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Online since: December 2011
Authors: Wen Jun Bi, Yong Zhu, Ying Jin
Table 1 and Table 2 are the chemical composition and material parameters.
In most engineering applications, though the nominal stress components endured by the components is lower than the yield strength of metal materials, the stress concentration appears at the nick regions, which can not be neglected and whose degree can be denoted by the theoretical concentration factor.
Shuai: Journal of Mechanical Strength Vol. 21 (1999), p. 69 [4] Z.G.
Huang: Journal of Mechanical Strength Vol. 23 (2001), p. 243 [5] I.М.
Goutman: Chemical and Corrosion Protection of Metal Mechanical (Science press, Beijing 1989).
In most engineering applications, though the nominal stress components endured by the components is lower than the yield strength of metal materials, the stress concentration appears at the nick regions, which can not be neglected and whose degree can be denoted by the theoretical concentration factor.
Shuai: Journal of Mechanical Strength Vol. 21 (1999), p. 69 [4] Z.G.
Huang: Journal of Mechanical Strength Vol. 23 (2001), p. 243 [5] I.М.
Goutman: Chemical and Corrosion Protection of Metal Mechanical (Science press, Beijing 1989).
Online since: January 2012
Authors: Li Li Wang, Zhen Nan Deng, Jin Song Liu, Jian Feng Ma
Materials and methods
The essential regents of gelcasing include organic monomer: acrylamide (AM), cross-linker: N,N-methylenebisacrylamide (MBAM), initiator: ammonium persulphate (APS), catalyst: N,N,N,N-tetramethylethylenediamine (TEMD), and dispersant: SD-07.
Contemporary materials and technologies for all-ceramic fixed partial dentures: a review of the literature.
Journal of Jilin University (medicine edition), 2005, 31(6), p.896-898 [9] Rizkalla AS, Jones DW.
Mechanical properties of commercial high strength ceramic core materials [J].
West China Journal of Stomatology 2006, 24(5), p.404-406
Contemporary materials and technologies for all-ceramic fixed partial dentures: a review of the literature.
Journal of Jilin University (medicine edition), 2005, 31(6), p.896-898 [9] Rizkalla AS, Jones DW.
Mechanical properties of commercial high strength ceramic core materials [J].
West China Journal of Stomatology 2006, 24(5), p.404-406
Online since: January 2014
Authors: Nina Danišová
Digital image processing in the camera system of assembly systems ICIM
Nina Danišová 1, a
1Institute of Production Systems and Applied Mechanics, Faculty of Materials Science and Technology in Trnava, Slovak University of Technology in Bratislava, Razusová 2, 917 24, Trnava, Slovak republic
anina.danisova@stuba.sk
Keywords: system, method selection, resolution, camera system
Abstract.
Journal of Applied Mechanics and Materials (ISSN 1662-7482) Vol. 371 (2013) pp. 473-477, (doi:10.4028/www.scientific.net/AMM.371.473)
Journal of Applied Mechanics and Materials (ISSN 1662-7482) Vol. 371 (2013) pp. 544-548, (doi: 10.4028/www.scientific.net/AMM.371.544).
Journal of Applied Mechanics and Materials (ISSN 1662-7482) Vol. 371 (2013) pp. 473-477, (doi:10.4028/www.scientific.net/AMM.371.473)
Journal of Applied Mechanics and Materials (ISSN 1662-7482) Vol. 371 (2013) pp. 544-548, (doi: 10.4028/www.scientific.net/AMM.371.544).
Online since: October 2011
Authors: Tie Lin Shi, Zheng Huang
It is consisted of contact potential between two different materials, thermal electromotive force in the friction process between two different materials, potential difference created by charge change in the contact and abruption process of friction pair and potential difference created by material transfer in the friction process.
Influence on frictional coefficient and self-generated voltage by metal grain lies on grain property and conglutination property of friction pair materials[1,2].
Potential difference is created after the contact of two different materials.
Thermal electromotive force is created in the process of friction of two materials.
“On-line metallic wear diagnosis of unlubricate by using self-generated voltage,” Journal of Harbin Institute of Technology (New Series),Vol.7,pp.32–34 ,2000
Influence on frictional coefficient and self-generated voltage by metal grain lies on grain property and conglutination property of friction pair materials[1,2].
Potential difference is created after the contact of two different materials.
Thermal electromotive force is created in the process of friction of two materials.
“On-line metallic wear diagnosis of unlubricate by using self-generated voltage,” Journal of Harbin Institute of Technology (New Series),Vol.7,pp.32–34 ,2000
Online since: February 2011
Authors: Lu Feng Pang, Qing Shan Chang, Yong Tao Cai
This paper considers the application of Super Absorbent Polymer(SAP) in expansive concrete with different cementitious materials.
Test materials Super Absorbent Polymer.
Cementitious Materials ,Admixture P·O42.5 cement(C), S95 Ground blast furnace slag powder(KF), fly ash(FA) which grade isⅡ.
Journal of South China University of Technology (Natural Science Edition).
New Building Materials. 7-11 (2008).
Test materials Super Absorbent Polymer.
Cementitious Materials ,Admixture P·O42.5 cement(C), S95 Ground blast furnace slag powder(KF), fly ash(FA) which grade isⅡ.
Journal of South China University of Technology (Natural Science Edition).
New Building Materials. 7-11 (2008).
Online since: April 2013
Authors: M.R. Ibrahim, A.R. Abd. Kadir, M.S. Omar, S. Sulaiman, M.H. Osman
In order to prove the optimal prediction result, the confirmation test was carried out and found 0.002mm of tool wear
References
[1] Yung-Chang Yen, Jörg Söhner, Blaine Lilly, Taylan Altan, Estimation of tool wear in orthogonal cutting using the finite element analysis, Journal of Materials Processing Technology 146 (2004) 82–91
[2] P.S.
International Journal of Engineering Science and Technology Vol. 2(6), 2010, 1780-1789 [3] Julie Z.
Daniel Kirby, Surface roughness optimization in an end-milling operation using the Taguchi design method,Journal of Materials Processing Technology 184 (2007) 233–239 [4] E.G.
Hassan, Application of Taguchi method in the optimization of end milling parameters, Journal of Materials Processing Technology 145 (2004) 84–92 Received 17 April 2002; received in revised form 17 April 2002; accepted 25 June 2003 [6] M.S.
International Journal of Engineering Science and Technology Vol. 2(6), 2010, 1780-1789 [3] Julie Z.
Daniel Kirby, Surface roughness optimization in an end-milling operation using the Taguchi design method,Journal of Materials Processing Technology 184 (2007) 233–239 [4] E.G.
Hassan, Application of Taguchi method in the optimization of end milling parameters, Journal of Materials Processing Technology 145 (2004) 84–92 Received 17 April 2002; received in revised form 17 April 2002; accepted 25 June 2003 [6] M.S.
Online since: July 2017
Authors: Ana Paula Rosifini Alves Claro, Ana Lucia do Amaral Escada, Cristiane Aparecida Pereira, Antonio Olavo Cardoso Jorge
Estadual Paulista - UNESP, Department of Materials and Technology,
Faculty of Engineering Guaratinguetá, Av.
Materials and methods TiO2 nanotube layers were produced using an anodization process.
Hannig: Journal of Oral Rehabilitation Vol. 34 (2007), p. 377
Haffajee: Journal of Applied Microbiology Vol. 97 (2004), p. 1311 [4] H.J.
Renvert: Journal of Clinical Periodontology Vol. 33 (2006), p. 290
Materials and methods TiO2 nanotube layers were produced using an anodization process.
Hannig: Journal of Oral Rehabilitation Vol. 34 (2007), p. 377
Haffajee: Journal of Applied Microbiology Vol. 97 (2004), p. 1311 [4] H.J.
Renvert: Journal of Clinical Periodontology Vol. 33 (2006), p. 290
Online since: May 2013
Authors: Wen Ku Shi, Bo Jiang
IEE Proceedings-Science, Measurement and Technology, 1994, 141(6):531-537
[3] Little, Eric F. ; Kashani, A.
Smart Structures and Materials,2001,(7):487-493
Journal of Intelligent Material Systems and Structures, 2000,10(8):671-677
Journal of Sound and Vibration, 2001, 242(4):740-748
Journal of functional materials. 2006, 37(5):840-843
Smart Structures and Materials,2001,(7):487-493
Journal of Intelligent Material Systems and Structures, 2000,10(8):671-677
Journal of Sound and Vibration, 2001, 242(4):740-748
Journal of functional materials. 2006, 37(5):840-843
Online since: August 2011
Authors: Li Hui, Song Zhou, Liang Xu, Shao Hua Ma, Yan Wang, Ying Ying Zhang
In this paper, fatigue life and staircase experiments evaluating fatigue strength with pre-corroded specimens in room and humid environment were conducted to investigate the corrosion influence of humid environment on fatigue life, strength and its dispersion of 7XXX aluminum alloy—a kind of aeronautical metal structural material.
S funnel-shaped specimen (GJB1997-94)is made of raw material bar (<22mm) to be suit for the test under corrosive environment, which can be found in Fig.1.The chemical composition and mechanical properties are shown in tables 1 and 2,respectively.
References [1] Hongquan Guo, Yongan Yang and Youjin Wu: Journal of Materials Engineering.No.4 (1995), P. 42-44 [2] M.L .Du, F.P Chiang and S.V.Kagwade: International Journal of Fatigue.
[5] Jaensch C.E:Corrosion fatigue in marine engineering(Metallurgical Industry Press, Beijing1989) [6] D.L.DuQuesnay,P.R.Underhill and H.J.Britt: International Journal of Fatigue.No.25 (2003), P. 371–377 [7] Kimberli Jones and Sachin R.Shinde: Corrosion Science.
[10] Rul Bao, JianYu Zhang and Binjun Fei:chinese journal of materials research.Vol.21 No.5 (2007), P.547-550 [11] Lin Kuang, Xiaohua Yang and Ding Zhang: Structure & Environment Engineering.Vol.35 No.4 (2008), P. 51-55 [12] Zhentong Gao, Junjiang Xiong: Fatigue reliability (Beijing University of Aeronautics and Astronautics Press, Beijing2000).
S funnel-shaped specimen (GJB1997-94)is made of raw material bar (<22mm) to be suit for the test under corrosive environment, which can be found in Fig.1.The chemical composition and mechanical properties are shown in tables 1 and 2,respectively.
References [1] Hongquan Guo, Yongan Yang and Youjin Wu: Journal of Materials Engineering.No.4 (1995), P. 42-44 [2] M.L .Du, F.P Chiang and S.V.Kagwade: International Journal of Fatigue.
[5] Jaensch C.E:Corrosion fatigue in marine engineering(Metallurgical Industry Press, Beijing1989) [6] D.L.DuQuesnay,P.R.Underhill and H.J.Britt: International Journal of Fatigue.No.25 (2003), P. 371–377 [7] Kimberli Jones and Sachin R.Shinde: Corrosion Science.
[10] Rul Bao, JianYu Zhang and Binjun Fei:chinese journal of materials research.Vol.21 No.5 (2007), P.547-550 [11] Lin Kuang, Xiaohua Yang and Ding Zhang: Structure & Environment Engineering.Vol.35 No.4 (2008), P. 51-55 [12] Zhentong Gao, Junjiang Xiong: Fatigue reliability (Beijing University of Aeronautics and Astronautics Press, Beijing2000).
Online since: November 2014
Authors: Xu Dong Qi, Zhi Hui Li
Journal of Hazardous Materials, 2010, 176(1): 938-944
Chemical Engineering Journal, 2011, 175(11): 279-290
Jounral of Hazardous Materials, 2011, 185(1): 353-358
Journal of Hazardous Materials, 2007, 148(1): 83-90
Chemical Engineering Journal, 2013, 216(1): 586-590
Chemical Engineering Journal, 2011, 175(11): 279-290
Jounral of Hazardous Materials, 2011, 185(1): 353-358
Journal of Hazardous Materials, 2007, 148(1): 83-90
Chemical Engineering Journal, 2013, 216(1): 586-590