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Online since: January 2014
Authors: Wei He, Yan Li Yu, Wei Ping Xie
(a) Railway station roof
(b) waiting room floor
(c) Commercial sandwich
Fig.1 Fine finite element calculation model of the railway station
1.2 Computation parameters
The main materials for the railway station are concrete and steel.
Journal of Vibration and Shock, Vol. 27(2008), p. 132
Journal of Sound and Vibration, Vol. 279(2005), p. 1
Journal of Vibration and Shock, Vol. 31(2012), p.186
China Civil Engineering Journal, Vol. 46(2013), p. 90
Journal of Vibration and Shock, Vol. 27(2008), p. 132
Journal of Sound and Vibration, Vol. 279(2005), p. 1
Journal of Vibration and Shock, Vol. 31(2012), p.186
China Civil Engineering Journal, Vol. 46(2013), p. 90
Online since: August 2013
Authors: Chun Ge Nie, Wen Zhong Zhao, Yue Dong Wang
Welding Journal, 1984, 63(4), 34~41
[4] Crofts M.R, Martin L.H.
Engineering Journal, AISC, 1994, 31(3), 98~108 [6] McClellan R.
Welding Journal., 1974, 53(2), 59~64 [8] Zhou Haosen, Shi Zhongxian.
International Journal of Mechanical Science. 2009, 51(8): 609–618 [12] Mellor B.G., Rainey R.C.T., Kirk N.E..
The Journal of Strain Analysis for Engineering Design. 2012, 47(8): 562~575.
Engineering Journal, AISC, 1994, 31(3), 98~108 [6] McClellan R.
Welding Journal., 1974, 53(2), 59~64 [8] Zhou Haosen, Shi Zhongxian.
International Journal of Mechanical Science. 2009, 51(8): 609–618 [12] Mellor B.G., Rainey R.C.T., Kirk N.E..
The Journal of Strain Analysis for Engineering Design. 2012, 47(8): 562~575.
Online since: August 2007
Authors: Jae Do Kwon, Il Sup Chung, Young Suck Chai, Seung Wan Woo, Dae Kyu Park
Table 1 shows the chemical composition of these three materials.
Table 2 notes the results of the tension test of these three materials.
This was due to all three materials high ductile performance.
All three materials illustrated similar results.
Journal, Vol.
Table 2 notes the results of the tension test of these three materials.
This was due to all three materials high ductile performance.
All three materials illustrated similar results.
Journal, Vol.
Online since: April 2015
Authors: Czesław Kapusta, Jan Sieniawski, Marek Poręba, Maria Richert, Paulina Zawadzka, Tomasz Strączek
The possibility of deposition of diamond and DLC coatings
by PACVD method
Marek Poręba1,a, Paulina Zawadzka2,b, Maria Richert2,c,
Jan Sieniawski1,d, Tomasz Strączek3,e, Czesław Kapusta3,f
1Rzeszów University of Technology, Faculty of Mechanical Engineering and Aeronautics, Department of Materials Science,
Powstańców Warszawy 12 Av., 35 – 959 Rzeszów, Poland
2AGH, University of Science and Technology, Faculty of Non - Ferrous Metals, Department of Materials Science and Non-Ferrous Metals Engineering, Mickiewicza 30 Av., 30 – 059 Krakow, Poland
3AGH, University of Science and Technology, Faculty of Physics and Applied Computer Science, Department of Solid State Physics,
Mickiewicza 30 Av., 30 – 059 Krakow, Poland
aporeba@prz.edu.pl, b*pauzaw@agh.edu.pl, cmrichert@agh.edu.pl, djansien@prz.edu.pl, eTomasz.Straczek@fis.agh.edu.pl, fkapusta@agh.edu.pl,
Keywords: DLC and diamond coatings, PA CVD method, Raman spectromicroscopy, infrared spectromicroscopy
Abstract.
Gracio, Diamond coating on steel with a titanium interlayer, Diamond and Related Materials, 7 (1998) 603-606
Vermesan, Investigations of diamond layers growth on steel, Journal of Optoelectronics and Advanced Materials, 2 (5) (2000), 698-703
Hirose, Direct coating of nanophase diamond films on steel substrate, Diamond and Related Materials, 433 (2006) 150153
Li, Characterization of amorphous and nanocrystalline carbon films, Materials Chemistry and Physics, 96 (2006) 253-277
Gracio, Diamond coating on steel with a titanium interlayer, Diamond and Related Materials, 7 (1998) 603-606
Vermesan, Investigations of diamond layers growth on steel, Journal of Optoelectronics and Advanced Materials, 2 (5) (2000), 698-703
Hirose, Direct coating of nanophase diamond films on steel substrate, Diamond and Related Materials, 433 (2006) 150153
Li, Characterization of amorphous and nanocrystalline carbon films, Materials Chemistry and Physics, 96 (2006) 253-277
Online since: July 2014
Authors: Monika Čáchová, Dana Koňáková, Kirill Polozhiy, Eva Vejmelková, Robert Černý, Martin Keppert
Although plaster belonged to the first structural materials, they are still getting further enhancements.
Introduction Plasters are traditional building materials used as an upper cover layer of any construction.
Thermal parameters of the studied materials are given in Table 5.
Interlaboratory Comparison of Hygric Properties of Porous Building Materials.
Journal of Thermal Envelope and Building Science, 2004, Vol. 27, pp 307-325
Introduction Plasters are traditional building materials used as an upper cover layer of any construction.
Thermal parameters of the studied materials are given in Table 5.
Interlaboratory Comparison of Hygric Properties of Porous Building Materials.
Journal of Thermal Envelope and Building Science, 2004, Vol. 27, pp 307-325
Online since: August 2004
Authors: M. Meyer, J.M. Boyer, R. Garrigos, B. Répetti, A. Bée
This approach is shared by other researchers working on other materials[6]
.
Petras, Journal of applied crystallography (1999). 32, 808-813
Bée, Journal of Metastable and Nanocrystalline Materials ISSN 1422-6375: e-volume 2001, pp 29-36
Zabicky, Materials Science Forum Vols. 321-324, (2000), pp. 762-767
Becker, Materials Science Forum Vols. 321-324, (2000), pp. 357-362
Petras, Journal of applied crystallography (1999). 32, 808-813
Bée, Journal of Metastable and Nanocrystalline Materials ISSN 1422-6375: e-volume 2001, pp 29-36
Zabicky, Materials Science Forum Vols. 321-324, (2000), pp. 762-767
Becker, Materials Science Forum Vols. 321-324, (2000), pp. 357-362
Online since: January 2013
Authors: Wen Min Han, Jie Lv, Jing Yuan
Acknowledgements
This research was supported by the National Natural Science Foundation of China (71271105) and the Ministry of Education Humanities Social Sciences Planning Foundation of China (12YJA630036).
Journal of Manufacturing Technology Management, 16,5,2005,516-530 [2] Gert Nomden, Jannes Slomp, Nallan C.
Chinese Journal of Management, 2008, 5(4): 516-521, in Chinese [5] Al-Ahmari, and Khaled Alharbi.
International Journal of Engineering, Science and Technology.2010(2):163-174
International Journal of Engineering Science and Technology,2010, 2(6) :1708-1724
Journal of Manufacturing Technology Management, 16,5,2005,516-530 [2] Gert Nomden, Jannes Slomp, Nallan C.
Chinese Journal of Management, 2008, 5(4): 516-521, in Chinese [5] Al-Ahmari, and Khaled Alharbi.
International Journal of Engineering, Science and Technology.2010(2):163-174
International Journal of Engineering Science and Technology,2010, 2(6) :1708-1724
Online since: November 2023
Authors: John G. Speer, David Marshall, Caleb Schenck, Lydia Hines
This material makes use of the TOF-SIMS system at the Colorado School of Mines, which was supported by the National Science Foundation under Grant No. 1726898.
Do Park, “Effect of Paint Baking on the Halo Ring and Mechanical Behavior of 30MnB5 Hot-Stamped Steel Resistance Spot Welding Joints,” Journal of Materials Research and Technology, vol. 24, pp. 4756–4761, 2023
Ashiri, “Evaluation of Weldability and Mechanical Properties in Resistance Spot Welding of Ultrahigh-Strength TRIP1100 Steel,” SAE International Journal of Materials and Manufacturing, vol. 12, no. 1, pp. 5–18, 2018
Lee, “A Comparison of Cross-Tension Properties and Fracture Behavior Between Similar and Dissimilar Resistance Spot-Weldments in Medium-Mn TRIP Steel,” Materials Science and Engineering A, vol. 752, pp. 206–216, 2019
Hofer, “Improving the Mechanical Performance of a Resistance Spot Welded 1200 MPa TBF Steel,” International Journal of Materials Research, vol. 112, pp. 262–270, 2021
Do Park, “Effect of Paint Baking on the Halo Ring and Mechanical Behavior of 30MnB5 Hot-Stamped Steel Resistance Spot Welding Joints,” Journal of Materials Research and Technology, vol. 24, pp. 4756–4761, 2023
Ashiri, “Evaluation of Weldability and Mechanical Properties in Resistance Spot Welding of Ultrahigh-Strength TRIP1100 Steel,” SAE International Journal of Materials and Manufacturing, vol. 12, no. 1, pp. 5–18, 2018
Lee, “A Comparison of Cross-Tension Properties and Fracture Behavior Between Similar and Dissimilar Resistance Spot-Weldments in Medium-Mn TRIP Steel,” Materials Science and Engineering A, vol. 752, pp. 206–216, 2019
Hofer, “Improving the Mechanical Performance of a Resistance Spot Welded 1200 MPa TBF Steel,” International Journal of Materials Research, vol. 112, pp. 262–270, 2021
Online since: August 2010
Authors: Quan Song Qi
The basic route of large coking enterprise materials circulation is: coke industry and
upstream coal washing industry of industrial chain, downstream metallurgy and chemical industry
should make comprehensive use of the close relationship electricity industry and building material
industry, etc. which build together to industrial park.
The main by-products of coal industry are coke oven gas and coal tar, which are sound energy or chemical raw materials.
Science & Technology Progress and Policy, 2005(2): 66-68 [3] Geng Dianming, et al.
Journal of Liaoning Technical University(Social Science Edition), 2004,6(3): 250~252 [6] Chaulya S K.Assessment and management of air quality for an opencast coal mining area [J].Journal of Environment Management, 2003,69(4):13-26 Adisa Azapagic.
Journal of Cleaner Production,2004,12(6):36-62 [7] Richard Bond et al.
The main by-products of coal industry are coke oven gas and coal tar, which are sound energy or chemical raw materials.
Science & Technology Progress and Policy, 2005(2): 66-68 [3] Geng Dianming, et al.
Journal of Liaoning Technical University(Social Science Edition), 2004,6(3): 250~252 [6] Chaulya S K.Assessment and management of air quality for an opencast coal mining area [J].Journal of Environment Management, 2003,69(4):13-26 Adisa Azapagic.
Journal of Cleaner Production,2004,12(6):36-62 [7] Richard Bond et al.
Online since: February 2013
Authors: Qing Cui Wan, Xue Qing Xu, Feng Jiao Mei, Gang Xu, An Ping, Hua Liao, Ji Fu Shi
CuInS2 (copper indium sulphur, CIS in brief) quantum dot as photosensitive materials present many attractive features including: (i) high absorption coefficient (6×105cm-1) [6]; (ii) and direct band gap of 1.5ev, which is the optimum value for terrestrial solar cells[7] and (iii) appreciable photo lectrochemical stability while contacting with polysulfide electrolytes which act as hole transport materials.
Ennaoui, Concepts of inorganic solid-state nanostructured solar cells, Solar Energy Materials and Solar Cells. 95(2011)1527-1536
Changhui, Review of Quantum Dot Deposition for Extremely Thin Absorber, Solar Cells Science of Advanced Materials. 3(2011)41–58
Peng, Experimental determination of the extinction coefficient of CdTe, CdSe, and CdS nanocrystals, Chemistry of Materials. 15(2003)2854-2860
Goossens, Solar‐Energy Conversion in TiO2/CuInS2 Nanocomposites, Advanced Functional Materials. 15(2005)95-100
Ennaoui, Concepts of inorganic solid-state nanostructured solar cells, Solar Energy Materials and Solar Cells. 95(2011)1527-1536
Changhui, Review of Quantum Dot Deposition for Extremely Thin Absorber, Solar Cells Science of Advanced Materials. 3(2011)41–58
Peng, Experimental determination of the extinction coefficient of CdTe, CdSe, and CdS nanocrystals, Chemistry of Materials. 15(2003)2854-2860
Goossens, Solar‐Energy Conversion in TiO2/CuInS2 Nanocomposites, Advanced Functional Materials. 15(2005)95-100