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Online since: January 2009
Authors: Na Gu, Bo Tao Wang, Ji Fei Zhang, Zengzhi ZHANG
Then the coating materials were used
to treat standard fiber bundle to obtain water-transmitting coated fiber.
Wallace: Soil Science Vol.141 (5) (1986), p.363 [4] W.
Fink: Soil Science Vol.138 (1) (1984), p.46 [6] D.
Yang: Journal of Beijing Forestry University Vol.24 (1) (2002), p.16 [10] Z.
Li: The New Progress of Materials Science and Engineering (The Publishing House of Metallurgical Industry, Beijing 2003)
Wallace: Soil Science Vol.141 (5) (1986), p.363 [4] W.
Fink: Soil Science Vol.138 (1) (1984), p.46 [6] D.
Yang: Journal of Beijing Forestry University Vol.24 (1) (2002), p.16 [10] Z.
Li: The New Progress of Materials Science and Engineering (The Publishing House of Metallurgical Industry, Beijing 2003)
Online since: December 2011
Authors: V. Ratna Kishore, R. Padmanaban, V. Balusamy
Recently studies on joining dissimilar materials are gaining significant interest [7].
Reynolds, Metallurgical and Materials Transactions A, vol 32 A(11) (2001) p. 2879-2884
Kovacevic, Journal of Materials Engineering and Performance, vol 18(4) (2009), p. 339-350
Echeverria, Materials &Design, vol 32(4) (2011), p. 2021-2027
Shibayanagi, Material Science and Engineering: B, vol 148(1-3) (2008), p. 82-87
Reynolds, Metallurgical and Materials Transactions A, vol 32 A(11) (2001) p. 2879-2884
Kovacevic, Journal of Materials Engineering and Performance, vol 18(4) (2009), p. 339-350
Echeverria, Materials &Design, vol 32(4) (2011), p. 2021-2027
Shibayanagi, Material Science and Engineering: B, vol 148(1-3) (2008), p. 82-87
Online since: November 2015
Authors: Da Peng Li, Ji Ping Wang, Bing Li
Fabrication and Evaluation of Electro-textiles for Wearable Antenna Applications
Bing Li1,2, Dapeng Li3, Jiping Wang1,2,*
1Key Laboratory of Advanced Textile Materials & Manufacturing Technology, Ministry of Education; Engineering Research Center for Eco-Dyeing & Finishing of Textiles, Ministry of Education;National Base for International Science and Technology Cooperation in Textiles andConsumer-Goods Chemistry; Zhejiang Sci-Tech University, Hangzhou 310018, PR China
2College of Materials and Textiles, Zhejiang Sci-Tech University, Hangzhou 310018, PR China
3Department of Bioengineering, University of Massachusetts, USA
* Corresponding author: Jiping Wang; E-mail: jipingwanghz@gmail.com
Key words: wearable antenna, direct printing, copper deposit, return loss value
Abstract.
A compact wearable antenna fully made of textile-based materials for short range communication was designed and fabricated.
The concept of integrating microstrip antennas with textiles via printing technologies for flexible antennas has drawn much attention in recent years, because it takes advantage of both materials and of the printing approach as a mass production process.
[5] Hertleer, C., et al., Flexible textile based antennas, Materials Science and Technology, 2010. 25: p. 101-105
Textile Research Journal, 2014. 84: p. 2026-2035.
A compact wearable antenna fully made of textile-based materials for short range communication was designed and fabricated.
The concept of integrating microstrip antennas with textiles via printing technologies for flexible antennas has drawn much attention in recent years, because it takes advantage of both materials and of the printing approach as a mass production process.
[5] Hertleer, C., et al., Flexible textile based antennas, Materials Science and Technology, 2010. 25: p. 101-105
Textile Research Journal, 2014. 84: p. 2026-2035.
Online since: November 2006
Authors: Ping Jin, Zhi Tao Mu, Wen Lin Liu
The real rotorcraft materials measured by experiment and
the fatigue load mean frequency spectrum based on statistical usage spectrum are adopted.
Discussion of Results The measuring stress intensity factor range at 0=R 0K∆ value for the material fitting is mmMpa208 and the fracture toughness is mmMpa3811 .
It is reasonable for the main rotor material that the cut-off stress ratio for the threshold stress intensity factor range is set 0.7.
Progress in Safety Science and Technology, Proceedings of Asia Pacific Symposium on Safety 2005.
Journal of Mechanical Strength, Vol. 24 (2002), p. 113 Fig.10Crack growth life curves Fig.11Crack growth life curves Fig.9 Crack growth life curves
Discussion of Results The measuring stress intensity factor range at 0=R 0K∆ value for the material fitting is mmMpa208 and the fracture toughness is mmMpa3811 .
It is reasonable for the main rotor material that the cut-off stress ratio for the threshold stress intensity factor range is set 0.7.
Progress in Safety Science and Technology, Proceedings of Asia Pacific Symposium on Safety 2005.
Journal of Mechanical Strength, Vol. 24 (2002), p. 113 Fig.10Crack growth life curves Fig.11Crack growth life curves Fig.9 Crack growth life curves
Online since: April 2017
Authors: Roger Hurst, Karel Matocha, Ondrej Dorazil
LO1203 "Regional Materials Science and Technology Centre - Feasibility Program" funded by Ministry of Education, Youth and Sports of the Czech Republic.
References [1] CEN WORKSHOP AGREEMENT “Small Punch Test method for Metallic Materials” CWA 15627:2007 D/E/F, December 2007
Metallurgical Journal Vol.
International Journal of Pressure Vessels and Piping 80 (2003), p. 221-228
SSTT (Small Sample Test Techniques), Vol. 63, p. 59–68; 2010, Metallurgical Journal
References [1] CEN WORKSHOP AGREEMENT “Small Punch Test method for Metallic Materials” CWA 15627:2007 D/E/F, December 2007
Metallurgical Journal Vol.
International Journal of Pressure Vessels and Piping 80 (2003), p. 221-228
SSTT (Small Sample Test Techniques), Vol. 63, p. 59–68; 2010, Metallurgical Journal
Online since: January 2023
Authors: Husna Hayati Jarni, Wan Nurmi Syazwina Wan Azmi, Mohd Rizuan Mohd Razlan, Najmiddin Yaakob, Adli Md Noor
(DSSB) for their contributions in providing the facilities, materials, support, and funds (Geran Penyelidikan Khas UiTM (600-RMC/GPK 5/3 (090/2020), MIH-(002/2020), 600-RMC/FRGS 5/3 (173/2021) and 600-RMC/FRGS 5/3 (170/2021)) to complete this experiment.
Rahman, Condensation Rate Effect on Top of Line Corrosion in CO2 Environment, ARPN Journal of Engineering and Applied Sciences. 11 (2016) 12058–12063
Afroukhteh, A Comprehensive Review on Internal Corrosion and Cracking of Oil and Gas Pipelines, Journal of Natural Gas Science and Engineering. 71 (2019) 102971. https://doi.org/10.1016/j.jngse.2019.102971
Cheng, Corrosion of X52 steel under Thin Layers of Water Condensate in Wet Gas Pipelines, Journal of Natural Gas Science and Engineering. 68 (2019) 102921. https://doi.org/10.1016/j.jngse.2019.102921
Ragadhita, How to Read and Interpret FTIR Spectroscope of Organic Material, Indonesian Journal of Science and Technology. 4 (2019) 97–118. https://doi.org/10.17509/ijost.v4i1.15806
Rahman, Condensation Rate Effect on Top of Line Corrosion in CO2 Environment, ARPN Journal of Engineering and Applied Sciences. 11 (2016) 12058–12063
Afroukhteh, A Comprehensive Review on Internal Corrosion and Cracking of Oil and Gas Pipelines, Journal of Natural Gas Science and Engineering. 71 (2019) 102971. https://doi.org/10.1016/j.jngse.2019.102971
Cheng, Corrosion of X52 steel under Thin Layers of Water Condensate in Wet Gas Pipelines, Journal of Natural Gas Science and Engineering. 68 (2019) 102921. https://doi.org/10.1016/j.jngse.2019.102921
Ragadhita, How to Read and Interpret FTIR Spectroscope of Organic Material, Indonesian Journal of Science and Technology. 4 (2019) 97–118. https://doi.org/10.17509/ijost.v4i1.15806
Online since: March 2010
Authors: Fu Qing Zhao, Jian Hua Zou, Shang Xiong Sheng
Acknowledgement
This research was supported by the National Natural Science Foundation of GanSu Province under
Grant 3ZS062-B25-033.
References [1] Zhang Yingfeng, Jiang Pingyu and Huang George: International Journal of Materials and Product Technology Vol.33(2008),p.170 [2] G.D.Sivakumar and P.Shahabudeen: International Journal of Advanced Manufacturing Technology Vol. 38(2008),p.321 [3] G.Anand, Kodali Rambabu: Journal of Manufacturing Technology Management Vol.20 (2009), p.258 [4] Arumugam Veeri, Ooi Keng-Boon and Fong Tuck-Chee: TQM Journal Vol.20 (2008), p. 636 [5] Information on http://hms.ifw.uni.hannover.de/ [6] Bal Mert, Hashemipour Majid: Robotics and Computer-Integrated Manufacturing Vol.25(2009), p.570 [7] Pan Quan-Ke,Wang Ling,Fatih.
M.Tasgetiren, et al:International Journal of Advanced Manufacturing Technology Vol.38(2008),p.337 [8] Q.Y.Duan, V.K.Gupta, S.Sorooshian:Journal of Optimization Theory and Applications, 76(1993),p.501 Best rate(100%) HPSO GA Enumeration Best 855 843 829 Mean 838 834 798 Maximum 820 825 766 CPU time 21.23" 49.00" 1529.0"
References [1] Zhang Yingfeng, Jiang Pingyu and Huang George: International Journal of Materials and Product Technology Vol.33(2008),p.170 [2] G.D.Sivakumar and P.Shahabudeen: International Journal of Advanced Manufacturing Technology Vol. 38(2008),p.321 [3] G.Anand, Kodali Rambabu: Journal of Manufacturing Technology Management Vol.20 (2009), p.258 [4] Arumugam Veeri, Ooi Keng-Boon and Fong Tuck-Chee: TQM Journal Vol.20 (2008), p. 636 [5] Information on http://hms.ifw.uni.hannover.de/ [6] Bal Mert, Hashemipour Majid: Robotics and Computer-Integrated Manufacturing Vol.25(2009), p.570 [7] Pan Quan-Ke,Wang Ling,Fatih.
M.Tasgetiren, et al:International Journal of Advanced Manufacturing Technology Vol.38(2008),p.337 [8] Q.Y.Duan, V.K.Gupta, S.Sorooshian:Journal of Optimization Theory and Applications, 76(1993),p.501 Best rate(100%) HPSO GA Enumeration Best 855 843 829 Mean 838 834 798 Maximum 820 825 766 CPU time 21.23" 49.00" 1529.0"
Online since: June 2018
Authors: Marcin Adamiak, Monika Karoń
References
[1] Hai Lia, Qingzhong Maoa, Zhixiu Wanga, Fenfen Miaoa, Bijun Fanga, Ziqiao Zhengb; Materials Science and Engineering: A; Vol. 620 (2015); p.204-212
[2] Wei Liang, Liping Bian, Guoyin Xie, Wenli Zhang, Hongxia Wang, Shunqi Wang; Materials Science and Engineering: A; Vol. 527 (2010); p. 5557-5564
[3] Yulu Duana, Lei Tanga, Guofu Xua, Ying Denga, Zhimin Yina; Journal of Alloys and Compounds; Vol. 664 (2016), p. 518-529
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Shaeric; Procedia Materials Science Vol. 11 ( 2015 ); p. 95 – 100 [6] Mohamed Ibrahim ABD EL AALa, M.M.
Wang; Materials Science and Engineering A; vol. 464 (2007); page 23-27 [12] I.
Kojima; Materials Science and Engieneering A; vol. 527 (2010); page 4250-4256 [18] Cheng Xu, Zoltán Száraz, Zuzana Trojanová, Pavel Lukác, Terence G.
Utsunomiya; Microstructures and mechanical properties of 6061 aluminum alloy processed by accumulative roll-bonding; Materials Science and Engineering; Vol.
Shaeric; Procedia Materials Science Vol. 11 ( 2015 ); p. 95 – 100 [6] Mohamed Ibrahim ABD EL AALa, M.M.
Wang; Materials Science and Engineering A; vol. 464 (2007); page 23-27 [12] I.
Kojima; Materials Science and Engieneering A; vol. 527 (2010); page 4250-4256 [18] Cheng Xu, Zoltán Száraz, Zuzana Trojanová, Pavel Lukác, Terence G.
Utsunomiya; Microstructures and mechanical properties of 6061 aluminum alloy processed by accumulative roll-bonding; Materials Science and Engineering; Vol.
Online since: July 2007
Authors: D. Palmeri, L. Cannizzaro, A. Barcellona
Wang : Microstructures and stability of retained
austenite in TRIP steels, Materials Science and Engineering A, (2006), article in press
Traint: Microstructure and tensile behaviour of cold-rolled TRIP-aided steels, Journal of Materials Processing Technology 157-158, (2004), 633-636
[5] Huo Yan-Qiu, Long Xiu-Hui, Zhou Zhen-Hua, Li Jian-Guo: Bainite transformation and TRIP effect in 20Mn2SiVB steel, Materials Science and Engineering A, (2006), article in press
Lee: Bake-hardening behavior of cold-rolled CMnSi and CMnSiCu TRIP-aided steel sheets, Journal of Materials Processing Technology, 151, (2004), 141- 145
De Cooman: Structure-properties relationship in TRIP steels containing carbide-free bainite, Current Opinion in Solid State and Materials Science, 8, (2004), 285-303.
Traint: Microstructure and tensile behaviour of cold-rolled TRIP-aided steels, Journal of Materials Processing Technology 157-158, (2004), 633-636
[5] Huo Yan-Qiu, Long Xiu-Hui, Zhou Zhen-Hua, Li Jian-Guo: Bainite transformation and TRIP effect in 20Mn2SiVB steel, Materials Science and Engineering A, (2006), article in press
Lee: Bake-hardening behavior of cold-rolled CMnSi and CMnSiCu TRIP-aided steel sheets, Journal of Materials Processing Technology, 151, (2004), 141- 145
De Cooman: Structure-properties relationship in TRIP steels containing carbide-free bainite, Current Opinion in Solid State and Materials Science, 8, (2004), 285-303.
Online since: October 2014
Authors: Wen Zhuang Lu, Yan Song Zhu, Yao Guang Chen, Jun Xu, Dun Wen Zuo
Journal of Materials Processing Technology 2002; 129(1-3): 359-363
Materials Science and Engineering A 1997; 238(2): 357-366
Key Engineering Materials, 2004(259): 318-323
Grinding of difficult-to-cut materials.
China aeronautical materials handbook.
Materials Science and Engineering A 1997; 238(2): 357-366
Key Engineering Materials, 2004(259): 318-323
Grinding of difficult-to-cut materials.
China aeronautical materials handbook.