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Online since: January 2017
Authors: Huai Ying Zhou, Zong Lin Zuo, Jin Wang, Qing Rong Yao, Jian Qiu Deng, Zhong Min Wang
Spherical Li3V2(PO4)3/C cathode materials have been successfully synthesized by a spray drying method.
Fig. 1 XRD patterns of LVP/C cathode materials.
Maggay: Journal of Materials Science Materials in Electronics, Vol. 27 (2015) No.27, p.3292
Yu: Materials Letters, Vol. 83 (2012) No.23, p121
Liu: Materials Letters, Vol. 115 (2014) No.2, p.60
Fig. 1 XRD patterns of LVP/C cathode materials.
Maggay: Journal of Materials Science Materials in Electronics, Vol. 27 (2015) No.27, p.3292
Yu: Materials Letters, Vol. 83 (2012) No.23, p121
Liu: Materials Letters, Vol. 115 (2014) No.2, p.60
Online since: October 2014
Authors: Yi Bo Yang, Wen Ying Guo, Heng Chang Wang, Mei Ru Zheng
The soda residue can be used in inorganic binder stabilized materials.
Raw Materials and Experimental Methods Raw Materials The soda residue was the by-production of the production of soda from Nanfang Soda Plant, and the main chemical components of soda residue are shown in Table 1.
Dry the surfaces of samples and seal the profile with seal materials.
Marine Sciences. 3 (1998)65-67
Journal of Qingdao Technological University. 5 (2008) 29-33
Raw Materials and Experimental Methods Raw Materials The soda residue was the by-production of the production of soda from Nanfang Soda Plant, and the main chemical components of soda residue are shown in Table 1.
Dry the surfaces of samples and seal the profile with seal materials.
Marine Sciences. 3 (1998)65-67
Journal of Qingdao Technological University. 5 (2008) 29-33
Online since: September 2013
Authors: Xiao Qiang Wen
Experimental results showed that different solid materials had different biological affinity, which showed that the growth of biofouling was influenced by material surface properties.
They are as follows: Input1: carbon content of the surface materials (mass percentage, hereinafter the same), % Input2: hydrogen content of the surface materials, % Input3: oxygen content of the surface materials, % Input4: flow rate, m/s While the output of the model was the average biofouling amount: output, mg/cm2 In this case, select the 22 kinds of surface materials from reference [8] as the training samples.
The network were trained by the 22 kinds of surface materials, with hidden layer nodes automatically increasing from 1 node by examining the output errors of the network.
Chinese Journal of Sensors and Actuators, Vol. 18 (2005), p. 225 [3] Fan S S.
Journal of Electric Power Science and Technology, Vol. 22 (2007), p. 12 [4] Zhao B, Yang S R, Liu F.
They are as follows: Input1: carbon content of the surface materials (mass percentage, hereinafter the same), % Input2: hydrogen content of the surface materials, % Input3: oxygen content of the surface materials, % Input4: flow rate, m/s While the output of the model was the average biofouling amount: output, mg/cm2 In this case, select the 22 kinds of surface materials from reference [8] as the training samples.
The network were trained by the 22 kinds of surface materials, with hidden layer nodes automatically increasing from 1 node by examining the output errors of the network.
Chinese Journal of Sensors and Actuators, Vol. 18 (2005), p. 225 [3] Fan S S.
Journal of Electric Power Science and Technology, Vol. 22 (2007), p. 12 [4] Zhao B, Yang S R, Liu F.
Online since: October 2012
Authors: Xin Hua Ni, Ying Chen Ma, Zhao Gang Cheng, Qing Hua Gu
The beam is composed of brittle material element and ductile material element (for example: concrete and steel).
References [1] J.G.N, Z.B.Y: Journal of China Civil Engineering.
[2] M.X, Y.M.X: Journal of Anhui Technical College of Water Resources and Hydraulic Electric.
[3] C.K.F, C.C.K: Journal of Yantai University (Natural Science and Engineering Edition).
Yan: Key Engineering Materials Vol. 274-276(2004), p.1113 [5] S.P.M, X.G.J, J.S.J: Journal of China Agricultural University.
References [1] J.G.N, Z.B.Y: Journal of China Civil Engineering.
[2] M.X, Y.M.X: Journal of Anhui Technical College of Water Resources and Hydraulic Electric.
[3] C.K.F, C.C.K: Journal of Yantai University (Natural Science and Engineering Edition).
Yan: Key Engineering Materials Vol. 274-276(2004), p.1113 [5] S.P.M, X.G.J, J.S.J: Journal of China Agricultural University.
Online since: August 2017
Authors: Gabriela Popescu, Gheorghe Buluc, Romeu Chelariu, Ioan Carcea, Mihail Sârghi
Study on Wear Resistance FeNiCrMnAl High Entropy Alloy - Mechanical Properties
Gheorghe BULUC1,a*, Romeu CHELARIU1,b, Gabriela POPESCU2,c,
Mihail SÂRGHI1,3,d, Ioan CARCEA1,e
1Gheorghe Asachi Technical University of Iasi-Romania, Department of Materials Science
and Engineering, Blvd.
High entropy alloys have become a field of increasingly explored in the world of materials.
High entropy alloy have been obtained in the laboratory of Science and Materials Engineering faculty from Iasi using a medium frequency induction furnace with 8000 Hz.
Materials and Methods FeNiCrMnAl high entropy alloy investigated was obtained in the laboratory using an induction furnace.
Processing and characterization of advanced multi-element high entropy materials fron AlCrFeCoNi system.
High entropy alloys have become a field of increasingly explored in the world of materials.
High entropy alloy have been obtained in the laboratory of Science and Materials Engineering faculty from Iasi using a medium frequency induction furnace with 8000 Hz.
Materials and Methods FeNiCrMnAl high entropy alloy investigated was obtained in the laboratory using an induction furnace.
Processing and characterization of advanced multi-element high entropy materials fron AlCrFeCoNi system.
Online since: June 2019
Authors: Tao Wei, Zai Qin Wang, Da Zhang
These researches have very important guiding significance for grouting construction and development of grouting materials.
On this basis, the variation of slurry affinity with time was discussed, and the mathematical model of viscosity and affinity of CW epoxy resin slurry with time was established. 2 Materials and Methods 2.1 Test materials and preparation methods CW epoxy resin grouting material, containing two components A and B (mass ratio A:B=5:1, A:B=6:1), produced by Yangtze Academy of Sciences.
Journal of Yangtze River academy of Sciences, 31(2014): 77–81
Science Press, (2001)
Journal of Yangtze River academy of Sciences, 33(2016): 121–124.
On this basis, the variation of slurry affinity with time was discussed, and the mathematical model of viscosity and affinity of CW epoxy resin slurry with time was established. 2 Materials and Methods 2.1 Test materials and preparation methods CW epoxy resin grouting material, containing two components A and B (mass ratio A:B=5:1, A:B=6:1), produced by Yangtze Academy of Sciences.
Journal of Yangtze River academy of Sciences, 31(2014): 77–81
Science Press, (2001)
Journal of Yangtze River academy of Sciences, 33(2016): 121–124.
Online since: July 2011
Authors: Tun Ping Teng, Bo Gu Lin, Yun Yu Yeh
The objective of this paper is to investigate the optimal parameters of added nano-materials.
With the developments of nanotechnology, adding nano-materials to improve the thermal performance of traditional materials have been widely studied [1, 24-27].
The above-mentioned added nano-materials have high stability and the advantages of hard aging.
TEM image of the nano-materials.
[26] Guiyin Fang, Hui Li, Fan Yang, Xu Liu, ShuangmaoWu: Chemical Engineering Journal Vol. 153 (2009), p. 217
With the developments of nanotechnology, adding nano-materials to improve the thermal performance of traditional materials have been widely studied [1, 24-27].
The above-mentioned added nano-materials have high stability and the advantages of hard aging.
TEM image of the nano-materials.
[26] Guiyin Fang, Hui Li, Fan Yang, Xu Liu, ShuangmaoWu: Chemical Engineering Journal Vol. 153 (2009), p. 217
Online since: November 2012
Authors: Min Qiang Xu, Hai Yang Zhao, Jin Dong Wang, Gui Juan Chen
Three different types of motion between the journal and bearing can be observed during the dynamics of the revolute joint clearance, namely, (1) free flight mode, in which the journal moves freely within the bearings boundaries, that is, the journal and the bearing joint are not in contact; (2) impact mode, which occurs at the termination of the free flight mode, being impact forces applied to and removed from the system; (3) permanent contact, in which contact is always maintained although the relative penetration depth between the bearing and journal varies along the circumference of the journal [5].
The journal radius of crosshead pin is 35 mm while the initial bearing radius of connecting rod is 35.1 mm.
The materials in contact have the properties of steel with Young’s modulus 2.06×1011 N/m2, Poisson’s ratio 0.3 and zero friction is assumed.
Fig. 5a depicts the journal center path of the joint with clearance.
Acknowledgements The research work presented in this paper was supported by Science and Technology Research Project of Heilongjiang Department of Education: Vibration Signal Analysis and State Assessment for Large Scale Reciprocating Compressor (Project number: 12521051).
The journal radius of crosshead pin is 35 mm while the initial bearing radius of connecting rod is 35.1 mm.
The materials in contact have the properties of steel with Young’s modulus 2.06×1011 N/m2, Poisson’s ratio 0.3 and zero friction is assumed.
Fig. 5a depicts the journal center path of the joint with clearance.
Acknowledgements The research work presented in this paper was supported by Science and Technology Research Project of Heilongjiang Department of Education: Vibration Signal Analysis and State Assessment for Large Scale Reciprocating Compressor (Project number: 12521051).
Online since: July 2005
Authors: Erde Wang, Wen Cong Zhang, X.L. Wang
Wang
1
School of Materials Science and Engineering, Harbin Institute of Technology,
Harbin 150001, P.
Table 1 Materials in the hydrogen storage experiments material purity specification manufacturer Mg >99% 20um Shanghai reagent company Ni >99% 20um Shenzhen reagent company MnO2 ﹥99% 20um Shanghai reagent company Results and discussion Hydrogen storage properties.
Koester: Journal of Alloys and Compounds Vol. 287 (1999), P.243 [2] W.
Bormann: Journal of Alloys and Compounds Vol.315 (2001), P.237 [3] Zhenxing Yu, Zuyan Liu, Wang Erde: Journal of Alloys and Compounds Vol. 333 (2002), P.207 [4] Muthukumar, P.
Miura: International Journal of Hydrogen Energy, Vol. 25 (2000), P.339 [8] S.Ben Nasrallah, A.Jemni: International Journal of Hydrogen Energy Vol. 22 (1997), P.67 [9] Kemal Aldas, Mahmut D.
Table 1 Materials in the hydrogen storage experiments material purity specification manufacturer Mg >99% 20um Shanghai reagent company Ni >99% 20um Shenzhen reagent company MnO2 ﹥99% 20um Shanghai reagent company Results and discussion Hydrogen storage properties.
Koester: Journal of Alloys and Compounds Vol. 287 (1999), P.243 [2] W.
Bormann: Journal of Alloys and Compounds Vol.315 (2001), P.237 [3] Zhenxing Yu, Zuyan Liu, Wang Erde: Journal of Alloys and Compounds Vol. 333 (2002), P.207 [4] Muthukumar, P.
Miura: International Journal of Hydrogen Energy, Vol. 25 (2000), P.339 [8] S.Ben Nasrallah, A.Jemni: International Journal of Hydrogen Energy Vol. 22 (1997), P.67 [9] Kemal Aldas, Mahmut D.
Online since: January 2018
Authors: Daniel P. Engelhart, Elena Plis, Russell Cooper, Sunita Humagain, Andrei Koch, Matthew Brunetti, Steven Greenbaum, Ryan Hoffmann
Charge transport in disordered materials like PI occurs via incoherent hopping among transport sites.
Connell, Applied Surface Science 255 (18), 8135-8144 (2009)
Fogdall, Journal of spacecraft and rockets 39 (6), 833-838 (2002)
Iacona, Nuclear Instruments & Methods in Physics Research Section B-Beam Interactions with Materials and Atoms 80-1, 1045-1049 (1993)
Mehnert, in Application of Particle and Laser Beams in Materials Technology, edited by P.
Connell, Applied Surface Science 255 (18), 8135-8144 (2009)
Fogdall, Journal of spacecraft and rockets 39 (6), 833-838 (2002)
Iacona, Nuclear Instruments & Methods in Physics Research Section B-Beam Interactions with Materials and Atoms 80-1, 1045-1049 (1993)
Mehnert, in Application of Particle and Laser Beams in Materials Technology, edited by P.