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Online since: October 2013
Authors: D.M. Yu, L.L. Yang, X.F. Chen, S.C. Zhang, Hong Xia Zhang
Zhang1,*
1 Key Laboratory of Advanced Textile Materials and Manufacturing Technology, Ministry of Education of China, Zhejiang Sci-Tech University, Hangzhou, Zhejiang 310018, China
2 Zhejiang Sanzhi Textiles Co.
This research use a reasonable mix of materials and the structures to achieve highly shading performance of curtain fabrics.
Shanghai Textile Science & Technology, 2010, 38(5):48-49
Journal of Silk, 2012, 49(7): 55-60
Journal of Donghua University (Nature Science Edition). 2011, 37(2):153-157.
This research use a reasonable mix of materials and the structures to achieve highly shading performance of curtain fabrics.
Shanghai Textile Science & Technology, 2010, 38(5):48-49
Journal of Silk, 2012, 49(7): 55-60
Journal of Donghua University (Nature Science Edition). 2011, 37(2):153-157.
Online since: May 2011
Authors: Dan Dan Wen, Jing Xian Li, Juan Qin Xue, Yu Jie Wang, Wei Bo Mao
The results provide the theoretical basis and research frame for the preparation of the material of chitosan photosenstitzer.
Experimental section Materials and chemicals. 721A spectrophotometer, SHZ-82A invariable temperature water rocker; 78-1 magnetic agitator; PB-10 pH-meter; CP2245 electronic analytical balance; chitosan; methylene blue; sodium hydroxide; acetic acid; Acetamidine Hydrochloride.
[5] Zijun Wang and Mei Xue: Journal of Shihezi University(Natural Science), Vol. 22, Iss. 5,(2004) , p. 450-454
Tang: Journal of Photochemistry and Photobiology B: Biology Vol. 74, Iss. 2–3(2004), p. 119
[12] O¨ zer A and Dursun G: Journal of Hazardous Materials, Vol. 146, Iss. 1-2(2007), p. 262–269
Experimental section Materials and chemicals. 721A spectrophotometer, SHZ-82A invariable temperature water rocker; 78-1 magnetic agitator; PB-10 pH-meter; CP2245 electronic analytical balance; chitosan; methylene blue; sodium hydroxide; acetic acid; Acetamidine Hydrochloride.
[5] Zijun Wang and Mei Xue: Journal of Shihezi University(Natural Science), Vol. 22, Iss. 5,(2004) , p. 450-454
Tang: Journal of Photochemistry and Photobiology B: Biology Vol. 74, Iss. 2–3(2004), p. 119
[12] O¨ zer A and Dursun G: Journal of Hazardous Materials, Vol. 146, Iss. 1-2(2007), p. 262–269
Online since: November 2005
Authors: Francisco Rolando Valenzuela-Díaz, Carolina A. Pinto, Shirley Cosin, P. Souza Santos
ABSTRACT - Carbon/mineral complexes are materials with surfaces covered partially or totally
by carbon materials contains.
Ceramic properties These tests were performed only with materials D, E and F.
The other materials either crumbled or had a high mass loss.
Materials Chemistry and Physics, 34(2), 123-141 (1993). 2) Leboda, R.; Charmas, B.
Surface properties of mesoporous carbon-silica gel adsorbents, Journal of Colloid and Science Interface.223, 112-125 (2000). 4) Santos, P.S. - Science and Technology of Clays, 2 nd ed., Edgard Blücher, São Paulo, 1989 (vol1) and 1992 (vol. 2 and 3). 5) Cosin, S.
Ceramic properties These tests were performed only with materials D, E and F.
The other materials either crumbled or had a high mass loss.
Materials Chemistry and Physics, 34(2), 123-141 (1993). 2) Leboda, R.; Charmas, B.
Surface properties of mesoporous carbon-silica gel adsorbents, Journal of Colloid and Science Interface.223, 112-125 (2000). 4) Santos, P.S. - Science and Technology of Clays, 2 nd ed., Edgard Blücher, São Paulo, 1989 (vol1) and 1992 (vol. 2 and 3). 5) Cosin, S.
Online since: July 2011
Authors: Yue Zhang, Hong Yan Ding, Mu Jian Xia, Guang Hong Zhou
Journal of Materials Processing Technology, 2007, 12(187):p140-144
Journal of Materials Processing Technology, 2007, 12(187):p128-131
International Journal of Material Forming, 2008, 1(1):p13-20
Journal of Materials Processing Technology, 2008, 3(206):p45-55
Journal of Materials Processing Technology, 2008, 3(206):p83-91
Journal of Materials Processing Technology, 2007, 12(187):p128-131
International Journal of Material Forming, 2008, 1(1):p13-20
Journal of Materials Processing Technology, 2008, 3(206):p45-55
Journal of Materials Processing Technology, 2008, 3(206):p83-91
Online since: September 2013
Authors: Viktor Vekky Ronald Repi, Azwar Manaf
Repi 1, 2, a and Azwar Manaf 1
1 Postgraduate Program of Materials Science, Faculty of Mathematics and Natural Science, Universitas Indonesia Jalan Salemba Raya 4, Jakarta 10430, INDONESIA
2 Department of Engineering Physics, Universitas Nasional, Jakarta 12520
a vekky_repi@yahoo.com
Keywords : Composite material, complex impedance, barium hexaferrite, mechanical alloying, electrical charge transport, electromagnetic wave absorber.
The composite materials are prepared by conventional ceramics method.
The structures of composite materials are investigated by X-ray diffraction analysis (XRD) and Scanning Electron Microscopy (SEM).
Very interestingly, the composite materials for the weight ratio of x=0.5 and 0.7 exhibit the semicircle pattern in complex impedance.
Choudhary, “Complex Impedance Spectroscopic Properties of Ba3V2O8 Ceramics,” Research Letters in Materials Science, Volume 2008, Article ID 746256, 5 pages, doi:10.1155/2008/746256
The composite materials are prepared by conventional ceramics method.
The structures of composite materials are investigated by X-ray diffraction analysis (XRD) and Scanning Electron Microscopy (SEM).
Very interestingly, the composite materials for the weight ratio of x=0.5 and 0.7 exhibit the semicircle pattern in complex impedance.
Choudhary, “Complex Impedance Spectroscopic Properties of Ba3V2O8 Ceramics,” Research Letters in Materials Science, Volume 2008, Article ID 746256, 5 pages, doi:10.1155/2008/746256
Online since: June 2012
Authors: Dun Bo Yu, Ming Pang, Shuai Lu, Hong Wei Li, Bo Wang
A New Method to Study the Thermal Fatigue Resistance of Molybdenum by High Power Laser Irradiation
Shuai Lu1,a, Hongwei Li1,b, Dunbo Yu1,c, Ming Pang2,d, and Bo Wang3,e
1General Research Institute for Nonferrous Metals, National Engineering Research Center for Rare Earth Materials, Grirem Advanced Materials Co., Ltd, Beijing 100088,P.R.China
2Substation of China North Engine Research Institute, Langfang 065000,P.R.China
3School of Material Science and Engineering, Beijing University of Technology, Beijing 100022, P.
Noda: Advanced Materials Research, Vol. 9 (2005), p.69
Liu: Advanced Materials Research, Vol. 228-229 (2011), p.500
Liu: Advanced Materials Research, Vol. 415-417 (2011), p.2053
Bao: Journal of Rare Earths, Vol. 29 (2011) No.5, p.489
Noda: Advanced Materials Research, Vol. 9 (2005), p.69
Liu: Advanced Materials Research, Vol. 228-229 (2011), p.500
Liu: Advanced Materials Research, Vol. 415-417 (2011), p.2053
Bao: Journal of Rare Earths, Vol. 29 (2011) No.5, p.489
Online since: December 2010
Authors: Xin Zhong Wang, Guang Hui Yu, Shi Guo Li, Cheng Guo Wu
Top-down formation of GaN nanocone arrays for application in field emission
Xinzhong Wang1,a, Guanghui Yu2,b, Shiguo Li1,c, Chengguo Wu3,d
1Department of Electronics and Communications Technology, Shenzhen Institute of Information Technology, Shenzhen, 518029, China
2State Key laboratory of Functional Materials for Informatics, Shanghai Institute of Microsystem and Information Technology, Chinese Academy of Sciences, Shanghai, 200050, China
3College of Sciences, PLA University of Science and Technology, Nanjing, 210007, China
axzwang868@163.com, bghyu@mail.sim.ac.cn, clishiguo2002@163.com, dwcg6828@sina.com
Key words: nanocone; GaN; field emission; ICP
Abstract:
We present a novel method to fabricate uniform GaN nanocone arrays (GNA) using Nickel-nanoisland masks.
With the rapid progress in semiconductor process technology, GaN nanostructured materials with various morphologies have been successfully synthesized via different routines.
Contrary to the bottom-up synthesis, top-down etching process is an alternate way to achieve nanorod structures by removing the constituent elements from the original materials.
Nikolaev et al.: Science Vol. 269 (1995), p. 1550-1553
Zhu et al.: Materials.
With the rapid progress in semiconductor process technology, GaN nanostructured materials with various morphologies have been successfully synthesized via different routines.
Contrary to the bottom-up synthesis, top-down etching process is an alternate way to achieve nanorod structures by removing the constituent elements from the original materials.
Nikolaev et al.: Science Vol. 269 (1995), p. 1550-1553
Zhu et al.: Materials.
Online since: October 2016
Authors: S. Nallusamy, V. Saravanan
The sources of raw materials were from supplier as well as in-house.
From the sequence of operations followed in the industry, it was found that the raw materials received from the supplier undergo less processing as compared with in-house materials.
Venkatraman, Vijaya Ramnath, Muthu Kumar and Elanchezhian, (2014), “Application of value stream mapping for reduction of cycle time in a machining process”, Procedia Material Science, Vol. 6, pp. 1187-1196 [5] S.
Nallusamy, (2016), “ Frequency analysis of lean manufacturing system by different critical issues in Indian automotive industries”, International Journal of Engineering Research in Africa, Vol. 23, pp. 181-187 [6] Santosh B, Dighe and Abhay Kakirde, (2014), “Lean manufacturing implementation using value stream mapping: A case study of pumps manufacturing company”, International Journal of Science and Research, Vol. 3(6), pp. 2492-2498 [7] S.
Balasuadhakar, (2015), “Value stream mapping and work standardization as tools for lean manufacturing implementation: A case study of an Indian manufacturing industry”, International Journal of Engineering Science and Innovative Technology, Vol. 4(3), pp. 156-163 [17] S.
From the sequence of operations followed in the industry, it was found that the raw materials received from the supplier undergo less processing as compared with in-house materials.
Venkatraman, Vijaya Ramnath, Muthu Kumar and Elanchezhian, (2014), “Application of value stream mapping for reduction of cycle time in a machining process”, Procedia Material Science, Vol. 6, pp. 1187-1196 [5] S.
Nallusamy, (2016), “ Frequency analysis of lean manufacturing system by different critical issues in Indian automotive industries”, International Journal of Engineering Research in Africa, Vol. 23, pp. 181-187 [6] Santosh B, Dighe and Abhay Kakirde, (2014), “Lean manufacturing implementation using value stream mapping: A case study of pumps manufacturing company”, International Journal of Science and Research, Vol. 3(6), pp. 2492-2498 [7] S.
Balasuadhakar, (2015), “Value stream mapping and work standardization as tools for lean manufacturing implementation: A case study of an Indian manufacturing industry”, International Journal of Engineering Science and Innovative Technology, Vol. 4(3), pp. 156-163 [17] S.
Online since: November 2014
Authors: Jun Wei Liu, Zi Peng Ouyang, Shi Qiang Lu, Jian Bao Hou, Yuan Zhi Huang
[5] Yan W Y.Materials Science and Engineering A, 2006,427(1-2):348-355
Materials Letters, 2005, 59 (6): 705-709
Materials Science and Engineering A, 2012, 546: 53-58 [14] Kocich R, Kursa M, Szurman I, Dlouhy A.
Materials Science and Engineering A. 2009, 512: 100-104 [17] Cheng X H, Li Z H.
Materials and Design, 2006, 27(4): 324-328
Materials Letters, 2005, 59 (6): 705-709
Materials Science and Engineering A, 2012, 546: 53-58 [14] Kocich R, Kursa M, Szurman I, Dlouhy A.
Materials Science and Engineering A. 2009, 512: 100-104 [17] Cheng X H, Li Z H.
Materials and Design, 2006, 27(4): 324-328
Online since: January 2022
Authors: Gong Qin Yan, Dong Yan Yu, Shang Hua Tan, Zhao Jin Luan, Jun Hua Luo
Materials and Methods
All reagents were of analytical grade and were used as received without further purification.
Optical Materials. 108 (2020) 110401
Zhang, Study on preparation and electrochemical performance of titanium dioxide lithium ion battery anode materials, North China Electric Power University, 2020, pp. 29
Sustainable Materials and Technologies. 18 (2018) 00079
Solid State Sciences. 99 (2019) 106075.
Optical Materials. 108 (2020) 110401
Zhang, Study on preparation and electrochemical performance of titanium dioxide lithium ion battery anode materials, North China Electric Power University, 2020, pp. 29
Sustainable Materials and Technologies. 18 (2018) 00079
Solid State Sciences. 99 (2019) 106075.