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Online since: September 2013
Authors: Bin Li, Yue Xian Zhang
Modified the materials appropriately can effectively improve the electrical properties of the material.
Nano-modified materials have the physical and chemical properties which traditional materials do not have.
So add the nano-materials in composite materials can effectively improve the electrical properties[9-10].
Effect of Nano modifying materials on the conductive properties.
References [1] Geng Xinling, Liu Jun, Ren Yuzhu, et al.: Journal of Aeronautical Materials, No.3, Vol. 26 (2006), p. 283.
Nano-modified materials have the physical and chemical properties which traditional materials do not have.
So add the nano-materials in composite materials can effectively improve the electrical properties[9-10].
Effect of Nano modifying materials on the conductive properties.
References [1] Geng Xinling, Liu Jun, Ren Yuzhu, et al.: Journal of Aeronautical Materials, No.3, Vol. 26 (2006), p. 283.
Online since: April 2012
Authors: Li Gang Zhao, Jia Long Ren, Chun Yan Zhang, Qing Wang, Bo Wang
Based on the 3D finite element simulation software DEFORM-3D V6.1, the cutting process of three kinds of typical hard processing materials (titanium alloy, nickel alloy, stainless steel materials) were simulated.
Introduction With the social progress and the development of science and technology, hard processing materials are applied more and more widely.
The study of materials’ machinability is a complex process.
The cutting process of three kinds of materials were simulated.
Clem: submitted to Journal of Materials Research (2003) [6] P.G.
Introduction With the social progress and the development of science and technology, hard processing materials are applied more and more widely.
The study of materials’ machinability is a complex process.
The cutting process of three kinds of materials were simulated.
Clem: submitted to Journal of Materials Research (2003) [6] P.G.
Online since: December 2013
Authors: Ai Dong Xu, Chen Xi Wang, Ming Zhe Liu
Research on the material transportation automation technology based on SEMI standard
Chenxi Wang 1, a, Mingzhe Liu1, b and Aidong Xu1, c
1Shenyang institute of Automation Chinese Academy of Sciences, Shenyang China
a wangchenxi@sia.cn, b lmz@sia.cn, c xad@sia.cn
Keywords: SEMI Standard, semiconductor, material transportation, FA.
Process of material transportation communication The process of material transportation communication is shown as Fig. 3.
Acknowledgments This paper is supported by the key laboratory of Chinese Academy of Sciences: Lab.
Research on SEMI standard model device control semiconductor, Chinese Journal of scientific instrument (fourth suppl.) 2008,4.
Design of semiconductor process equipment simulation system based on SEMI standard, electronic information materials and devices 2012, 4.
Process of material transportation communication The process of material transportation communication is shown as Fig. 3.
Acknowledgments This paper is supported by the key laboratory of Chinese Academy of Sciences: Lab.
Research on SEMI standard model device control semiconductor, Chinese Journal of scientific instrument (fourth suppl.) 2008,4.
Design of semiconductor process equipment simulation system based on SEMI standard, electronic information materials and devices 2012, 4.
Online since: July 2012
Authors: Zhi Min Chen, Yi Qun Wu, Ping Wang, Liang Li, Yi Chi Zhang, Chun Ying He
Conclusion
Investigation on the asymmetric-type and symmetric-type TPA materials containing quinoline ring as electron acceptors were performed because of the great potential application as TPA optical materials.
Wang, Journal of Molecular Structure: THEOCHEM 867(2008), 53
Rentzepis, Science 245 (1989), p. 843
Xu, Science. 281 (1998), p. 1653
Sasabe, Journal of Physics D: Applied Physics. 26 (1993), p. 8221
Wang, Journal of Molecular Structure: THEOCHEM 867(2008), 53
Rentzepis, Science 245 (1989), p. 843
Xu, Science. 281 (1998), p. 1653
Sasabe, Journal of Physics D: Applied Physics. 26 (1993), p. 8221
Online since: February 2011
Authors: Dong Jiang Wu, Li Jia Jiang, Qian Li, Xiao Kang Liang
Introduction
Since the mid-1980s, the processing of Functionally Gradient Materials(FGMs) and structures has become an academic interest.
The feedstock materials are delivered by argon gas(99.999%) injected through a coaxial powder feeding nozzle(Fig.1) and deposited at a rate of 500mm/min in order to prevent heavy oxidization.
Mazumder: Materials Science and Engineering A Vol. 509 (2009), p. 98-104 [3] Q.X.
Huang: Materials Science and Engineering A Vol. 391 (2005), p. 325-336 [5] M.L.
Chen, et al.: Chinese Journal of Lasers Vol. 32 (2005), p. 567-570.
The feedstock materials are delivered by argon gas(99.999%) injected through a coaxial powder feeding nozzle(Fig.1) and deposited at a rate of 500mm/min in order to prevent heavy oxidization.
Mazumder: Materials Science and Engineering A Vol. 509 (2009), p. 98-104 [3] Q.X.
Huang: Materials Science and Engineering A Vol. 391 (2005), p. 325-336 [5] M.L.
Chen, et al.: Chinese Journal of Lasers Vol. 32 (2005), p. 567-570.
Online since: March 2019
Authors: Syazana Ahmad Zubir, Suzana Ali Ernie, Najwa Mohd Nordin Nurul, Wahida Harun Farah, Mohd Zain Norazwani
However, the increasing cost of petrochemical crude materials and diminishing stores of petroleum assets cause the expanding of the intrigued in the applications of biodegradable and renewable polymeric materials.
Journal of Mechanical Engineering and Sciences. 2015;8:1507-15
Vegetable oil based eco-friendly coating materials: A review article.
Journal of Mechanical Engineering and Sciences (JMES). (9). pp. 1580-1586
Materials.(7). 7324-7338.
Journal of Mechanical Engineering and Sciences. 2015;8:1507-15
Vegetable oil based eco-friendly coating materials: A review article.
Journal of Mechanical Engineering and Sciences (JMES). (9). pp. 1580-1586
Materials.(7). 7324-7338.
Online since: July 2019
Authors: Ionuț Sebastian Vintilă, Constantin Sandu, Horatiu Serbescu, Mihaela Raluca Condruz
The work addresses two different but interconnected fields, material science for developing a multifunctional composite material having an embedded self-healing system and aerospace field for developing a new, lightweight structure.
Fiber-reinforced polymeric composite materials are fast gaining ground as preferred materials for construction of such structures.
The selected materials for the manufacturing process of the composite mirror are compliant with the space environment and space application procedures.
Rosei, The self-healing capability of carbon fiber composite structures subjected to hypervelocity impacts simulating orbital space debris, ISRN Nanomaterials, Volume 2012, Article ID 351205, doi:10.5402/2012/351205 [3] Nikhil V Nayak, Composite Materials in Aerospace Applications, International Journal of Scientific and Research Publications, Volume 4, Issue 9, September 2014, ISSN 2250-3153 [4] S.V.
Paraschiv, Self-healing efficiency for fiber reinforced polymer composites, TURBO Scientific Journal, vol.
Fiber-reinforced polymeric composite materials are fast gaining ground as preferred materials for construction of such structures.
The selected materials for the manufacturing process of the composite mirror are compliant with the space environment and space application procedures.
Rosei, The self-healing capability of carbon fiber composite structures subjected to hypervelocity impacts simulating orbital space debris, ISRN Nanomaterials, Volume 2012, Article ID 351205, doi:10.5402/2012/351205 [3] Nikhil V Nayak, Composite Materials in Aerospace Applications, International Journal of Scientific and Research Publications, Volume 4, Issue 9, September 2014, ISSN 2250-3153 [4] S.V.
Paraschiv, Self-healing efficiency for fiber reinforced polymer composites, TURBO Scientific Journal, vol.
Online since: May 2014
Authors: Ke Gao Liu, Jing Li, Nian Jing Ji, Wen Cheng Gao
Progress of ZnS and its Powder Morphology Synthesized by Chemical Route
WENCHENG Gao1,a, NIANJING Ji2,b, JING Li1,c, KEGAO Liu1,d,*
1School of Materials Science and Engineering, Shandong Jianzhu University, Fengming Road, Jinan 250101,China
2State Key Laboratory of Crystal Materials, Shandong University, 27 Shandanan Road, Jinan 250100, China
a404313319@qq.com, bjnj33jnj@126.com, clijing-ck@163.com,dliukg163@163.com,
*Corresponding author
Keywords: Semiconductor; ZnS; hydrothermal method; morphology
Abstract.
As the most wide band gap in II-VI compound semiconducting materials, ZnS has many advantages of low-price, innocuity and excellent electro-optical, piezoelectric and pyroelectric properties.
ZnS with high coefficients of refraction and transmission in visible light region has many applications in various fields, such as laser, window materials, inductor, solar cells, et al [3-5].
PhS. 26(1)(2009), p.15 [9] Chen C P, Xie J X: Journal of Atomic & Molecular Physics, 30(001)(2013), p. 149 [10] Zhu H, Huang J F, Cao L Y: Journal of Synthetic Crystals, 1(2009), p.6 [11] Liu D Z, Hou Z Q, Song J M: Journal of Materials Science & Engineering, 2011 (1), p.21 [12] Li L H, Xie R S, Xiao D Q: Journal of Functional Materials, 43(1) (2012), p. 59 [13] Lang J H, Li X, Gao M: Jilin Normal University Journal (Natural Science Edition), 1(2010), p.27 [14] Kou C L, Sun H, Cao J: Journal of Jilin Institute of Chemical Technology, 30(5) (2013), p.59 [15] Yang N, Liu X F, Yu R H.: China Science Paper, 3(2013), p.247 [16] Agawane G L, Shin S W, Moholkar A V: Journal of Alloys & Compounds, 535(2012), p.53 [17] Dhanya A C, Murali K V, Preetha K C: Materials Science in Semiconductor Processing, p.2013 [18] Zhang R, Wang B, Wei L : Vacuum, 86(8) (2012), p.1210 [19] Xie J, Li B, Li Y J : Chinese Journal of Physics. 59(8) (2010), p.5749 [20] Lai S L, Cheng S Y, Huang H L: Electronic
Components & Materials, 29(11) (2010), p.55 [21] Quan N C, Gao F, Sun J: China Journal of Power Sources, 134(1) (2010), p.28 [22] Huang J, Zhu H, Cao L Y: Journal of Synthetic Crystals, 37(4) (2008), p.862 [23] Liu Y J, Huang J F, Wang X F: Journal of Synthetic Crystals. 39(1) (2010), p.69 [24] Yuan H.: Doctor thesis of Jiangsu University of Science & Technology, (2012), p.8 [25] Fang X S, Ye C H, Peng X S: Journal of crystal growth, 263(1) (2004), p.263
As the most wide band gap in II-VI compound semiconducting materials, ZnS has many advantages of low-price, innocuity and excellent electro-optical, piezoelectric and pyroelectric properties.
ZnS with high coefficients of refraction and transmission in visible light region has many applications in various fields, such as laser, window materials, inductor, solar cells, et al [3-5].
PhS. 26(1)(2009), p.15 [9] Chen C P, Xie J X: Journal of Atomic & Molecular Physics, 30(001)(2013), p. 149 [10] Zhu H, Huang J F, Cao L Y: Journal of Synthetic Crystals, 1(2009), p.6 [11] Liu D Z, Hou Z Q, Song J M: Journal of Materials Science & Engineering, 2011 (1), p.21 [12] Li L H, Xie R S, Xiao D Q: Journal of Functional Materials, 43(1) (2012), p. 59 [13] Lang J H, Li X, Gao M: Jilin Normal University Journal (Natural Science Edition), 1(2010), p.27 [14] Kou C L, Sun H, Cao J: Journal of Jilin Institute of Chemical Technology, 30(5) (2013), p.59 [15] Yang N, Liu X F, Yu R H.: China Science Paper, 3(2013), p.247 [16] Agawane G L, Shin S W, Moholkar A V: Journal of Alloys & Compounds, 535(2012), p.53 [17] Dhanya A C, Murali K V, Preetha K C: Materials Science in Semiconductor Processing, p.2013 [18] Zhang R, Wang B, Wei L : Vacuum, 86(8) (2012), p.1210 [19] Xie J, Li B, Li Y J : Chinese Journal of Physics. 59(8) (2010), p.5749 [20] Lai S L, Cheng S Y, Huang H L: Electronic
Components & Materials, 29(11) (2010), p.55 [21] Quan N C, Gao F, Sun J: China Journal of Power Sources, 134(1) (2010), p.28 [22] Huang J, Zhu H, Cao L Y: Journal of Synthetic Crystals, 37(4) (2008), p.862 [23] Liu Y J, Huang J F, Wang X F: Journal of Synthetic Crystals. 39(1) (2010), p.69 [24] Yuan H.: Doctor thesis of Jiangsu University of Science & Technology, (2012), p.8 [25] Fang X S, Ye C H, Peng X S: Journal of crystal growth, 263(1) (2004), p.263
Online since: October 2006
Authors: L.L. Snead, N.B. Morley, William E. Windes, Yutai Katoh, Takashi Nozawa
Zmitko, "ITER Test Blanket Module Functional Materials," Journal of Nuclear
Materials (submitted)
Schwarz, Journal of Nuclear Materials 219 (1995) 3-14
Lewis, Journal of Nuclear Materials 219 (1995) 70-86
White, Journal of Nuclear Materials 340 (2005) 187-202
Price, Journal of Nuclear Materials 48 (1973) 47-57
Schwarz, Journal of Nuclear Materials 219 (1995) 3-14
Lewis, Journal of Nuclear Materials 219 (1995) 70-86
White, Journal of Nuclear Materials 340 (2005) 187-202
Price, Journal of Nuclear Materials 48 (1973) 47-57
Online since: August 2022
Authors: Yasir Nawab, Naveed Ahmed Siddiqui, Arif Ali Shah, Muhammad Shahid
Two elastomeric materials i.e.
Introduction Materials that exhibit negative Poisson’s ratio (NPR) under tensile load are termed as auxetic materials.
Alderson, Auxetic materials: Functional materials and structures from lateral thinking.
Advanced Materials 12 (2000) 617–628
Journal of Composite Materials 38 (2004)95–106
Introduction Materials that exhibit negative Poisson’s ratio (NPR) under tensile load are termed as auxetic materials.
Alderson, Auxetic materials: Functional materials and structures from lateral thinking.
Advanced Materials 12 (2000) 617–628
Journal of Composite Materials 38 (2004)95–106