[2] H.M.Yu: Journal of Hunan University ( Social Science Edition ),Vol.15( 2011)No.4,p.119 [3] X.Q.Xiong: Journal of Hebei University ( Philosophy and Social Sciences Edition ). 2009 [4] Richard Saul wunman : Beijing, Publishing House of Electronics Industry, 2010
Online since: November 2009
Authors: Ke Han
Two kinds of materials will be discussed.
Metallurgica,21,249-253,(1987) [5] HYZAK , METALLURGICAL TRANSACTIONS A-PHYSICAL METALLURGY AND MATERIALS SCIENCE, 7, 8, 1217-1224, 1976 [6] E.O.Hall, Proc.
[12] RIDLEY N, METALLURGICAL TRANSACTIONS A-PHYSICAL METALLURGY AND MATERIALS SCIENCE Volume: 15 Issue: 6 Pages: 1019-1036, 1984 [13] Porter D.A.EASTERLING KE, SMITH GDW, ACTA METALLURGICA Volume: 26 Issue: 9 Pages: 1405-1422 Published: 1978 [14] ATASOY OE, OZBILEN S, JOURNAL OF MATERIALS SCIENCE Volume: 24 Issue: 1 Pages: 281-287, (1989)
Harrogate, Paper1 [25] B.Garbarz and F.B.Pickering, Materials Science and Technology, 4, 967, (1988) [26] M.
I., Shikov A., Nikulin A.and Vorobieva A., Materials Science and Engineering, 1999, A267, 99
Metallurgica,21,249-253,(1987) [5] HYZAK , METALLURGICAL TRANSACTIONS A-PHYSICAL METALLURGY AND MATERIALS SCIENCE, 7, 8, 1217-1224, 1976 [6] E.O.Hall, Proc.
[12] RIDLEY N, METALLURGICAL TRANSACTIONS A-PHYSICAL METALLURGY AND MATERIALS SCIENCE Volume: 15 Issue: 6 Pages: 1019-1036, 1984 [13] Porter D.A.EASTERLING KE, SMITH GDW, ACTA METALLURGICA Volume: 26 Issue: 9 Pages: 1405-1422 Published: 1978 [14] ATASOY OE, OZBILEN S, JOURNAL OF MATERIALS SCIENCE Volume: 24 Issue: 1 Pages: 281-287, (1989)
Harrogate, Paper1 [25] B.Garbarz and F.B.Pickering, Materials Science and Technology, 4, 967, (1988) [26] M.
I., Shikov A., Nikulin A.and Vorobieva A., Materials Science and Engineering, 1999, A267, 99
Online since: August 2012
Authors: Jia Fei Yan, Bin Hai Zhao, Ming Qiu, Peng Fei Shi
Experiments
Experimental Materials.
[2] R Kunc, A Zerovnik, M Zvokelj and I Prebil: Materials and technology, Vol. 2 (2007), pp.73-76
[3] Robert Kunc and Ivan Prebil: Journal of Materials Processing Technology, Vol.155-156(2004), pp.1696-1703
Wang: Journal of Mechanical Science and Technology, Vol.24 (2010) No.10, pp.2083-2089
Wang: Journal of University of Science and Technology Beijing, Vol.29 (2007) No.4, pp.398-401.
[2] R Kunc, A Zerovnik, M Zvokelj and I Prebil: Materials and technology, Vol. 2 (2007), pp.73-76
[3] Robert Kunc and Ivan Prebil: Journal of Materials Processing Technology, Vol.155-156(2004), pp.1696-1703
Wang: Journal of Mechanical Science and Technology, Vol.24 (2010) No.10, pp.2083-2089
Wang: Journal of University of Science and Technology Beijing, Vol.29 (2007) No.4, pp.398-401.
Online since: September 2013
Authors: Tai Kun Wang, Juan Juan Sun, Jun Min Du
With the weight-reduction requirement for transportation tools, more and more plastics and composite materials will be applied.
Therefore, the joints between different materials were required.
Joints between CFRP with metal In addition, other lightweight materials are considered to make joints with CFRP.
International Journal of Adhesion & Adhesives, 2007, 27(7) : 574 – 583
International Journal of Adhesion & Adhesives, 2006, 26: 184 – 198
Therefore, the joints between different materials were required.
Joints between CFRP with metal In addition, other lightweight materials are considered to make joints with CFRP.
International Journal of Adhesion & Adhesives, 2007, 27(7) : 574 – 583
International Journal of Adhesion & Adhesives, 2006, 26: 184 – 198
Online since: May 2016
Authors: Chuan Zhen Huang, Han Lian Liu, Bin Zou, Yu Huan Fei
Experiments
Starting materials and sample preparation.
The flank wear curves of the ceramic tool materials are given in Fig. 1.
Hou, Study on machining hardness material with ceramic cutting tools, Journal of North China Institute of Science and Technology. 1(2004)25-27
Huang, The research of ceramics toughening and reinforcing methods, Journal of Qilu University of Technology (Natural Science Edition), 28(2014)14-17
Zou, Mechanical Properties of Al2O3-TiC-TiN Ceramic Tool Materials, Ceram.
The flank wear curves of the ceramic tool materials are given in Fig. 1.
Hou, Study on machining hardness material with ceramic cutting tools, Journal of North China Institute of Science and Technology. 1(2004)25-27
Huang, The research of ceramics toughening and reinforcing methods, Journal of Qilu University of Technology (Natural Science Edition), 28(2014)14-17
Zou, Mechanical Properties of Al2O3-TiC-TiN Ceramic Tool Materials, Ceram.
Online since: January 2006
Authors: Da Yin Liao
Vehicle Clustering Phenomenon in Automatic Materials Handling
Systems in 300mm Semiconductor Manufacturing
Da-Yin Liao
Department of Information Management
National Chi-Nan University, Puli, Nantou, 545, TAIWAN
dyliao@ncnu.edu.tw
Keywords: 300mm Semiconductor Manufacturing, Automatic Materials Handling System, Vehicle
Clustering Phenomenon.
This paper explores the causes of the VCP problem and clarifies its impacts to automatic materials handling operations in 300mm semiconductor manufacturing.
Applications to this research results include materials handling systems in manufacturing, and round-trip bus/train dispatching in metropolitan transportation.
Acknowledgement This work is supported in part by National Science Council, R.O.C., under grant of NSC-93-2213-E-260-013.
International Journal of Production Research, 38(16), 3913 (2000)
This paper explores the causes of the VCP problem and clarifies its impacts to automatic materials handling operations in 300mm semiconductor manufacturing.
Applications to this research results include materials handling systems in manufacturing, and round-trip bus/train dispatching in metropolitan transportation.
Acknowledgement This work is supported in part by National Science Council, R.O.C., under grant of NSC-93-2213-E-260-013.
International Journal of Production Research, 38(16), 3913 (2000)
Online since: November 2025
Authors: Somalu Mahendra Rao, Muchtar Andanastuti, Mahmud Lily Siong, Ali Shaikh Abdul Muhammed
This phenomenon is important because it could increase the density and conductivity of ionic materials in electrolyte materials.
Balani, "Progress in material selection for solid oxide fuel cell technology: A review," Progress in Materials Science, vol. 72, (2015) 141-337
Zhu, et al., "A brief description of high temperature solid oxide fuel cell’s operation, materials, design, fabrication technologies and performance," Applied Sciences, vol. 6, (2016) 1-23
Wu, et al., "Iron-based electrode materials for solid oxide fuel cells and electrolysers," Energy & Environmental Science, vol. 14, (2021) 6287-6319
Zhang, Solid oxide fuel cells: Materials properties and performance.
Balani, "Progress in material selection for solid oxide fuel cell technology: A review," Progress in Materials Science, vol. 72, (2015) 141-337
Zhu, et al., "A brief description of high temperature solid oxide fuel cell’s operation, materials, design, fabrication technologies and performance," Applied Sciences, vol. 6, (2016) 1-23
Wu, et al., "Iron-based electrode materials for solid oxide fuel cells and electrolysers," Energy & Environmental Science, vol. 14, (2021) 6287-6319
Zhang, Solid oxide fuel cells: Materials properties and performance.
Online since: February 2014
Authors: Ahmad Razlan Yusoff, Mohamad Syahmi Shahrom
Tekkaya, et al., "Hot profile extrusion of AA-6060 aluminum chips," Journal of Materials Processing Technology, vol. 209, pp. 3343-3350, 2009
Haase, et al., "Improving mechanical properties of chip-based aluminum extrudates by integrated extrusion and equal channel angular pressing (iECAP)," Materials Science and Engineering: A, vol. 539, pp. 194-204, 2012
Samuel, "A new technique for recycling aluminium scrap," Journal of Materials Processing Technology, vol. 135, pp. 117-124, 2003
Gronostajski, et al., "Production of composites from Al and AlMg2 alloy chips," Journal of Materials Processing Technology, vol. 77, pp. 37-41, 1998
Gronostajski, et al., "Bearing materials obtained by recycling of aluminium and aluminium bronze chips," Journal of Materials Processing Technology, vol. 125–126, pp. 483-490, 2002
Haase, et al., "Improving mechanical properties of chip-based aluminum extrudates by integrated extrusion and equal channel angular pressing (iECAP)," Materials Science and Engineering: A, vol. 539, pp. 194-204, 2012
Samuel, "A new technique for recycling aluminium scrap," Journal of Materials Processing Technology, vol. 135, pp. 117-124, 2003
Gronostajski, et al., "Production of composites from Al and AlMg2 alloy chips," Journal of Materials Processing Technology, vol. 77, pp. 37-41, 1998
Gronostajski, et al., "Bearing materials obtained by recycling of aluminium and aluminium bronze chips," Journal of Materials Processing Technology, vol. 125–126, pp. 483-490, 2002
Online since: February 2011
Authors: Yi Song, Zhao Yao Zhou, Zhi Cheng Chen, Yong Quan Ye
References
[1] A Zavaliangos, J Zhang, M Krammer and JR Groza: Materials Science and Engineering: A, Vol. 379 (2004), p. 218
[2] D Tiwari, B Basu, K Biswas: Ceramics International, Vol. 35 (2009), p. 699
[3] G Maizza, S Grasso, Y Sakka: Journal of Materials Science, Vol. 44 (2009), p. 1219
[4] J Yang, Y Li, X Li, L Guo, W Chen: Tezhong Zhuzao Ji Youse Hejin/Special Casting and Nonferrous Alloys, Vol. 27 (2007), p. 24
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[7] K Vanmeensel, A Laptev, O Van der Biest, J Vleugels: Journal of the European Ceramic Society, Vol. 27 (2007), p. 979
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Cintas: Metallurgical and Materials Transactions B: Process Metallurgy and Materials Processing Science, Vol. 38 (2007), p. 957.
, Metals and Materials Society, Columbus, OH, United states (2002)
[9] U Anselmi-Tamburini, S Gennari, JE Garay, ZA Munir: Materials Science and Engineering A, Vol. 394 (2005), p. 139
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Cintas: Metallurgical and Materials Transactions B: Process Metallurgy and Materials Processing Science, Vol. 38 (2007), p. 957.
Online since: September 2011
Authors: Wei Wu, Yi Zeng, Zi Wei Liu, Min Ju Ding, Cheng Gong Zhang, Yong Zhe Wang
In most cases, observation of cross section can provide more important information concerning the microstructure of layered materials, composite materials, multilayer films, fibrous materials and powders than surface observation alone.
As a result, it is both a science and art to prepare highly-polished cross section of these materials.
CP could widely be applied to the soft materials (Cu, Al and polymers), hard materials that is difficult to machine (ceramics and glasses) and composite materials with different hardness.
So comparing to mechanical polishing and FIB method, the advantages of the CP method include: (1) High quality cross-section of soft materials, hard materials and composite materials
Terasaki: Nordic Pulp and Paper Research Journal. (2010), p. 107
As a result, it is both a science and art to prepare highly-polished cross section of these materials.
CP could widely be applied to the soft materials (Cu, Al and polymers), hard materials that is difficult to machine (ceramics and glasses) and composite materials with different hardness.
So comparing to mechanical polishing and FIB method, the advantages of the CP method include: (1) High quality cross-section of soft materials, hard materials and composite materials
Terasaki: Nordic Pulp and Paper Research Journal. (2010), p. 107