Sort by:
Publication Type:
Open access:
Publication Date:
Periodicals:
Search results
Online since: December 2014
Authors: Rong Hua Yang, Gao Bo Mai
China Civil Engineering Journal, 2013, 46(2):70-77.
China Civil Engineering Journal, 2010, 43(2):32-38.
Advanced Materials Research, 2010, 160/161/162: 1205-1210
Beijing: Science Press, 2009.
Shandong: Shandong University of Science and Technology, 2010,5.
China Civil Engineering Journal, 2010, 43(2):32-38.
Advanced Materials Research, 2010, 160/161/162: 1205-1210
Beijing: Science Press, 2009.
Shandong: Shandong University of Science and Technology, 2010,5.
Online since: January 2012
Authors: Tian You Huang, Hai Liang Yu, Jin Wu Kang
Huang : Frontiers of Materials Science in China Vol. 4(4) (2010), p. 332
Li : Journal of Materials and Science Technology Vol.24(3)(2008), p. 364
Li : Materials Science Forum Vol.654-656(2010), p. 1565
Huang : Materials Science Forum, Vol. 654-656(2010), p.1335
Journal of Materials Engineering and Performance. 2011, Doi: 10.1007/s11665-010-9819-6.
Li : Journal of Materials and Science Technology Vol.24(3)(2008), p. 364
Li : Materials Science Forum Vol.654-656(2010), p. 1565
Huang : Materials Science Forum, Vol. 654-656(2010), p.1335
Journal of Materials Engineering and Performance. 2011, Doi: 10.1007/s11665-010-9819-6.
Online since: October 2013
Authors: Guang Hui Wei, Wei Dong He
Based on the products of Ling Xian company in Shen Zhen, by using document research and field research, the essay analyzes the design for stadium with movable seating and its structure which includes: the standard of the design, materials and the base of the seating, fittings, technology applied in the system control, standard of choosing seats, assembling model, data sheet, fast assemble.
Design standard, material selection and understructure of the seating system from Avant Sports.
According to the design standards and related structural design specifications, the main criteria for the timber of telescopic seating system structure are as follows: Wood: "Wood flooring technology standard assembly" (ANSI / Voluntary Product PS1, APA AC Exterior Grade) Section for steel structure, metal plate and bracket: " iron and Steel Materials Handbook " ( ASTM 913 ).
The surface is bright, what is more, can be covered with wood veneer, carpets, rubber flooring and other materials to improve the beauty and internal decoration.
Editorial Department of Journal of Xi′an Physical Education. 2013,(5):88-90
Design standard, material selection and understructure of the seating system from Avant Sports.
According to the design standards and related structural design specifications, the main criteria for the timber of telescopic seating system structure are as follows: Wood: "Wood flooring technology standard assembly" (ANSI / Voluntary Product PS1, APA AC Exterior Grade) Section for steel structure, metal plate and bracket: " iron and Steel Materials Handbook " ( ASTM 913 ).
The surface is bright, what is more, can be covered with wood veneer, carpets, rubber flooring and other materials to improve the beauty and internal decoration.
Editorial Department of Journal of Xi′an Physical Education. 2013,(5):88-90
Online since: May 2023
Authors: Ravi Shrivastava
It is well known that the optical properties of rare-earth ion-doped luminescent materials are influenced by the matrix [10].
2.
The initial materials used were Silicon Dioxide (SiO2), Strontium Carbonate (SrCO3), Magnesium Oxide (MgO), and Europium Oxide (Eu2O3).
Grabmaier, Luminescent Materials, Springer, Berlin, Germany, 1994
Murthy, Optical Properties of Eu3+ Doped Gadolinium Silicate Phosphors, Indian Journal of Science & Research, 10 (1) (2021) 516-521 [11] J Kaur, D Chandrakar, V Dubey, R Shrivastava, Y Parganiha, Photoluminescence Characteristics of Dysprosium Doped CeO 2 Phosphor for White Light Emission, Journal of Display Technology 12 (5) (2016) 506 512 [12] Y Parganiha, J Kaur, V Dubey, R Shrivastava, YAlO3:Ce3+ powders: Synthesis, characterization, thermoluminescence and optical studies, Superlattices and Microstructures 85 (2015) 410-417 [13] D Singh, J Kaur, NS Suryanarayana, R Shrivastava, V Dubey, Synthesis and luminescent behavior of UV induced Dy3+ activated LaAlO3, Journal of Materials Science: Materials in Electronics 28 (3) (2017) 2462 - 2470 [14] R Shrivastava, J Kaur, BP Chandra, Mechanoluminescence of Ba2MgSi2O7 doped with Eu2+ and Dy3+ phosphor by impulsive deformation, Luminescence, 30 (08) (2015) 1207 – 1211
Grabmarier, Luminescence Materials., Springer - Verlag, Berlin, 99 (1994) [19] G.
The initial materials used were Silicon Dioxide (SiO2), Strontium Carbonate (SrCO3), Magnesium Oxide (MgO), and Europium Oxide (Eu2O3).
Grabmaier, Luminescent Materials, Springer, Berlin, Germany, 1994
Murthy, Optical Properties of Eu3+ Doped Gadolinium Silicate Phosphors, Indian Journal of Science & Research, 10 (1) (2021) 516-521 [11] J Kaur, D Chandrakar, V Dubey, R Shrivastava, Y Parganiha, Photoluminescence Characteristics of Dysprosium Doped CeO 2 Phosphor for White Light Emission, Journal of Display Technology 12 (5) (2016) 506 512 [12] Y Parganiha, J Kaur, V Dubey, R Shrivastava, YAlO3:Ce3+ powders: Synthesis, characterization, thermoluminescence and optical studies, Superlattices and Microstructures 85 (2015) 410-417 [13] D Singh, J Kaur, NS Suryanarayana, R Shrivastava, V Dubey, Synthesis and luminescent behavior of UV induced Dy3+ activated LaAlO3, Journal of Materials Science: Materials in Electronics 28 (3) (2017) 2462 - 2470 [14] R Shrivastava, J Kaur, BP Chandra, Mechanoluminescence of Ba2MgSi2O7 doped with Eu2+ and Dy3+ phosphor by impulsive deformation, Luminescence, 30 (08) (2015) 1207 – 1211
Grabmarier, Luminescence Materials., Springer - Verlag, Berlin, 99 (1994) [19] G.
Online since: December 2013
Authors: Guang Qiang Ma, Ming Zou, Qi Ling Wang
[3] S H Guo,J H Peng and S M Zhang:Study on the Direct Electrolysis Reduction of Titanium Dioxide to Sponge Titanium,Journal OF Kunming University of Science and Technology (Science and Engineering Edition), 2004, 29(4):50-52.
Advances Materials & Processes, 2001, 159 (7): 41-43 [7] S H Guo,J H Peng and S M Zhang:Electrolysis Reduction of TiO2 to Titanium in Molten CaCl2.
Journal of the Japan Institute of Metals, 1998, 62: 796-802
Journal of Chengdu University of Technology, 2006, 84(3):224-226.
(In Chinese) [11] M Zou, G Q Liu and Q L Wang:Study on preparing TiO2 cathod for direct electrochemical reduction of TiO2 to titanium in vacuum.Transactions of materials and heat treatment, 2007, 13(2):19-22.
Advances Materials & Processes, 2001, 159 (7): 41-43 [7] S H Guo,J H Peng and S M Zhang:Electrolysis Reduction of TiO2 to Titanium in Molten CaCl2.
Journal of the Japan Institute of Metals, 1998, 62: 796-802
Journal of Chengdu University of Technology, 2006, 84(3):224-226.
(In Chinese) [11] M Zou, G Q Liu and Q L Wang:Study on preparing TiO2 cathod for direct electrochemical reduction of TiO2 to titanium in vacuum.Transactions of materials and heat treatment, 2007, 13(2):19-22.
Online since: August 2011
Authors: Bo Quan Jiang, Zheng Qiang Xiao
Preparation and Thermodynamics of Nickel-Phosphor Deposition on Surface of Quartz Optical Fiber by Electroless Plating
BoQuan Jiang1,a , ZhengQiang Xiao 2,b
1Nanchang University College of Science and Technology, Nanchang, Jiangxi,330029, P.R.China
2Jiangxi Academy of Sciences, Nanchang, Jiangxi, 330029, P.R.
China ) ajbq_win@163.com, bxiaozq899410@sina.com Keywords: Optical materials; Quartz optical fiber; Electroless plating; Ni-P Abstract.
References [1] Ruoyin Yan, Yuexiang Wang and Shu-yue Li: Journal of Technology Square (Chinese) Vol.10 ( 2005 ), p.118 [2] Meijiao Sara Chen and Annapolis, U.S.
Indu. and Eng. ( in Chenese)Vol.1 (2005).p.126 [8] Boquan Jiang, Lin Xiao and Shufen Hu: Optical Materials Vol. 31(2009),p.1532
China ) ajbq_win@163.com, bxiaozq899410@sina.com Keywords: Optical materials; Quartz optical fiber; Electroless plating; Ni-P Abstract.
References [1] Ruoyin Yan, Yuexiang Wang and Shu-yue Li: Journal of Technology Square (Chinese) Vol.10 ( 2005 ), p.118 [2] Meijiao Sara Chen and Annapolis, U.S.
Indu. and Eng. ( in Chenese)Vol.1 (2005).p.126 [8] Boquan Jiang, Lin Xiao and Shufen Hu: Optical Materials Vol. 31(2009),p.1532
Online since: September 2013
Authors: Takahiko Kawai, Chun Wang, Qing Li, Jian Hua Yang, Jun Ya Wada, Yoshinori Kasai, Hisato Hayashi, Shinichi Kuroda
Synthesis and characterization of poly (methyl methacrylate) -grafted-cellulose nanofiber
Chun WANG1,a, Qing LI1, Jianhua YANG1, Junya WADA1, Takahiko KAWAI2,b, Yoshinori KASAI3,c, Hisato HAYASHI3, d, and Shin-ichi KURODA2, e*
1Graduate School of Engineering, Gunma University, Ota, Gunma 373-0057, Japan
2Faculty of Science and Technology, Gunma University, Ota, Gunma 373-0057, Japan
3Nissan Chemical Industries, Ltd., Chiyoda-ku, Tokyo 101-0054, Japan
achunwang213@gmail.com, bkawaitakahiko@gunma-u.ac.jp, ckasaiyo@nissanchem.co.jp, dhayashihi@nissanchem.co.jp, eskuroda@gunma-u.ac.jp
Keywords: Cellulose nanofibers, PMMA, Graft polymerization, Surface modification,
Abstract.
Introduction The production of cellulose nanofibers (CeNFs) and their application in composite materials has gained increasing attention due to their high strength and stiffness combined with low weight, biodegradability, and renewability [1-4].
Puig: Journal of Applied Polymer Science, Vol. 66(2), 339-346 (1997)
Patra: Journal of Applied Polymer Science, Vol.91 (2), 981-990 (2004)
[5] F.Fahma, N.Hori, T.Iwata, A,Takemura: Journal of Applied Polymer Science, Vol.128(3) 1563-1568 (2012)
Introduction The production of cellulose nanofibers (CeNFs) and their application in composite materials has gained increasing attention due to their high strength and stiffness combined with low weight, biodegradability, and renewability [1-4].
Puig: Journal of Applied Polymer Science, Vol. 66(2), 339-346 (1997)
Patra: Journal of Applied Polymer Science, Vol.91 (2), 981-990 (2004)
[5] F.Fahma, N.Hori, T.Iwata, A,Takemura: Journal of Applied Polymer Science, Vol.128(3) 1563-1568 (2012)
Online since: February 2011
Authors: Guang Zhong Hu, Liang Dong Zhang, Zhong Bin Liu, Kang Liu
China, 64300
2 Sichuan University of Science & Engineering, Zigong, P.R.
Fatigue failure of engineering materials is in general essentially the result of local cyclic strain accumulation, but the material’s cyclic yield strength differs from monotonic yield strength in cyclic softening or hardening, with reference to “cyclic stress-strain (CSS) hysteresis loop”.
[4] Jia Li, An Ping, etc.: Journal of Mechanical Strength, Vol. 23(1) (2001), p.19
[6] Schooling J, M Brown M Reed P.A.S.: Materials Science and English, Vol. 260 (1999), p. 222
[16] Zheng Wang, Liyang Xie, etc.: Journal of Mechanical Strength, 1993,Vol. 30 (1) (1993), p. 68
Fatigue failure of engineering materials is in general essentially the result of local cyclic strain accumulation, but the material’s cyclic yield strength differs from monotonic yield strength in cyclic softening or hardening, with reference to “cyclic stress-strain (CSS) hysteresis loop”.
[4] Jia Li, An Ping, etc.: Journal of Mechanical Strength, Vol. 23(1) (2001), p.19
[6] Schooling J, M Brown M Reed P.A.S.: Materials Science and English, Vol. 260 (1999), p. 222
[16] Zheng Wang, Liyang Xie, etc.: Journal of Mechanical Strength, 1993,Vol. 30 (1) (1993), p. 68
Online since: June 2014
Authors: Priscila F. Franczak, Nelson Heriberto Almeida Camargo, Daiara F. Silva, Nelson Levandowski, Mônica S. Schneider
Materials and Methods
Initial powders were obtained from fossilized calcareous shells and were described elsewhere [5].
Materials Characterization; 2001; 47, 83-87
Journal American Ceramic.
Bio-Medical Materials and Engineering, 2001 ; p 1-21
Tese de doutorado, Institut National de Sciences Appliquées de Lyon 2002.
Materials Characterization; 2001; 47, 83-87
Journal American Ceramic.
Bio-Medical Materials and Engineering, 2001 ; p 1-21
Tese de doutorado, Institut National de Sciences Appliquées de Lyon 2002.