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Online since: June 2013
Authors: Hong Wei Ma, Wei Wei Zhang
Taylor&Fracis Group, London.(2006)
[3] A.Mauzy, LA-13070-MS, UC-900, Issued: May (1996)
[4] C.R.Farrar, D.A Jauregui, Smart Materials and Structures, 7(1998), p704
Journal of Sound and Vibration. 305( 2007),p3
International Journal of Mechanical Sciences. 48(2006), p1456
Key Engineering Materials.
Journal of vibration and shock. 30(6)( 2011).p97.
Journal of Sound and Vibration. 305( 2007),p3
International Journal of Mechanical Sciences. 48(2006), p1456
Key Engineering Materials.
Journal of vibration and shock. 30(6)( 2011).p97.
Online since: October 2025
Authors: Richie I. Umasabor, O. Harry Daderie
Journal of Modern Materials.
Journal of Materials and Technology.
Construction and Building Materials, 140, ( 2017), pp. 351-358
Journal of Engineering and Applied Sciences.Vol. 3, (2011), pp. 64-69
International Journal of Advanced Research in Engineering and Applied Sciences, 6(8), (2017), pp. 42-50
Journal of Materials and Technology.
Construction and Building Materials, 140, ( 2017), pp. 351-358
Journal of Engineering and Applied Sciences.Vol. 3, (2011), pp. 64-69
International Journal of Advanced Research in Engineering and Applied Sciences, 6(8), (2017), pp. 42-50
Online since: April 2011
Authors: Xiao Hua Bai, Yong Gang Wang
The fundamental constituent of glass materials and other raw materials with accurate measured quantities were prepared for the glass melting.
All materials were mixed thoroughly and transferred to corundum crucible.
(5) Effect of Fundamental Constitute of Glass Materials in Tests.
Journal of Material Science, (1999),10: pp. 728-731
[4] Xiaohua B, Determination of COD Value of Glass Raw Materials [J].
All materials were mixed thoroughly and transferred to corundum crucible.
(5) Effect of Fundamental Constitute of Glass Materials in Tests.
Journal of Material Science, (1999),10: pp. 728-731
[4] Xiaohua B, Determination of COD Value of Glass Raw Materials [J].
Online since: September 2013
Authors: Pei Leng Teh, Meor Ahmad Faris, Yeoh Cheow Keat, Mohd Sobri Idris
Journal of Materials Processing Technology, 2008. 195(1-3): p. 171-177
Current Opinion in Solid State and Materials Science, 1996. 1(5): p. 715-731
[6] Wadhawan, V.K., Introduction to ferroic materials.
Journal of Materials Science, 1986. 21: p. 3575-3580
Research Letter in Materials Science, 2008. 2008: p. 1-5
Current Opinion in Solid State and Materials Science, 1996. 1(5): p. 715-731
[6] Wadhawan, V.K., Introduction to ferroic materials.
Journal of Materials Science, 1986. 21: p. 3575-3580
Research Letter in Materials Science, 2008. 2008: p. 1-5
Online since: June 2012
Authors: Wei Dong Miao, Zhi Shan Yuan, Zai Yan Shang, Jin Zhou, Ming Zhu, Zhao Wei Feng, Jiang Bo Wang
Qazi: Materials Science and Engineering C Vol. 26(2006), p.1269
[3] P.
Costa: Materials and Corrosion Vol. 58(2007), p.329 [5] ASM: Heat Treating of Titanium and Titanium Alloys, Metal Handbook, ed.
Sanders, Ninth Edition, vol. 4(1981), p.763 [6] Titanium, 2nd Edition, Engineering Materials and Processes ed.
Namjoshi: Materials Science and Engineering A Vol.383(2004), p.334 [11] H.
Liu: Journal of Materials Engineering Vol. 9(2005), p. 37.
Costa: Materials and Corrosion Vol. 58(2007), p.329 [5] ASM: Heat Treating of Titanium and Titanium Alloys, Metal Handbook, ed.
Sanders, Ninth Edition, vol. 4(1981), p.763 [6] Titanium, 2nd Edition, Engineering Materials and Processes ed.
Namjoshi: Materials Science and Engineering A Vol.383(2004), p.334 [11] H.
Liu: Journal of Materials Engineering Vol. 9(2005), p. 37.
Online since: December 2010
Authors: Jun Feng Pei, Wei Ying He, Jun Ning Liu
Liu and et al: Journal of Alloys and Compounds Vol. 484 (2009), p.966
[2] Z.Y.
Du and et al: Corrosion Science Vol. 50 (2008), p.2251 [5] Yongkang Zhang, Jian You, Jinzhong Lu and et al: Surface & Coatings Technology Vol. 204 (2010), p.3947 [6] Chunhui Yang, Peter Damian Hodgson, Qianchu Liu and et al: Journal of materials processing technology Vol. 201 (2008), p.303 [7] G.
Ocanã and et al: Applied Surface Science Vol. 252 (2006), p.6201 [9] Yongkang Zhang: Laser Material Processing (Chemical Industry Press, Beijing, 2004), in Chinese
Du and et al: Journal of Materials Engineering and Performance Vol. 18 (2009), p.319 [11] G.
L Ocaña and et al: Applied Surface Science Vol. 20 (2008) 5828 [12] Zhang Liang, Li Xiaogang, Du Cuiwei and et al: Materials and Design Vol. 30 (2009), p.2259
Du and et al: Corrosion Science Vol. 50 (2008), p.2251 [5] Yongkang Zhang, Jian You, Jinzhong Lu and et al: Surface & Coatings Technology Vol. 204 (2010), p.3947 [6] Chunhui Yang, Peter Damian Hodgson, Qianchu Liu and et al: Journal of materials processing technology Vol. 201 (2008), p.303 [7] G.
Ocanã and et al: Applied Surface Science Vol. 252 (2006), p.6201 [9] Yongkang Zhang: Laser Material Processing (Chemical Industry Press, Beijing, 2004), in Chinese
Du and et al: Journal of Materials Engineering and Performance Vol. 18 (2009), p.319 [11] G.
L Ocaña and et al: Applied Surface Science Vol. 20 (2008) 5828 [12] Zhang Liang, Li Xiaogang, Du Cuiwei and et al: Materials and Design Vol. 30 (2009), p.2259
Online since: October 2014
Authors: Jun Xian Kang, Jun Wang, Qiang Zhang, Ao Xiang Liu, Qi Lin Shu
Chinese Journal of Mechanical Engineering, 2013, 49(21), 25-30.
Journal of vibration and control, 2008, 14(5): 645-668
Journal of Manufacturing Science and Engineering, 2007, 129(5): 943-950
Journal of Vibration and Shock, 2013, 32(3): 95-98.
Chinese Journal of Mechanical Engineering, 2002, 38(10): 114-117.
Journal of vibration and control, 2008, 14(5): 645-668
Journal of Manufacturing Science and Engineering, 2007, 129(5): 943-950
Journal of Vibration and Shock, 2013, 32(3): 95-98.
Chinese Journal of Mechanical Engineering, 2002, 38(10): 114-117.
Online since: July 2011
Authors: De Liang Zhang, Stiliana Raynova, Brian Gabbitas, V.N. Nadakuduru, Peng Cao
It was found that during cold pressing the entrapped oxygen gas and volatile materials are expected to enhance minute cracks and cavities inside the as-forged material.
Boyer, Material Science and Engineering A, 213, 8, (1996)
Yamada, Material Science and Engineering A, 213, 103, (1996)
Williams, Journal of Materials Processing Technology, 117, 370, (2001)
Lutjering, Material Science and Engineering A, 243, 32, (1998)
Boyer, Material Science and Engineering A, 213, 8, (1996)
Yamada, Material Science and Engineering A, 213, 103, (1996)
Williams, Journal of Materials Processing Technology, 117, 370, (2001)
Lutjering, Material Science and Engineering A, 243, 32, (1998)
Online since: April 2019
Authors: Chantara Thevy Ratnam, Soo Tueen Bee, Lee Tin Sin, Tiam Ting Tee, Abdul Razak Rahmat, Lee Yae Tan, Kwan Kit Woo
PVA membranes were used for biomedical materials [17].
Generally, target materials are dissolved in solutions which directly coated on the surface of substrate, then the sedimentary wet coating has been evaporated to obtain dry film.
Rajendran, Antibacterial finishing of polyester/cotton blend fabrics using neem (Azadirachta indica): A natural bioactive agent, Journal of Applied Polymer Science. 106 (2007) 793–800
Chand, Copper (II) ions and copper nanoparticles-loaded chemically modified cotton cellulose fibers with fair antibacterial properties, Journal of Applied Polymer Science. 113 (2009) 757–766
Khalek, Characterization and photocatalytic properties of cotton fibers modified with ZnO nanoparticles using sol–gel spin coating technique, Journal of Applied Sciences, 5 (2016) 277-283
Generally, target materials are dissolved in solutions which directly coated on the surface of substrate, then the sedimentary wet coating has been evaporated to obtain dry film.
Rajendran, Antibacterial finishing of polyester/cotton blend fabrics using neem (Azadirachta indica): A natural bioactive agent, Journal of Applied Polymer Science. 106 (2007) 793–800
Chand, Copper (II) ions and copper nanoparticles-loaded chemically modified cotton cellulose fibers with fair antibacterial properties, Journal of Applied Polymer Science. 113 (2009) 757–766
Khalek, Characterization and photocatalytic properties of cotton fibers modified with ZnO nanoparticles using sol–gel spin coating technique, Journal of Applied Sciences, 5 (2016) 277-283
Online since: July 2012
Authors: He Zhen Wu, Dao Bao Chu, Aie Cao, Di Lou Xu
Differential Pulse Voltammetry Method for the Determination of Glucose on Multi-nanostructured Active Electrode Modified by Platinum Nanoparticles
Hezhen Wu 1,a ,Aie Cao 1,b, Dilou Xu 1,c, and Daobao Chu 2,d
1 Anqing Vocational and Technical College, Anqing China
2 College of Chemistry and Material Science, Anhui Normal University, Wuhu China
azhenhezi67@126.com, bcaoaie@Sohu.com, cdilou690321@aqvtc.cn, ddbchu@sina.com.cn
Keywords: Multi-nanostructured active electrode,Glucose, Electrocatalytic oxidation,Differential pulse voltammetry
Abstract.
Materials and Methods Materials.
Acknowledgements This work was financially supported by China Natural Science Foundation (20476001),Anhui Provincial Natural Science Foundation (00045317) and the National Science Foundation of the Anhui higher Education Institutions of China (KJ2012B092).
Vol.386(1995), p.241-246 [4] Yoshiro T and Soichiro Y.: Journal of Molecular Catalysis B:Enzymatic Vol.17(2002)No.3, p.203-206 [5] Liqian He: Chinese Journal of laboratory Medicine, Vol.5(1982)No.1, p.49-52(In Chinese) [6] Rong Wang, Xiaoming Guo and Xiaqin Wu: Chemical Research and Application Vol.13(2001) No. 4, p.380-383(In Chinese) [7] Daobao Chu, Xingfu Zhou and Jian Lin: Chemical Journal of Chinese University Vol. 21(2000) No. 1, p.133-135(In Chinese) [8] Xingfu Zhou, Daobao Chu and Jian Lin: cta Chim Sinica Vol. 58(2000)No.11,p.1327-1331(In Chinese) [9] X-F Zhou, D.
Acta Vol. 47(2002), p.2769-2771 [10] Daobao Chu, Guangxia Shen and Xingfu Zhou:Electrochemistry Vol.7(2001)No.2, p.249-254(In Chinese) [11] Daobao Chu, Guangxia Shen and Xingfu Zhou:Chemical Journal of Chinese University, Vol.23(2002) No.4, p.678-681(In Chinese) [12] Libo Hou, Mengqiu Jia and Gang Hu:Journal of Beijing University of Chemical Technology, Vol.31 (2004)No.4, p.65-69(In Chinese) [13] Hezhen Wu, Daobao Chu and Zhongping Chen: Journal of Anqing Teachers College (Natural Science Edition) Vol.12(2006)No.2, p.89-91(In Chinese) [14] Xiaolan Wei and Peikang Shen: Chinese Journal of Chemical Physics, Vol.16(2003)No.5, p.395-400(In Chinese) [15] Daobao Chu, Xiaohua Li and Dexiang Feng:Acta Chim Sinica, Vol.62(2004)No.24, p.2403-2406(In Chinese)
Materials and Methods Materials.
Acknowledgements This work was financially supported by China Natural Science Foundation (20476001),Anhui Provincial Natural Science Foundation (00045317) and the National Science Foundation of the Anhui higher Education Institutions of China (KJ2012B092).
Vol.386(1995), p.241-246 [4] Yoshiro T and Soichiro Y.: Journal of Molecular Catalysis B:Enzymatic Vol.17(2002)No.3, p.203-206 [5] Liqian He: Chinese Journal of laboratory Medicine, Vol.5(1982)No.1, p.49-52(In Chinese) [6] Rong Wang, Xiaoming Guo and Xiaqin Wu: Chemical Research and Application Vol.13(2001) No. 4, p.380-383(In Chinese) [7] Daobao Chu, Xingfu Zhou and Jian Lin: Chemical Journal of Chinese University Vol. 21(2000) No. 1, p.133-135(In Chinese) [8] Xingfu Zhou, Daobao Chu and Jian Lin: cta Chim Sinica Vol. 58(2000)No.11,p.1327-1331(In Chinese) [9] X-F Zhou, D.
Acta Vol. 47(2002), p.2769-2771 [10] Daobao Chu, Guangxia Shen and Xingfu Zhou:Electrochemistry Vol.7(2001)No.2, p.249-254(In Chinese) [11] Daobao Chu, Guangxia Shen and Xingfu Zhou:Chemical Journal of Chinese University, Vol.23(2002) No.4, p.678-681(In Chinese) [12] Libo Hou, Mengqiu Jia and Gang Hu:Journal of Beijing University of Chemical Technology, Vol.31 (2004)No.4, p.65-69(In Chinese) [13] Hezhen Wu, Daobao Chu and Zhongping Chen: Journal of Anqing Teachers College (Natural Science Edition) Vol.12(2006)No.2, p.89-91(In Chinese) [14] Xiaolan Wei and Peikang Shen: Chinese Journal of Chemical Physics, Vol.16(2003)No.5, p.395-400(In Chinese) [15] Daobao Chu, Xiaohua Li and Dexiang Feng:Acta Chim Sinica, Vol.62(2004)No.24, p.2403-2406(In Chinese)