Sort by:
Publication Type:
Open access:
Publication Date:
Periodicals:
Search results
Online since: August 2022
Authors: Kasif Teker, M. Samil Onder
In contrast to bulk material forms, nanowire (NW) based ultraviolet photodetectors (UVPD) overweigh with the properties of high length-to-diameter ratio and minuscule sizes [6] as the choice of materials due to very high UV light sensitivity.
Stamboulia, DNA grafting on silicon nanonets using an eco-friendly functionalization process based on epoxy silane, Materials Today: Proceedings 6 (2019) 333-339
Hark, The epitaxial growth of ZnS nanowire arrays and their applications in UV-light detection, Journal of Materials Chemistry 22 (2012) 1199-1205
Golberg, WO3 nanowires on carbon papers: electronic transport, improved ultraviolet-light photodetectors and excellent field emitters, Journal of Materials Chemistry 21 (2011) 6525-6530
Lee, Solution-assembled nanowires for high performance flexible and transparent solar-blind photodetectors, Journal of Materials Chemistry C 3 (2014) 596-600
Stamboulia, DNA grafting on silicon nanonets using an eco-friendly functionalization process based on epoxy silane, Materials Today: Proceedings 6 (2019) 333-339
Hark, The epitaxial growth of ZnS nanowire arrays and their applications in UV-light detection, Journal of Materials Chemistry 22 (2012) 1199-1205
Golberg, WO3 nanowires on carbon papers: electronic transport, improved ultraviolet-light photodetectors and excellent field emitters, Journal of Materials Chemistry 21 (2011) 6525-6530
Lee, Solution-assembled nanowires for high performance flexible and transparent solar-blind photodetectors, Journal of Materials Chemistry C 3 (2014) 596-600
Online since: March 2010
Authors: Jia Long Ren, Xiao Yan Guan
The Theoretical Analysis and Experimental Study on Heat-Transfer in
Cryogenic Pneumatic Mist Jet Cooling
Jialong Ren1,a , Xiaoyan Guan1,b
1
Jiangsu University of Science and Technology, Zhenjiang Jiangsu 212003, China
azjrenjialong@yahoo.com.cn , bguanxiaoyankb@163.com
Keywords: Cryogenic pneumatic mist jet cooling, heat-transfer coefficient, cooling experiment.
It can be concluded by transient test in cryogenic pneumatic mist jet cooling high temperature titanium surface with different water flow, that when reaching the best cooling effect, the water flow of cryogenic pneumatic mist jet cooling as well as the materials vaporizing and involving phase change heat-transfer under certain temperature must be equivalent, and at that time, the heat transfer coefficient of cryogenic pneumatic mist jet cooling will reach the maximum.
So we need to build experimental platform such as: Simulation of the materials generating cutting heat continuously in practice cutting, feeding heat to one end of the test sample, cooling the other end of the test sample with different water density in cryogenic pneumatic mist jet cooling, and we should minimize the impact of environmental factors as far as possible , check the changes of the temperature real-timely and transmit it to the Data Acquisition Instrument.
Similarly , when at the temperature of 150 ℃, 200 ℃, 250 ℃ on the titanium alloy test sample surface, Water5, Water6 and Water8 can all be vaporized and processed phase transformation heat-transfer, it is indicated that the best heat transfer coefficient corresponding to materials and temperature must be found for getting the best heat transfer effect.
It is indicated that when reaching the best cooling effect, the water flow of cryogenic pneumatic mist jet as well as the materials vaporizing and involving phase change heat-transfer under certain temperature must be equivalent, and at that time, the heat transfer coefficient of cryogenic pneumatic mist jet cooling will reach the maximum Acknowledgements This work was supported by the Natural Science Foundation of Jiangsu Province (No. 50845064) References [1] Ren Jialong The Study on Sub-dry Cutting GCr1.Chinese Journal of Mechanical Engineering[J], VOL. 15, No.1, 2002 40-42 [2] Xu Hongjun,Fu Yucan,SunFanghong.A basic study on heat affect mechanism and enhancing heat transfer in Contact Zone in efficient Grinding .Science in China(Series E),2002,32(3 ):297-307 [3] Deb S, Yao S C, analysis on Film Boling Heat Transfer of Impacting Spray [J] .Int J Heat Mass Transfer 1989, 32(11): 2099~2112 [4] MeiGuohui MengHongji WuRongyang Analysis of spray cooling heat
It can be concluded by transient test in cryogenic pneumatic mist jet cooling high temperature titanium surface with different water flow, that when reaching the best cooling effect, the water flow of cryogenic pneumatic mist jet cooling as well as the materials vaporizing and involving phase change heat-transfer under certain temperature must be equivalent, and at that time, the heat transfer coefficient of cryogenic pneumatic mist jet cooling will reach the maximum.
So we need to build experimental platform such as: Simulation of the materials generating cutting heat continuously in practice cutting, feeding heat to one end of the test sample, cooling the other end of the test sample with different water density in cryogenic pneumatic mist jet cooling, and we should minimize the impact of environmental factors as far as possible , check the changes of the temperature real-timely and transmit it to the Data Acquisition Instrument.
Similarly , when at the temperature of 150 ℃, 200 ℃, 250 ℃ on the titanium alloy test sample surface, Water5, Water6 and Water8 can all be vaporized and processed phase transformation heat-transfer, it is indicated that the best heat transfer coefficient corresponding to materials and temperature must be found for getting the best heat transfer effect.
It is indicated that when reaching the best cooling effect, the water flow of cryogenic pneumatic mist jet as well as the materials vaporizing and involving phase change heat-transfer under certain temperature must be equivalent, and at that time, the heat transfer coefficient of cryogenic pneumatic mist jet cooling will reach the maximum Acknowledgements This work was supported by the Natural Science Foundation of Jiangsu Province (No. 50845064) References [1] Ren Jialong The Study on Sub-dry Cutting GCr1.Chinese Journal of Mechanical Engineering[J], VOL. 15, No.1, 2002 40-42 [2] Xu Hongjun,Fu Yucan,SunFanghong.A basic study on heat affect mechanism and enhancing heat transfer in Contact Zone in efficient Grinding .Science in China(Series E),2002,32(3 ):297-307 [3] Deb S, Yao S C, analysis on Film Boling Heat Transfer of Impacting Spray [J] .Int J Heat Mass Transfer 1989, 32(11): 2099~2112 [4] MeiGuohui MengHongji WuRongyang Analysis of spray cooling heat
Online since: November 2012
Authors: Zhao Liang Jiang, Yu Mei Liu, Wen Ping Liu, Zhi Li
Simulation Model
Material Behavior and Damage Laws.
Advanced Materials Research Vols. 102-104 (2010), p. 12-16 [4] Z.L.
Advanced Materials Research Vol. 426 (2012) , p. 265-269 [5] Mohammadpour M, Razfar M R, Jalili Saffar R.
Computational Materials Science. 2011, 50(10): 3016-3025
International Journal of Machine Tools and Manufacture. 2003, 43(6): 573-587.
Advanced Materials Research Vols. 102-104 (2010), p. 12-16 [4] Z.L.
Advanced Materials Research Vol. 426 (2012) , p. 265-269 [5] Mohammadpour M, Razfar M R, Jalili Saffar R.
Computational Materials Science. 2011, 50(10): 3016-3025
International Journal of Machine Tools and Manufacture. 2003, 43(6): 573-587.
Online since: January 2015
Authors: Fu Xiang Huang
Microsture and properties of a Cu-Cr-Zr-Fe-Ti alloy
Huang Fuxiang
1School of Materials Science and Engineering, Chongqing University of Technology, Chongqing 400054, People’s Republic of China
hfuxiang@163.com
Keywords: Cu-Cr-Zr system alloy; Aging; hardness; electrical conductivity
Abstract.
Visca,etc. , Journal of Nuclear Materials, 307( 2002) 677-680 [11] I.
Banerjee, Materials Science and Engineering A, 356(2003)32-36 [12] Huang FX, Ma JSNing HL etc., Scripta Materialia, 48( 2003) 97-102 [13] W.
Wang, , Materials Science and Engineering A, 343( 2003)89-96 [14] K.
Sanyal, 54(2005) 131-140 [15] Mahulikar D., Proceedings of 3rd International Symposium on Advanced Packaging Materials, 1997, p. 94 –97 [16] Ghosh, G.
Visca,etc. , Journal of Nuclear Materials, 307( 2002) 677-680 [11] I.
Banerjee, Materials Science and Engineering A, 356(2003)32-36 [12] Huang FX, Ma JSNing HL etc., Scripta Materialia, 48( 2003) 97-102 [13] W.
Wang, , Materials Science and Engineering A, 343( 2003)89-96 [14] K.
Sanyal, 54(2005) 131-140 [15] Mahulikar D., Proceedings of 3rd International Symposium on Advanced Packaging Materials, 1997, p. 94 –97 [16] Ghosh, G.
Online since: January 2021
Authors: Mitsuo Niinomi, Mohammed A. Gepreel
Yashiro, Materials Science and Engineering: A, 243 (1998) 244-249
Hamada, in: 7th International Conference on Key Engineering Materials (ICKEM 2017), IOP Conference Series: Materials Science and Enginerring, 2017
Kobayashi, Materials & Design, 97 (2016) 445-453
Niinomi, Journal of the mechanical behavior of biomedical materials, 20 (2013) 407-415
Kandil, Materials Science and Engineering: C, 61 (2016) 574-578
Hamada, in: 7th International Conference on Key Engineering Materials (ICKEM 2017), IOP Conference Series: Materials Science and Enginerring, 2017
Kobayashi, Materials & Design, 97 (2016) 445-453
Niinomi, Journal of the mechanical behavior of biomedical materials, 20 (2013) 407-415
Kandil, Materials Science and Engineering: C, 61 (2016) 574-578
Online since: June 2014
Authors: Jun Feng Qiang, Zhu Huan Yu
Metallurgical and materials transactions. 36A, 9, (2005):2493-2504
Journal of the Minerals, Metals and Materials Society. 2004, 56(9): 44-48 [9] Gang Liu, Lin Liu, Cheng Ai.
Metallurgical and Materials Transactions A. 2011, 42A: 2733-2741
The Minerals, Metals & Materials Society. 2004: 801-810
Materials Letters. 2004, 58: 2290-2294.
Journal of the Minerals, Metals and Materials Society. 2004, 56(9): 44-48 [9] Gang Liu, Lin Liu, Cheng Ai.
Metallurgical and Materials Transactions A. 2011, 42A: 2733-2741
The Minerals, Metals & Materials Society. 2004: 801-810
Materials Letters. 2004, 58: 2290-2294.
Online since: October 2010
Authors: Guo Yue Liu, Yong Jun Tang, Yong Jun Zhang, Chun Mu Chen
However, because of their high
hardness, brittleness, chemical stability and good abrasion resistance, these materials are very
difficult to machining.
The ultrasonic grinding compound process has been proved to be one of the best processing technologies for brittle materials.
Acknowledgements This research was funded by Guangdong-Hong Kong's Key Areas Important Breakthrough Project (2006A15101004), Guangdong Key Project of Science and Technology (2007B010400051), Guangzhou Key Project of Science and Technology (2009Z2-D611), Panyu Key Project of Science and Technology (2008-Z-43-1).
Hu: Chinese Journal of Mechanical Engineering Vol. 39 (2003), p.60-67
Babitsky, et al.: Computational Materials Science Vol. 39 (2007), p. 149-154
The ultrasonic grinding compound process has been proved to be one of the best processing technologies for brittle materials.
Acknowledgements This research was funded by Guangdong-Hong Kong's Key Areas Important Breakthrough Project (2006A15101004), Guangdong Key Project of Science and Technology (2007B010400051), Guangzhou Key Project of Science and Technology (2009Z2-D611), Panyu Key Project of Science and Technology (2008-Z-43-1).
Hu: Chinese Journal of Mechanical Engineering Vol. 39 (2003), p.60-67
Babitsky, et al.: Computational Materials Science Vol. 39 (2007), p. 149-154
Online since: August 2011
Authors: Fu Rong Chen, Rui Jun Xie, Peng Fei Ren, Zhan Jie Liu
A simulation study for the influence of pulse heating on thermal imaging of carbon fiber composites
Ruijun Xie1, a , Pengfei Ren 1,b Furong Chen1,c, and Zhanjie Liu2,d
1College of Materials Science and Engineering,Inner Mongolia University of Technology,Hohhot, 010051,P.
Many researchers studied in detection and evaluation of materials defects, and a large amount of work has been done.
It was indicated that the resolution of pulsed heating infrared thermographic (PHIT) non-destructive testing was related to thermal conductivity of materials, size and location of defect, power of pulse heating and experimental conditions.
Table 1 Thermophysical properties of the samples Materials Thermal conductivity(Wm-1C-1 ) Heat capacity (Jkg-1C-1 ) Specific gravity (kgm-3 ) Carbon fiber composites KXX 1.5 760 1620 KYY 0.8 KZZ 1.5 PTFE 0.18 900 1600 Establishment of solid model and finite element unit.
References [1] Xue Shuwen, Hong Weiming, Journal of Zhanjiang Normal College 25 (6) (2004) 22.
Many researchers studied in detection and evaluation of materials defects, and a large amount of work has been done.
It was indicated that the resolution of pulsed heating infrared thermographic (PHIT) non-destructive testing was related to thermal conductivity of materials, size and location of defect, power of pulse heating and experimental conditions.
Table 1 Thermophysical properties of the samples Materials Thermal conductivity(Wm-1C-1 ) Heat capacity (Jkg-1C-1 ) Specific gravity (kgm-3 ) Carbon fiber composites KXX 1.5 760 1620 KYY 0.8 KZZ 1.5 PTFE 0.18 900 1600 Establishment of solid model and finite element unit.
References [1] Xue Shuwen, Hong Weiming, Journal of Zhanjiang Normal College 25 (6) (2004) 22.
Online since: February 2011
Authors: Shih Tsung Hsu
Acknowledgements
The author would like to thank the National Science Council of the Republic of China, Taiwan, for financially supporting this research under Contract No.
Canadian Geotechnical Journal, Vol. 35, No. 1, p. 70-80. (1998) [3] T.
Journal of Geotechnical and Geoenvironmental Engineering, Vol. 129, No. 6, p. 560-568. (2003) [5] C.J.
Basson: The modeling of anchors using the material point method.
Journal of Geotechnical Engineering, Vol. 114, No. 2, p. 168-184. (1988)
Canadian Geotechnical Journal, Vol. 35, No. 1, p. 70-80. (1998) [3] T.
Journal of Geotechnical and Geoenvironmental Engineering, Vol. 129, No. 6, p. 560-568. (2003) [5] C.J.
Basson: The modeling of anchors using the material point method.
Journal of Geotechnical Engineering, Vol. 114, No. 2, p. 168-184. (1988)
Online since: January 2012
Authors: Shi Song Zhu, Fu Jing Zhu, Wen Hui Man
When receiving the manuscript, we assume that the corresponding authors grant us the copyright to use the manuscript for the book or journal in question.
Should authors use tables or figures from other Publications, they must ask the corresponding publishers to grant them the right to publish this material in their paper.
Acknowledgment This work is sponsored by the National Science Foundation Grant #50811120111.
Journal of Computer Research and Development [J], Vol. 37(2000), PP. 601-608 [5] Dong Xiao-li, Gu Cheng-kui, Wang Zhen-gou: Research on Shape Based Time Series Similarity Measure.
Journal of Electronics & Information Technology [J], Vol. 29(2007), PP.1228-1231 [6] Mao Yun-jian, Du Xiu-hua: A Method for similar sub-Patterns Discovery from Time series Based on Morphological Characters, Computer Simulation[J], Vol. 25(2008), PP.80-83 [7] Luo Xin-rong,Yang Fei,Kang Yu-tao: Research on Real-Time Alarm Theory of Delayed Coal and Gas Outburst, Journal of China University of Mining & Technology [J], Vol. 37(2008), PP.163-166 [8] Cheng Jian, Bai Jian-yi, Qian Jian-sheng, et al: Short-Term Forecasting Method of Coal Mine Gas Concentration Based on Chaotic Time Series, Journal of China University of Mining & Technology [J],Vol. 37(2008), PP.231-235 [9] Li Ai-guo, Zhao Hua: PPR based similarity search for gas monitoring data, Computer Applications [J], Vol. 28(2008), PP.2721-2724 [10] Das G, Link Mannila H, Renganathan G, et al: Rule Discovery from Time Series, Fourth Annual Conference on Knowledge Discovery and Data Mining[C], AAAI Press, 1998, PP.16-22
Should authors use tables or figures from other Publications, they must ask the corresponding publishers to grant them the right to publish this material in their paper.
Acknowledgment This work is sponsored by the National Science Foundation Grant #50811120111.
Journal of Computer Research and Development [J], Vol. 37(2000), PP. 601-608 [5] Dong Xiao-li, Gu Cheng-kui, Wang Zhen-gou: Research on Shape Based Time Series Similarity Measure.
Journal of Electronics & Information Technology [J], Vol. 29(2007), PP.1228-1231 [6] Mao Yun-jian, Du Xiu-hua: A Method for similar sub-Patterns Discovery from Time series Based on Morphological Characters, Computer Simulation[J], Vol. 25(2008), PP.80-83 [7] Luo Xin-rong,Yang Fei,Kang Yu-tao: Research on Real-Time Alarm Theory of Delayed Coal and Gas Outburst, Journal of China University of Mining & Technology [J], Vol. 37(2008), PP.163-166 [8] Cheng Jian, Bai Jian-yi, Qian Jian-sheng, et al: Short-Term Forecasting Method of Coal Mine Gas Concentration Based on Chaotic Time Series, Journal of China University of Mining & Technology [J],Vol. 37(2008), PP.231-235 [9] Li Ai-guo, Zhao Hua: PPR based similarity search for gas monitoring data, Computer Applications [J], Vol. 28(2008), PP.2721-2724 [10] Das G, Link Mannila H, Renganathan G, et al: Rule Discovery from Time Series, Fourth Annual Conference on Knowledge Discovery and Data Mining[C], AAAI Press, 1998, PP.16-22