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Online since: October 2013
Authors: N. Janardhan, M.V.S. Murali Krishna, P. Ushasri, P.V.K. Murthy
ARPN Journal of Engineering and Applied Science, 3(1) (2008)
International Journal of Research and Reviews in Applied Sciences, 3(3) (2010) 33-39
Canadian Journal on Mechanical Sciences & Engineering, 3(3) (2012) 59-71
International Journal of Science & Technology (Australia), 2(6) (2012) 358-371
International Journal of Research & Reviews in Applied Sciences (IJRRAS), 1(1) (2012) 73-87
International Journal of Research and Reviews in Applied Sciences, 3(3) (2010) 33-39
Canadian Journal on Mechanical Sciences & Engineering, 3(3) (2012) 59-71
International Journal of Science & Technology (Australia), 2(6) (2012) 358-371
International Journal of Research & Reviews in Applied Sciences (IJRRAS), 1(1) (2012) 73-87
Online since: September 2007
Authors: Lei Chen, Hong Liang Pan
DMA is used to measure a material's storage modulus (stiffness), E', and loss modulus (energy
absorption or damping), E", over a specific temperature range.
Mao: New Building Materials Vol. 7 (1999), pp. 47-48 (In Chinese) [2] David S.
Jones: International Journal of Pharmaceutics Vol. 179 (1999), pp.167-178 [3] P.H.
Lofgren: Journal of Applied Polymer Science Vol. 87, n12 (2003), pp. 2016-2022 [5] Geoffrey.M.Spinks, Z.Z.
Liu, Hugh Brown, Mike Swain, Howard See, Evan Evans: Progress in Organic Coatings Vol. 49, n2 (2004), pp. 95-102 [6] M.L.Guo: Dynamic Mechanical Thermal Analysis for Polymer and Complex Materials.
Mao: New Building Materials Vol. 7 (1999), pp. 47-48 (In Chinese) [2] David S.
Jones: International Journal of Pharmaceutics Vol. 179 (1999), pp.167-178 [3] P.H.
Lofgren: Journal of Applied Polymer Science Vol. 87, n12 (2003), pp. 2016-2022 [5] Geoffrey.M.Spinks, Z.Z.
Liu, Hugh Brown, Mike Swain, Howard See, Evan Evans: Progress in Organic Coatings Vol. 49, n2 (2004), pp. 95-102 [6] M.L.Guo: Dynamic Mechanical Thermal Analysis for Polymer and Complex Materials.
Online since: May 2011
Authors: Er Jun Wu, Jian Long Xing, Zhao Quan Zhu
Property of materials
Aramid fiber and belt.
Reference [1] Jin Weiliang, Zhao Yuxi: Durability of concrete structure (Science Publishing Company, Beijing 2002), p2~7, p.104-107.
[5] Tighiouart B,Benmokrane B,Gao D: Investigation of bond concrete member with fiber reinforced polymer(FRP) bars, Construction and Building Materials, (1998 .12), p. 453-462
[6] Wang Maolong, Zhu Fusheng, etc: Application of fiber reinforced plastics (FRP bars) in concrete structure, Journal of concrete, Vol.11 (2005), p.17-23.
New building material, vol. 34(2007.1), p.73-75.
Reference [1] Jin Weiliang, Zhao Yuxi: Durability of concrete structure (Science Publishing Company, Beijing 2002), p2~7, p.104-107.
[5] Tighiouart B,Benmokrane B,Gao D: Investigation of bond concrete member with fiber reinforced polymer(FRP) bars, Construction and Building Materials, (1998 .12), p. 453-462
[6] Wang Maolong, Zhu Fusheng, etc: Application of fiber reinforced plastics (FRP bars) in concrete structure, Journal of concrete, Vol.11 (2005), p.17-23.
New building material, vol. 34(2007.1), p.73-75.
Online since: July 2011
Authors: Fang You Hu, Chang Liang Lu, Bin Hu, Peng Fei Fu, Ai Yong Cui, Pei Zhong Zhao
Introduction
At present, most alloy powders for laser cladding are thermal spraying materials[1].
The cladding materials(Ti,Al), in the form of powder with purity of 99.99% and particle sizes ranging between 50 and 70 µm, were grinded and mechanically mixed together.
Acknowledgements This work was financially supported by the National postdoctoral Science Foundation (20060391000).
Yueb: Composites Science and Technology, Vol.61 (2001), p1549 [2] Y.
Wang: Journal of Alloys and Compounds, Vol.351 (2003), p304 [3] Yao Jun, G.
The cladding materials(Ti,Al), in the form of powder with purity of 99.99% and particle sizes ranging between 50 and 70 µm, were grinded and mechanically mixed together.
Acknowledgements This work was financially supported by the National postdoctoral Science Foundation (20060391000).
Yueb: Composites Science and Technology, Vol.61 (2001), p1549 [2] Y.
Wang: Journal of Alloys and Compounds, Vol.351 (2003), p304 [3] Yao Jun, G.
Online since: February 2013
Authors: Soo Yeon Seo
Fig. 4 represents material models of concrete.
Acknowledgement This research was supported by 2012 Basic Science Research Program through the National Research Foundation of Korea (NRF) funded by the Ministry of Education, Science and Technology (2012-0011350).
Journal of Composites for Construction (ASCE) 5 (2000) 12-7
Proceeding of the 3rd International Conference on Advanced Composite Materials in Bridges and Structures (2000) 521-8
ACI Structural Journal 101 (2004) 717-26.
Acknowledgement This research was supported by 2012 Basic Science Research Program through the National Research Foundation of Korea (NRF) funded by the Ministry of Education, Science and Technology (2012-0011350).
Journal of Composites for Construction (ASCE) 5 (2000) 12-7
Proceeding of the 3rd International Conference on Advanced Composite Materials in Bridges and Structures (2000) 521-8
ACI Structural Journal 101 (2004) 717-26.
Online since: March 2020
Authors: El-Sayed R.E. Hassan, Fabrice Mutelet, Nagui A. Abdel-Khalek, Mohamed A. Youssef, Mahmoud M. Abdallah, Ahmed H. El-Menshawy
Ta2O5 is used in the production of modern industrial materials such as cell phones’ capacitors [2].
Materials and Methods 2.1.
Materials The samples were collected from Abu Dabbab area which is located 20 km North of Mersa Alam city at latitude 25º20' 27'' N and longitude 34º 32' 30'' E.
Mutelet, Use of ionic liquids for the treatment of biomass materials and biofuel production, Carbohydrate, Prof.
El-Menshawy, Recovery of albite and mica from Egyptian Abu Dabbab ores using gravity and magnetic separation techniques, Australian Journal of Basic and Applied Sciences, 11 (2017) 115-123
Materials and Methods 2.1.
Materials The samples were collected from Abu Dabbab area which is located 20 km North of Mersa Alam city at latitude 25º20' 27'' N and longitude 34º 32' 30'' E.
Mutelet, Use of ionic liquids for the treatment of biomass materials and biofuel production, Carbohydrate, Prof.
El-Menshawy, Recovery of albite and mica from Egyptian Abu Dabbab ores using gravity and magnetic separation techniques, Australian Journal of Basic and Applied Sciences, 11 (2017) 115-123
Online since: January 2013
Authors: Liu Yang, Ming Li, Luo Xia, Hui Ming Zheng
Small scale effect on boundary conditions of cantilever single carbon nanotubes
Li Ming1,a, Zheng Huiming2,b, Luo Xia2,b , Liu Yang2,b
1 Hubei Province Key Laboratory of Systems Science in Metallurgical Process (Wuhan University of Science and Technology), Wuhan 430081,China;
2 Department of Mechanics, Huazhong University of Science and Technology, Wuhan, Hubei Province 430074, China
amingli121212@126.com, bhuiming121212@yahoo.com.cn
The corresponding author: Zheng huiming.
Note that a is the internal characteristic length (e.g., lattice parameter, C–C bond length and granular distance) and e0 is a constant appropriate to each material.
Acknowledgements This work is supported by Open fund project (No.Y201109) of Hubei Province Key Laboratory of Systems Science in Metallurgical Process, China.
Journal of Physics D: Applied Physics, 41 (2008), p225-404
International Journal of Engineering and Science, 10 (1972), p233-24
Note that a is the internal characteristic length (e.g., lattice parameter, C–C bond length and granular distance) and e0 is a constant appropriate to each material.
Acknowledgements This work is supported by Open fund project (No.Y201109) of Hubei Province Key Laboratory of Systems Science in Metallurgical Process, China.
Journal of Physics D: Applied Physics, 41 (2008), p225-404
International Journal of Engineering and Science, 10 (1972), p233-24
Online since: December 2011
Authors: Tao Xie, Xiao Biao Shan, Hong Yan Wang
Table 1 gives the material properties and structural parameters of the piezoelectric energy harvester.
Acknowledgements This project is supported by the National Natural Science Foundation of China (No. 51077018) and Science and Technology Planning Project of Qiqihar of China (GYGG2010-02-1).
Sodano: Smart Materials and Structures, vol. 16 (2007), p.
Inman: Journal of Vibration and Acoustics, vol. 130 (2008), p.1-14 [5] Y.
Inman: Journal of Intelligent Material System and Structures [8] B.
Acknowledgements This project is supported by the National Natural Science Foundation of China (No. 51077018) and Science and Technology Planning Project of Qiqihar of China (GYGG2010-02-1).
Sodano: Smart Materials and Structures, vol. 16 (2007), p.
Inman: Journal of Vibration and Acoustics, vol. 130 (2008), p.1-14 [5] Y.
Inman: Journal of Intelligent Material System and Structures [8] B.
Online since: February 2012
Authors: He Lan Liang, Su Jian Li, Hong Li
Research on Planning of Hybrid Hot Charge Rolling base on Specific Reheating Furnaces
Helan Liang1, a, Sujian Li1 and Hong Li1
1Department of Logistics Engineering, School of Mechanical Engineering, University of Science and Technology Beijing, Beijing, 100083, China.
Material flow of one specific furnace is shown in Fig2.
However, the material flow of SRF varies as to different rolling sequences and it is not easy to be descried by mathematic model, so we design the method base on heuristic and simulation.
References [1] Tang Lixin,Liu Jiyin,Rong Aiying et al..A Review of Planning and Scheduling Systems and Methods for Integrated Steel Production [J].European Journal of Operational Research,2001,133(1): 1~20
An ant system with scouting subgroup [J].Journal of University of Science and technology Beijing . 2006,28(8):794~798
Material flow of one specific furnace is shown in Fig2.
However, the material flow of SRF varies as to different rolling sequences and it is not easy to be descried by mathematic model, so we design the method base on heuristic and simulation.
References [1] Tang Lixin,Liu Jiyin,Rong Aiying et al..A Review of Planning and Scheduling Systems and Methods for Integrated Steel Production [J].European Journal of Operational Research,2001,133(1): 1~20
An ant system with scouting subgroup [J].Journal of University of Science and technology Beijing . 2006,28(8):794~798
Online since: February 2007
Authors: Fa Ming Zhang, Jian Xi Lu, Kai Li Lin, Jiang Chang
The β-TCP bioceramics is
well known as a biodegradable material demonstrated clinical efficacy.
Because the α-TCP though bioactive, have proven less useful as bone regeneration materials due to their excessively high resorption rate than the β-TCP phase.
Porous materials always have poor mechanical properties.
Acknowledgement Financial supports from the Shanghai Postdoctoral Scientific Key Program and the Science & Technology Commission of Shanghai Municipality of China (No.04DZ52043) are greatly acknowledged.
References: [1] Niedhart C, Maus U, Redmann E, Schmidt-Rohlfing B, Niethard FU, Siebert CH: J Biomed Mater Res Vol. 65A (2003), p.17 [2] Hench Larry L: Journal of the American Ceramic Society Vol. 81(1998), p.1705 [3] Carotenuto G: Advanced Performance Materials Vol. 5(1998), p.171 [4] Hassna R.
Because the α-TCP though bioactive, have proven less useful as bone regeneration materials due to their excessively high resorption rate than the β-TCP phase.
Porous materials always have poor mechanical properties.
Acknowledgement Financial supports from the Shanghai Postdoctoral Scientific Key Program and the Science & Technology Commission of Shanghai Municipality of China (No.04DZ52043) are greatly acknowledged.
References: [1] Niedhart C, Maus U, Redmann E, Schmidt-Rohlfing B, Niethard FU, Siebert CH: J Biomed Mater Res Vol. 65A (2003), p.17 [2] Hench Larry L: Journal of the American Ceramic Society Vol. 81(1998), p.1705 [3] Carotenuto G: Advanced Performance Materials Vol. 5(1998), p.171 [4] Hassna R.