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Online since: January 2012
Authors: Wilson Wong, Eric Irissou, Phuong Vo, Jean Gabriel Legoux, Stephen Yue
Yue5,e
1,4,5Department of Mining and Materials Engineering, McGill University, 3610 University,
Montreal, Quebec, Canada
2,3National Research Council Canada (NRC) – Industrial Materials Institute (IMI), 75 de Mortagne, Boucherville, Quebec, Canada
awilson.wong@mail.mcgill.ca, beric.irissou@imi.cnrc-nrc.gc.ca,
cjean-gabriel.legoux@imi.cnrc-nrc.gc.ca, dphuong.vo@mail.mcgill.ca, esteve.yue@mcgill.ca
Keywords: Cold Spray, Heat Treatment, Ti-6Al-4V, Powder Processing, Mechanical Properties
Abstract.
Wong, E.
Wong, A.
Rethwisch, Fundamentals of Materials Science and Engineering: An Integrated Approach, 3rd ed., Wiley, New York, 2008, p 882.
Wong, E.
Wong, A.
Rethwisch, Fundamentals of Materials Science and Engineering: An Integrated Approach, 3rd ed., Wiley, New York, 2008, p 882.
Online since: January 2014
Authors: M.Z.M. Zamzuri, W. Rahman, Z. Nooraizedfiza, M.N. Derman, M.A. Selamat, M. Marina
. & Ahmad, Z.A. (2008).
[3] Chakthin, S., Morakotjinda, M., Yodkaew, T., Torsangtum, N., Krataithong, R. & Siriphol, P. (2008).
[4] Yodkaew, T., Morakotjinda, M., Tosangthum, N. & Coovattanachai, O. (2008).
[11] Wong, W.L. (2010).
[15] Wong, W.
[3] Chakthin, S., Morakotjinda, M., Yodkaew, T., Torsangtum, N., Krataithong, R. & Siriphol, P. (2008).
[4] Yodkaew, T., Morakotjinda, M., Tosangthum, N. & Coovattanachai, O. (2008).
[11] Wong, W.L. (2010).
[15] Wong, W.
Online since: February 2011
Authors: Gang Ma, Guo Jian Cheng, Liu Mei Zhang
P.W.Wong proposed the first watermark model [3].
Meanwhile P.W.Wong’s model converts a watermark image A into M×N pixels picture which has similar blocks, digital abstract and Ai corresponding XOR with the original image.
[3] WONG P W.
[7] Ma Gang, Jiang Zhixin, Wei Hongchun, Liu Tianshi.A Brittle Digital Blind Watermark Algorithm Based on LSB[J].Microelectronics & Computer,2008,25(8):205—208.
Meanwhile P.W.Wong’s model converts a watermark image A into M×N pixels picture which has similar blocks, digital abstract and Ai corresponding XOR with the original image.
[3] WONG P W.
[7] Ma Gang, Jiang Zhixin, Wei Hongchun, Liu Tianshi.A Brittle Digital Blind Watermark Algorithm Based on LSB[J].Microelectronics & Computer,2008,25(8):205—208.
Online since: August 2013
Authors: Shao Jun Liu, Qing Jue Han
In 1956, Bekker [1] formulated a relationship between sinkage pressure and shear stress of a wheeled vehicle on soft ground; Wong (1984) [2]developed an analytical method for predicting the normal pressure distribution under a moving tracked vehicle, taking into account the response of the terrain to repetitive shear loading.
According to Wong, this relationship can be obtained by equation(2): (2) Here, is the shear stress of the soil,denotes the maximum shear stress,is the ratio of the residual shear stress to the maximum shear stress,and is the shear displacement where the maximum shear stressoccurs. can be obtained by equation(3): (3) Here, and are the cohesion of the soil and the angle of internal shearing resistance of the terrain respectively.
Ann Arbor, Mich.: University of Michigan Press, 1956 [2] Wong J.Y.
John Wiley & Sons, Inc. 2008 [3] Kanayama Y., Kimura Y., Miyazaki F., Noguchi T.
According to Wong, this relationship can be obtained by equation(2): (2) Here, is the shear stress of the soil,denotes the maximum shear stress,is the ratio of the residual shear stress to the maximum shear stress,and is the shear displacement where the maximum shear stressoccurs. can be obtained by equation(3): (3) Here, and are the cohesion of the soil and the angle of internal shearing resistance of the terrain respectively.
Ann Arbor, Mich.: University of Michigan Press, 1956 [2] Wong J.Y.
John Wiley & Sons, Inc. 2008 [3] Kanayama Y., Kimura Y., Miyazaki F., Noguchi T.
Online since: February 2014
Authors: Erik Janzén, Olof Kordina, Örjan Danielsson, Pitsiri Sukkaew, Lars Ojamäe
A comparison between the new calculated heat capacities (Cv) and those from Wong et al. [7] and the CHEMKIN database [20] is presented in Fig. 1.
Heat capacity (Cv) as functions of temperature calculated in this work compared with Wong et al. [7] and the CHEMKIN database [20].
Wong et al.
Jia et al., in Proceedings of SPIE – The International Society for Optical Engineering, 6984 (2008) 69842Q.
Heat capacity (Cv) as functions of temperature calculated in this work compared with Wong et al. [7] and the CHEMKIN database [20].
Wong et al.
Jia et al., in Proceedings of SPIE – The International Society for Optical Engineering, 6984 (2008) 69842Q.
Online since: March 2009
The 6th International Forum on
Advanced Material Science and Technology
(IFAMST 2008)
12-14 June 2008
The Hong Kong Polytechnic University
Hong Kong SAR, China
Organized by
The Hong Kong Polytechnic University
Sponsored by
Saitama Institute of Technology
The Hong Kong Polytechnic University
Hong Kong Society of Theoretical and Applied Mechanics International Scientific Advisory Committee
Prof.
Wong Georgia Institute of Technology, USA Prof.
Wong Georgia Institute of Technology, USA Prof.
Online since: February 2013
Authors: Xiao Lu Xu, Yin Lu, Hui Ying Xu, De Yong Zhang, Xiu Ying Shen, Guo Zhang Tong, Wei Wang
Vol. 27(2008), p. 2011
[7] E.
Tanaka, et al: Desalination Vol. 226(2008), p. 338 [19] M.
Vol. 42(2008), p. 6566 [20] S.
Miyano, et al: Chemosphere Vol. 72(2008), p. 1409 [21] N.
Miyano, et al: Chemosphere Vol. 72(2008), p. 1409 [37] D.
Tanaka, et al: Desalination Vol. 226(2008), p. 338 [19] M.
Vol. 42(2008), p. 6566 [20] S.
Miyano, et al: Chemosphere Vol. 72(2008), p. 1409 [21] N.
Miyano, et al: Chemosphere Vol. 72(2008), p. 1409 [37] D.