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Online since: August 2019
Authors: Fitrilawati Fitrilawati, Ayi Bahtiar, Norman Syakir, Diyan Unmu Dzujah, Yeni Wahyuni Hartati, Vika Marcelina
Zhao, Graphene-based materials as supercapacitor electrodes, J.
Bubeck, Reduction Kinetics of Thermally reduced graphene oxide thin films, Material Science Forum 827 (2015) 317-320
Hidayat, Fitrilawati, Characteristic of thermally reduced graphene oxide as supercapacitors electrode materials, IOP Conf.
Series: Material Science and Engineering 196 (2017) 012034
Series: Material Science and Engineering 196 (2017) 012027
Bubeck, Reduction Kinetics of Thermally reduced graphene oxide thin films, Material Science Forum 827 (2015) 317-320
Hidayat, Fitrilawati, Characteristic of thermally reduced graphene oxide as supercapacitors electrode materials, IOP Conf.
Series: Material Science and Engineering 196 (2017) 012034
Series: Material Science and Engineering 196 (2017) 012027
Online since: September 2011
Authors: Chang Zhou Dong, Chen Qu
Without considering the intensity limit of delamination damage of the two materials, an integrated stiffness matrix is formed with the combination of stiffness matrix of steel-wall shell element and that of concrete spatial block element.
Introduction Since the thin-walled steel-concrete composite structure consists of steel and concrete, two materials different in nature, the mechanical property obviously depends on their respective characteristics.
In Chinese [2] Shurong Luo, Lianyuan Wu.Chinese Journal of Solid Mechanics. 1993,14(3)237-240 [3] Ahmad S,Irons BM,Zienkiewicz O C.
Journal of Chongqing University, 1989.12(6):7-14.
Science Press, 2001.p144.
Introduction Since the thin-walled steel-concrete composite structure consists of steel and concrete, two materials different in nature, the mechanical property obviously depends on their respective characteristics.
In Chinese [2] Shurong Luo, Lianyuan Wu.Chinese Journal of Solid Mechanics. 1993,14(3)237-240 [3] Ahmad S,Irons BM,Zienkiewicz O C.
Journal of Chongqing University, 1989.12(6):7-14.
Science Press, 2001.p144.
Online since: October 2014
Authors: Qin Zhang, Jing Quan Zhang, Ming Xu, Chun Lai Zhang, Cheng Jun Dong, Lu Xiang Xu
Effects of Precursor pH Value and Calcination Temperature on Photocatalytic Properties of Ni-Fe Codoped ZnO Nanoparticles
ZHANG Qin1,a, ZHANG Jingquan2, XU Ming1,b, ZHANG Chunlai,
DONG Chengjun3, XU Luxiang4
1Southwest University for Nationalities, College of Electrical &Information Engineering, Material of Information Laboratory, Priority Laboratory in developing of Sichuan Province, Chengdu 610041, China
2College of Materials Science and Engineer, Sichuan University, Chengdu, 610065
3International Center for Material Physics, Chinese Academy of Sciences, Shenyang 110016, P.
Nano titania photocatalytic materials and applications, M.
Microporous and Mesoporous Materials. 134 (2010) 195-202
Journal of Qingdao University of Science and Technology. 27 (2006) 228 [24] W.
Nature Materials, 10 (2011) 911-921
Nano titania photocatalytic materials and applications, M.
Microporous and Mesoporous Materials. 134 (2010) 195-202
Journal of Qingdao University of Science and Technology. 27 (2006) 228 [24] W.
Nature Materials, 10 (2011) 911-921
Online since: February 2011
Authors: Yong Xian Liu, Cheng San Yang, Yu Lun Chi, Xue Feng Bi
Journal of materials processing technology Vol. 202 (2008), p. 475
[3] H.
International Journal of Machine Tools and Manufacture Vol. 48 (2008), p. 228 [4] M.G.
Journal of Northeastern University (Natural Science) Vol. 30 (2009), p. 1185 (in Chinese) [6] J.
International Journal of Machine Tools and Manufacture Vol. 43 (2003), p. 103 [7] F.Klocke and H.
Advanced Materials Research Vol. 97-101 (2009), p.1891
International Journal of Machine Tools and Manufacture Vol. 48 (2008), p. 228 [4] M.G.
Journal of Northeastern University (Natural Science) Vol. 30 (2009), p. 1185 (in Chinese) [6] J.
International Journal of Machine Tools and Manufacture Vol. 43 (2003), p. 103 [7] F.Klocke and H.
Advanced Materials Research Vol. 97-101 (2009), p.1891
Online since: October 2011
Authors: Lei Zhang, Wen Tao Zhang, Zhi Yong Wu
This hypothesis is supported by the fact that a wide range of ductile materials, such as pure metals and polymers, have been successfully deposited [9].
Khor: Advanced Engineering Materials Vol. 9(2007), p. 418-423 [2] S.
Liu: Materials Letters Vol. 60(2006), p. 2627-2632 [5] R.C.
Helfritch: Applied Surface Science Vol. 219(2003), p.211-227 [7] T.
Gao: Applied Surface Science Vol. 255(2009), p.7878-7892 [9] T.
Khor: Advanced Engineering Materials Vol. 9(2007), p. 418-423 [2] S.
Liu: Materials Letters Vol. 60(2006), p. 2627-2632 [5] R.C.
Helfritch: Applied Surface Science Vol. 219(2003), p.211-227 [7] T.
Gao: Applied Surface Science Vol. 255(2009), p.7878-7892 [9] T.
Online since: February 2012
Authors: Hai Hong Wu, Yong Feng Cheng, Xing Zhi Sun
Experiments
Materials
The 304 SSF used in the experiments were made by Huitong Advanced Material Company in China.
Journal of Polymer Science, Part B:Polymer Physics 2004;42(11):2161-7
Journal of Polymer Science, Part B: Polymer Physics 2003;41(17):2079-89
Advanced Materials 2005; 17:1186-91
Chemistry of Materials 2007;19:3787-92
Journal of Polymer Science, Part B:Polymer Physics 2004;42(11):2161-7
Journal of Polymer Science, Part B: Polymer Physics 2003;41(17):2079-89
Advanced Materials 2005; 17:1186-91
Chemistry of Materials 2007;19:3787-92
Online since: March 2011
Authors: An Ming Li, Meng Juan Hu
Influence of Quenching Temperature on Microstructure and Properties of 40Cr Steel by Zero Time Holding quenching
A.M.Li a and M.J.Hu b
School of Materials Science & Engineering,Henan Polytechnic University, Jiaozuo 454000, China
aanmingli2001@sina.com, bhumengjuan05@126.com
Keywords: 40Cr steel, Zero time holding quenched, Tensile strength, Hardness, Microstructure
Abstract.
Experimental Material and Methods Experimental Material.
Li: Journal of Coal Science & Engineering, Vol. 32,No.4(2007) 445-448
Journal of Fuxin Mining Institute, Vol.14, No.4 (1995) 54-58
Zhang and H.B.Yang: Journal of Henan Polytechnic University (Natural Science), Vol.25, No.1 (2006)1-5.
Experimental Material and Methods Experimental Material.
Li: Journal of Coal Science & Engineering, Vol. 32,No.4(2007) 445-448
Journal of Fuxin Mining Institute, Vol.14, No.4 (1995) 54-58
Zhang and H.B.Yang: Journal of Henan Polytechnic University (Natural Science), Vol.25, No.1 (2006)1-5.
Online since: August 2013
Authors: Xuan Zhou, Guo Jian Shao, Feng Hu
But it can only be used in special materials which τ0=2σtσc/(2σt+σc).
The results can be used in different materials and they can be used to fully utilize the potential of the strength of materials compared with other formulas.
And the formulas in this article can be used in different materials.
Journal of Chongqing University(Natural Science Edition), 2003, 26(11): 109-112
Journal of Chongqing University(Natural Science Edition), 2004, 27(9): 133-136
The results can be used in different materials and they can be used to fully utilize the potential of the strength of materials compared with other formulas.
And the formulas in this article can be used in different materials.
Journal of Chongqing University(Natural Science Edition), 2003, 26(11): 109-112
Journal of Chongqing University(Natural Science Edition), 2004, 27(9): 133-136
Online since: June 2015
Authors: P. Gopal, V.K. Bupesh Raja, D. Kumaravel
Layer of different material can be combined to further enhance the overall performance of the laminated composite material different materials are combined.
Harimi, Mechanical properties of Epoxy / Coconut shell filler particle composites, The Arabian journal for science and engineering , (2003) 173-179
Hassan, Potential of using Coconut Shell particle fillers in Eco-Composite materials, Journal of Alloys and Compounds , (2011) 2381-2385
Lim, Effect of treated and untreated filler loading on mechanical and water absorption property of water hyacinth fibers, Journal of Physical Science, (2009) 85–96
Peter Michael, Mechanical property Evaluation of natural fiber coir composite, Materials characterization, (2009) 45-49
Harimi, Mechanical properties of Epoxy / Coconut shell filler particle composites, The Arabian journal for science and engineering , (2003) 173-179
Hassan, Potential of using Coconut Shell particle fillers in Eco-Composite materials, Journal of Alloys and Compounds , (2011) 2381-2385
Lim, Effect of treated and untreated filler loading on mechanical and water absorption property of water hyacinth fibers, Journal of Physical Science, (2009) 85–96
Peter Michael, Mechanical property Evaluation of natural fiber coir composite, Materials characterization, (2009) 45-49
Online since: January 2014
Authors: Yue Ting Ma, Guang Fu Liu
It can also promote material and energy exchange in EIP
The platform can provides all project participants with access to each other’s materials, synergies and the benefits, such as the Cirrus.
Journal of Cleaner Production 18(5): 504–509
Journal of Industrial Ecology 10(1):4–8
Journal of Environmental Science and Technology. 32(11):195-200
The platform can provides all project participants with access to each other’s materials, synergies and the benefits, such as the Cirrus.
Journal of Cleaner Production 18(5): 504–509
Journal of Industrial Ecology 10(1):4–8
Journal of Environmental Science and Technology. 32(11):195-200