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Online since: December 2012
Authors: Jun Cheng Jiang, Lin Qiao, Zhi Hao Sun
Cai: Fire Safety Journal Vol.41( 2006), p. 39
Shu: Fire and Materials Vol.32(2008), p. 383
Yoon: Fire Safety Journal Vol.28(1997), p. 295
Liao: Journal of Thermal Science and Technology Vol.1(2004), p. 65
Liao: Journal of Fire Sciences Vol.29(2011), p. 339.
Shu: Fire and Materials Vol.32(2008), p. 383
Yoon: Fire Safety Journal Vol.28(1997), p. 295
Liao: Journal of Thermal Science and Technology Vol.1(2004), p. 65
Liao: Journal of Fire Sciences Vol.29(2011), p. 339.
Online since: April 2021
Authors: V.A. Nekit, Nicolay Urtsev, Sergey I. Platov
Ivanushkin, Study of the microstructure of the pipe steel after rolling in the plate mill 5000, IOP Conference Series: Materials Science and Engineering 447(1), 2018, 012063
Ogarkov, Improving the controlled cooling after wire rod rolling in the finishing block of stands, Materials Science Forum 870, 2016, pp. 620-624
Bhadeshia, Bainite transformation kinetics Part 1 Modified model, Materials Science and Technology, V. 8, 1992, pp. 985 – 993
Tszeng // Materials Science And Engineering A, 2000, V. 293, P. 185–190
A Liu, Bainite transformation kinetics model and its application to X70 pipeline steel, C.Liu, X.Di, C.Chen, X.Guo, Z.Xue, Journal of Materials Science. - 2015. №50. - pp.5079–5090
Ogarkov, Improving the controlled cooling after wire rod rolling in the finishing block of stands, Materials Science Forum 870, 2016, pp. 620-624
Bhadeshia, Bainite transformation kinetics Part 1 Modified model, Materials Science and Technology, V. 8, 1992, pp. 985 – 993
Tszeng // Materials Science And Engineering A, 2000, V. 293, P. 185–190
A Liu, Bainite transformation kinetics model and its application to X70 pipeline steel, C.Liu, X.Di, C.Chen, X.Guo, Z.Xue, Journal of Materials Science. - 2015. №50. - pp.5079–5090
Online since: August 2014
Authors: Lei Zhang, Lei Wang, Xiao Wen Cao, Ru Yi Xiang, Shun Guang Li, Hui Chao Sun
Superhydrophobic Structure Fabricated by Femtosecond Laser
on Nickel Surface
ZHANG Lei1, a, CAO Xiaowen1, b, XIANG Ruyi1,c, LI Shunguang1,d, WANG Lei2,e and SUN Huichao1, f
1School of Mechanical Science and Engineering, Nanling Campus, Jilin University, Changchun 130025, China
2State Key Laboratory on Integrated Optoelectronics, College of Electronic Science and Engineering, Jilin University, 2699 Qianjin Street, Changchun, 130012, China
azhanglei@ jlu.edu.cn, bcaoxiaowen2010@outlook.com, cxiangruyi1120@163.com, dchenchen.0314@163.com, eyaying0-012@163.com, fsunhc@jlu.edu.cn
Keywords: Femtosecond laser, Nickel, Superhydrophobic structure, Contact angle
Abstract.
This paper proposes an approach to fabricate large scale superhydrophobic structure directly on nickel(Ni) surface by femtosecond laser and the apparent contact angle (CA) on the Ni surface can reach 134° without further coating any low surface energy materials.
Without coating any additional low surface energy materials on Ni and PDMS surfaces, the apparent CA on the surface of Ni can reach 134° and that on PDMS can reach 153°.The CAs increase with laser power.
Wang: Journal of Materials Chemistry Vol. 18 (2008), p.621 [2] H.
Good: The Journal of Physical Chemistry Vol. 61 (1957), p. 904 [5] N.
This paper proposes an approach to fabricate large scale superhydrophobic structure directly on nickel(Ni) surface by femtosecond laser and the apparent contact angle (CA) on the Ni surface can reach 134° without further coating any low surface energy materials.
Without coating any additional low surface energy materials on Ni and PDMS surfaces, the apparent CA on the surface of Ni can reach 134° and that on PDMS can reach 153°.The CAs increase with laser power.
Wang: Journal of Materials Chemistry Vol. 18 (2008), p.621 [2] H.
Good: The Journal of Physical Chemistry Vol. 61 (1957), p. 904 [5] N.
Online since: July 2012
Authors: Yu Hui Liu
Cutting parameters in machining are influenced by many factors such as materials, cutting tools and the person who operates.
Journal of Test and Measurement Technology, 217-221(2005)
Monitoring Cutting Forces in Turning:A Model-Based Approach,Journal of Manufacturing Science and Engineering,26-31 (2002)
International Journal of Machine Tools and Manufacture.
Journal of Test and Measurement Technology,19(2):217-221(2005)
Journal of Test and Measurement Technology, 217-221(2005)
Monitoring Cutting Forces in Turning:A Model-Based Approach,Journal of Manufacturing Science and Engineering,26-31 (2002)
International Journal of Machine Tools and Manufacture.
Journal of Test and Measurement Technology,19(2):217-221(2005)
Online since: November 2010
Authors: K. Kuniyoshi, Masaki Fujikawa, Ryouji Kondou, Chobin Makabe, D. Shinohara
Materials and Testing Procedure
The materials used were 99.9% pure-copper and 99.9% pure-aluminum.
We discussed the effects of pre-torsional deformation on the strength of the materials.
Swift H: Journal of Iron and Steel.
Itokazu: Journal of Testing and Evaluation.
Tanaka: Materials Strength.
We discussed the effects of pre-torsional deformation on the strength of the materials.
Swift H: Journal of Iron and Steel.
Itokazu: Journal of Testing and Evaluation.
Tanaka: Materials Strength.
Online since: June 2017
Authors: Xi Ying Ma, Miao Fei Meng
Molybdenum disulfide (MoS2) thin films, layered quasi-two dimensional (2D) materials, have excellent optical and electronic properties for its special structure.
Introduction Layered quasi-two dimensional (2D) chalcogenide materials have attracted great interest due to their excellent optical, electrical, catalysis, and lubrication characteristics[1,2].
Experimental Details Crystals of Er (NO3) 3 • 5H2O (99.9%), MoS2 powder (AR, 99%), and C2H6O(Ethanol absolute, 99.9%) were used as starting materials. 1.02g Er(NO3)3 • 5H2O and 1.06g MoS2 powder were well mixed and dissolved in 5 ml C2H6O.
Wear: an International Journal on the Science and Technology of Friction, Lubrication and Wear, 2013. 303(1/2): p. 361-370
IEEE journal of selected topics in quantum electronics, 2014. 20(1): p. 1-6
Introduction Layered quasi-two dimensional (2D) chalcogenide materials have attracted great interest due to their excellent optical, electrical, catalysis, and lubrication characteristics[1,2].
Experimental Details Crystals of Er (NO3) 3 • 5H2O (99.9%), MoS2 powder (AR, 99%), and C2H6O(Ethanol absolute, 99.9%) were used as starting materials. 1.02g Er(NO3)3 • 5H2O and 1.06g MoS2 powder were well mixed and dissolved in 5 ml C2H6O.
Wear: an International Journal on the Science and Technology of Friction, Lubrication and Wear, 2013. 303(1/2): p. 361-370
IEEE journal of selected topics in quantum electronics, 2014. 20(1): p. 1-6
Online since: September 2013
Authors: Ji Feng Shi
Effects of annealing and different substrate materials on ohmic contact property of IGZO films
Shi Jifeng 1, a
1 Key Laboratory of Advanced Display and System Application (Shanghai University), Ministry of Education, Shanghai 200072,P.R.China.
At present,many kinds of materials can be used as the active layer of transparent TFT,such as ZnO,IZO,InO,IGZO.IGZO films have many advantages,its bandgap width is about 3.5ev,we can deposite IGZO films at alow temperature,the films is easy to form ohmic contact with other metal materials,IGZO films have good electronic mobility ,and so on.At present ,there is many methods to prepare IGZO films.These methods contain: magnetron sputtering, pulsed laser deposition,electron beam evaporation,and so on.RF magnetron sputtering is the most widely used.
Acknowledgement This work was supported by Shanghai science and technologycommission under grant No 10dz1100102.
Reference [1] Wager J F.Transparent electronics [J].Science,2003,300(5623):1245-1246
[4] Nishii J,Hossain F M,Takagi S,et al.High Mobility Thin Film Transistors with Transparent ZnO Channels[J],Tapanese Journal of Applied Physics,2003,42:L347
At present,many kinds of materials can be used as the active layer of transparent TFT,such as ZnO,IZO,InO,IGZO.IGZO films have many advantages,its bandgap width is about 3.5ev,we can deposite IGZO films at alow temperature,the films is easy to form ohmic contact with other metal materials,IGZO films have good electronic mobility ,and so on.At present ,there is many methods to prepare IGZO films.These methods contain: magnetron sputtering, pulsed laser deposition,electron beam evaporation,and so on.RF magnetron sputtering is the most widely used.
Acknowledgement This work was supported by Shanghai science and technologycommission under grant No 10dz1100102.
Reference [1] Wager J F.Transparent electronics [J].Science,2003,300(5623):1245-1246
[4] Nishii J,Hossain F M,Takagi S,et al.High Mobility Thin Film Transistors with Transparent ZnO Channels[J],Tapanese Journal of Applied Physics,2003,42:L347
Online since: August 2013
Authors: Dan Yu, Ling Ling Wu, Jia Fu Wang, Yi Wen Tao, Yi Tong Shen, Bing Ying Liang, Han Wang
Experimental
2.1 Materials and instruments
β-cyclodextrin(β-CD) and Chitosan(CS) are biochemical regents purchased from Sinopharm Chemical Reagent Co.Ltd.Citric acid monohydrate(CAM),sodium dihydrogen phosphate(MSP),and vinyltriethoxysilane, are analytical pure reagents purchased from accredited manufacturers in China.
Sichuan university journal light chemical industry,2003,2(16)20-24
[3] Gurusamy Annadurai,Lai Yi Ling,Jiunn-Fwu Lee.Adsorption of reactive dye from an aqueous solution by chitosan:isotherm,kinetic and thermodynamic analysis,Journal of Hazardous Materials 152(2008):337-346
[5] Gurusamy Annadurai,Lai Yi Ling,Jiunn-Fwu Lee.Adsorption of reactive dye from an aqueous solution by chitosan:isotherm,kinetic and thermodynamic analysis,Journal of Hazardous Materials 152(2008):337-346
[7] Fei Zha,Shaoguang Li,Yue Chang,Jun Yan.Preparation and adsorption kinetics of porous γ-glycidoxypropyltrimethoxysilane crosslinked chitosan-β-cyclodextrin membranes,Journal of Membranes Science 321(2008):316-323
Sichuan university journal light chemical industry,2003,2(16)20-24
[3] Gurusamy Annadurai,Lai Yi Ling,Jiunn-Fwu Lee.Adsorption of reactive dye from an aqueous solution by chitosan:isotherm,kinetic and thermodynamic analysis,Journal of Hazardous Materials 152(2008):337-346
[5] Gurusamy Annadurai,Lai Yi Ling,Jiunn-Fwu Lee.Adsorption of reactive dye from an aqueous solution by chitosan:isotherm,kinetic and thermodynamic analysis,Journal of Hazardous Materials 152(2008):337-346
[7] Fei Zha,Shaoguang Li,Yue Chang,Jun Yan.Preparation and adsorption kinetics of porous γ-glycidoxypropyltrimethoxysilane crosslinked chitosan-β-cyclodextrin membranes,Journal of Membranes Science 321(2008):316-323
Online since: September 2013
Authors: Ju Dong Liu, Wei Yuan, Meng Chen
Zhang: Journal of Materials Science, Vol. 37 (2002), pp.35-43.
Li, et al: Materials Science Forum, Vol. 532-533 (2006), pp. 584-587
Huang, et al: Key Engineering Materials, Vol. 455 (2011), pp.580-584.
Xiong, et al: Key Engineering Materials, Vol. 522 (2012), pp.87-91
Zhang: Advanced Materials Research, Vol. 668 (2013), pp.898-901..
Li, et al: Materials Science Forum, Vol. 532-533 (2006), pp. 584-587
Huang, et al: Key Engineering Materials, Vol. 455 (2011), pp.580-584.
Xiong, et al: Key Engineering Materials, Vol. 522 (2012), pp.87-91
Zhang: Advanced Materials Research, Vol. 668 (2013), pp.898-901..
Online since: December 2012
Authors: Guo Tian He, Ying Chun Ran, De Sheng Zhang, Ming Li, Juan Wei, Li Song, Ma Yan, Ze Yu Xu
Especially in complex system, simulation technology is very significant, such as magneto-rheological smart materials.
But it is difficult to establish a proper mathematical model to describe the MRG materials.
The traditional research methods get properties of MRG materials through a large number of experimental tests.
In recent years, a kind of spherical particle MRG has been developed by Ping Zhang in Chongqing Instrument Materials Research Institute China.
[8] G.Bossis, P.Khuzir, S.Lacis, “Yield behavior of magnetodteological suspensions”, Magnetism and Magnetic Materials,pp,258-259, 456-458,2003
But it is difficult to establish a proper mathematical model to describe the MRG materials.
The traditional research methods get properties of MRG materials through a large number of experimental tests.
In recent years, a kind of spherical particle MRG has been developed by Ping Zhang in Chongqing Instrument Materials Research Institute China.
[8] G.Bossis, P.Khuzir, S.Lacis, “Yield behavior of magnetodteological suspensions”, Magnetism and Magnetic Materials,pp,258-259, 456-458,2003