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Online since: May 2022
Authors: Vincenzo M. Sglavo, Paolo Bosetti, Farid Salari
Experimental Designs, Materials, and Methods
Materials.
Cavallini, Influence of curing temperature on the evolution of magnesium oxychloride cement, Journal of Materials Science. 46 (2011) 6726–6733
Kitchens, Kinetic study of the magnesium oxychloride cement cure reaction., Journal of Materials Science. 52 (2017)
Chmielus, Binder jet 3D printing—process parameters, materials, properties, modeling, and challenges, Progress in Materials Science. 119 (2021) 100707
Litster, Modeling the granule formation mechanism from single drop impact on a powder bed, Journal of Colloid and Interface Science. 393 (2013) 369–376
Cavallini, Influence of curing temperature on the evolution of magnesium oxychloride cement, Journal of Materials Science. 46 (2011) 6726–6733
Kitchens, Kinetic study of the magnesium oxychloride cement cure reaction., Journal of Materials Science. 52 (2017)
Chmielus, Binder jet 3D printing—process parameters, materials, properties, modeling, and challenges, Progress in Materials Science. 119 (2021) 100707
Litster, Modeling the granule formation mechanism from single drop impact on a powder bed, Journal of Colloid and Interface Science. 393 (2013) 369–376
Online since: May 2013
Authors: Yan Zeng Wu, Ze Fu Luo, Shi Ming Cui, Qingyuan Wang
Specimens and experimental methods
The materials used in the present study are rail steel, U71Mn and U75V, which widespread application in track industry.
ACKNOWLEDGEMENT This work was financially supported by Chinese National Science Foundation (No.10925211).
Chen, Fatigue crack growth of bonded composite repairs in gigacycle regime, International Journal of Fatigue, Vol. 28 (2006), P. 1197-1201 [8] Zhi Yong Huang, Danièle Wagner, Qing Yuan Wang, Claude Bathias, Effect of carburizing treatment on the “fish eye” crack growth for a low alloyed chromium steel in very high cycle fatigue, Materials Science and Engineering: A, Vol. 559 (2013), P. 790-797 [9] H.Q.
Bathias, Damage mechanism of a nodular cast iron under the very high cycle fatigue regime, Journal of Materials Processing Technology, Vol. 202 (2008), P. 216-223 [10] Israel Marines-Garcia, Paul C.
Paris, Hiroshi Tada, Claude Bathias, Fatigue crack growth from small to long cracks in very-high-cycle fatigue with surface and internal “fish-eye” failures for ferrite-perlitic low carbon steel SAE 8620, Materials Science and Engineering: A, Vol. 468–470 (2007), P. 120-128 [11] Israel Marines-Garcia, Paul C.
ACKNOWLEDGEMENT This work was financially supported by Chinese National Science Foundation (No.10925211).
Chen, Fatigue crack growth of bonded composite repairs in gigacycle regime, International Journal of Fatigue, Vol. 28 (2006), P. 1197-1201 [8] Zhi Yong Huang, Danièle Wagner, Qing Yuan Wang, Claude Bathias, Effect of carburizing treatment on the “fish eye” crack growth for a low alloyed chromium steel in very high cycle fatigue, Materials Science and Engineering: A, Vol. 559 (2013), P. 790-797 [9] H.Q.
Bathias, Damage mechanism of a nodular cast iron under the very high cycle fatigue regime, Journal of Materials Processing Technology, Vol. 202 (2008), P. 216-223 [10] Israel Marines-Garcia, Paul C.
Paris, Hiroshi Tada, Claude Bathias, Fatigue crack growth from small to long cracks in very-high-cycle fatigue with surface and internal “fish-eye” failures for ferrite-perlitic low carbon steel SAE 8620, Materials Science and Engineering: A, Vol. 468–470 (2007), P. 120-128 [11] Israel Marines-Garcia, Paul C.
Online since: January 2012
Authors: Abu Bakar Sulong, Mohd Ruzi Harun, K.R. Jamaludin, N. Muhamad, Noraiham Mohamad
Khor: Production of Metal Matrix Composite Part by Powder Injection Moulding, Journal of Materials Processing Technology, Vol. 108 (2001), p. 398-407
Katsuyoshi: Magnesium research Trenmd in Japan, Materials Science Forum.
Feedstock and Injection Moulding, International Journal of Refractory Metals & Hard Materials, Vol. 24 (2006), p. 253-262
Khalil: Effect of Powder Loading on Metal Injection Moulding Stainless Steel, Journal of Materials Processing Technology, Vol. 183 (2007), p. 432-439
Journal of Materials Processing Technology, Vol. 137 (2003), p. 132-137
Katsuyoshi: Magnesium research Trenmd in Japan, Materials Science Forum.
Feedstock and Injection Moulding, International Journal of Refractory Metals & Hard Materials, Vol. 24 (2006), p. 253-262
Khalil: Effect of Powder Loading on Metal Injection Moulding Stainless Steel, Journal of Materials Processing Technology, Vol. 183 (2007), p. 432-439
Journal of Materials Processing Technology, Vol. 137 (2003), p. 132-137
Online since: June 2012
Authors: Li Sheng Zhong, Yun Hua Xu, Liang Liang Wang
Experiment
Materials.
Materials Science and Engineering A 527(2010)3898–3903 [2] X.Feng, J.H.Sui, W.Caiand A.L.Liu.
Materials and Design 32(2011)3560–3565 [4] Cheng Fengjun, Wang Yisan.
Materials Science and Engineering A 541(2012)88–97 [6] M.X.Zhang, Q.D.Hu, B.Huang, J.Z.Li, J.G.Li.
Int.Journal of Refractory Metals and Hard Materials 29(2011)356–360 [7] Xinhong W, Zengda Z, Sili S, Shiyao Q.
Materials Science and Engineering A 527(2010)3898–3903 [2] X.Feng, J.H.Sui, W.Caiand A.L.Liu.
Materials and Design 32(2011)3560–3565 [4] Cheng Fengjun, Wang Yisan.
Materials Science and Engineering A 541(2012)88–97 [6] M.X.Zhang, Q.D.Hu, B.Huang, J.Z.Li, J.G.Li.
Int.Journal of Refractory Metals and Hard Materials 29(2011)356–360 [7] Xinhong W, Zengda Z, Sili S, Shiyao Q.
Online since: September 2024
Authors: Chatchai Putson, Ponkrit Itsaradamkoeng
Experimental
Materials and Preparation.
Xu: Journal of Materials Science, vol. 41 (2006), p. 417-421 [5] P.
Kouloumbi: Journal of Materials Science, vol. 33 (1998), p. 2027-2037 [7] L.
Ansari: Journal of Materials Science: Materials in Electronics, vol. 32 (2021), p. 5908-5919 [8] M.
Papet: Materials Chemistry and Physics, vol. 117 (2009), p. 169-172
Xu: Journal of Materials Science, vol. 41 (2006), p. 417-421 [5] P.
Kouloumbi: Journal of Materials Science, vol. 33 (1998), p. 2027-2037 [7] L.
Ansari: Journal of Materials Science: Materials in Electronics, vol. 32 (2021), p. 5908-5919 [8] M.
Papet: Materials Chemistry and Physics, vol. 117 (2009), p. 169-172
Online since: October 2011
Authors: Xiao Yu Zhang, Hui Yan Zhang
Abstract: The marine corrosion of metal materials is a complex chemical process which is affected by multiple factors that are nonlinear interconnected.
Because the available sample data of the marine corrosion of metal materials are both small and high dimensional, it is important to study on a method of data processing and model building to determine a possible critical point in metal material corrosion, and so to take precautions to avoid future loss for materials failure.
For such small sample data as the marine corrosion of metal materials, the information contained is limited.
Firstly, use Grey relational analysis to figure out the main factors in the marine environment that affect the corrosion rate of metal materials, then use the PLS to establish a model for the corrosion rate and depth of metal materials.
Journal of University of Electronic Science and Technology of China, 2011, 40(1):2-10
Because the available sample data of the marine corrosion of metal materials are both small and high dimensional, it is important to study on a method of data processing and model building to determine a possible critical point in metal material corrosion, and so to take precautions to avoid future loss for materials failure.
For such small sample data as the marine corrosion of metal materials, the information contained is limited.
Firstly, use Grey relational analysis to figure out the main factors in the marine environment that affect the corrosion rate of metal materials, then use the PLS to establish a model for the corrosion rate and depth of metal materials.
Journal of University of Electronic Science and Technology of China, 2011, 40(1):2-10
Online since: March 2006
Authors: Chyan Bin Hwu
Because of its importance a lot of analytical, numerical and experimental studies have been published
in journals and books.
The material eigenvalues and eigenvectors are determined from the material properties of the composite laminates through the following standard eigenvalue relation ξξξξξξξξ µ=N , (9a) where N is a 8×8 real matrix and ξξξξ is a 8×1 column vector defined by
The author would like to thank the National Science Council, Taiwan, R.O.C.
Ting: Anisotropic Elasticity - Theory and Applications (Oxford Science Publications, New York 1996)
Hwu: Journal of Applied Mechanics, accepted for publication
The material eigenvalues and eigenvectors are determined from the material properties of the composite laminates through the following standard eigenvalue relation ξξξξξξξξ µ=N , (9a) where N is a 8×8 real matrix and ξξξξ is a 8×1 column vector defined by
The author would like to thank the National Science Council, Taiwan, R.O.C.
Ting: Anisotropic Elasticity - Theory and Applications (Oxford Science Publications, New York 1996)
Hwu: Journal of Applied Mechanics, accepted for publication
Online since: October 2010
Authors: Xiu Mei Wang, Ju Zheng Wang, Xiao Jin Zhu
Piezoelectric materials are finding increasing applications in active vibration control of flexible structures.
The elastic coefficient matrix [D] is shown as Piezoelectric coefficient matrix [e] is shown as below Dielectric constant is diagonal matrix: Piezoelectric materials are used more and more widely in many fields for its special property connecting the electric effects and mechanical deformation.
Conclusions This paper is concerned with the application of piezoelectric materials in active vibration control of flexible structures using intelligent control method.
Journal Of Vibration And Shock, Vol.27 (2008), p.91 [2] Levent Malgaca.
Journal of Computers, Vol.5 (2010), p. 401 [4] Ren Jian-ting Yan Yun-ju Jiang Jie-sheng.
The elastic coefficient matrix [D] is shown as Piezoelectric coefficient matrix [e] is shown as below Dielectric constant is diagonal matrix: Piezoelectric materials are used more and more widely in many fields for its special property connecting the electric effects and mechanical deformation.
Conclusions This paper is concerned with the application of piezoelectric materials in active vibration control of flexible structures using intelligent control method.
Journal Of Vibration And Shock, Vol.27 (2008), p.91 [2] Levent Malgaca.
Journal of Computers, Vol.5 (2010), p. 401 [4] Ren Jian-ting Yan Yun-ju Jiang Jie-sheng.
Online since: September 2013
Authors: Jian Wang, Feng Zhen Yang, Hua Yuan, Wei Liu, Mei Xu
Materials and methods
Apparatus and materials
Apparatus. 32 organic chemistry instrument (TianJin), GC122 gas chromatograph (ShangHai), WTA-2W abbe refractometer (ShangHai), FTIR-8400S fourier transform infrared spectroscope (Shimadzu Corporation)
Materials.
Journal of Molecular Catalysis A: Chemical. 2004, 214(2): 281-286
Chinese Journal of Catalysis. 1993,14(2):147-149(In Chinese) [8] L.
Natural Science Journal of Harbin Normal University, 2003,16(5):58-61(In Chinese) [13] Jun Hong, Xingdong Wang.
Natural Science Journal of Harbin Normal University, 2007, (3):68-70(In Chinese) [14] Shili Yang, Fumin Wang, Fayou Tang.
Journal of Molecular Catalysis A: Chemical. 2004, 214(2): 281-286
Chinese Journal of Catalysis. 1993,14(2):147-149(In Chinese) [8] L.
Natural Science Journal of Harbin Normal University, 2003,16(5):58-61(In Chinese) [13] Jun Hong, Xingdong Wang.
Natural Science Journal of Harbin Normal University, 2007, (3):68-70(In Chinese) [14] Shili Yang, Fumin Wang, Fayou Tang.
Online since: May 2020
Authors: Kuwat Triyana, Chotimah Chotimah, Ahmad Kusumaatmaja, Wahyuna Nur
Nanofibers are thin and long fibers [2], with the diameter from tens to hundreds of nanometer [3].Nanofibers have excellent properties, such as the high surface area to volume ratio and their ease in production process compared with other nanostructured materials [3].
Materials.
References [1] Yoon, K., Hsiao, B.S. & Chu, B.: Journal of Membrane Science 338 (2009), 145
[5] Chen, W., Su, Y., Zheng, L., Wang, L. & Jiang, Z.,: Journal of Membran Science 337 (2009), 98
[8] Latthe, S.S., Gurav, A.B., Maruti, C.S. & Vhatkar, R.S.: Journal of Surface Engineered Materials and Advanced Technology 2 (2012) 76
Materials.
References [1] Yoon, K., Hsiao, B.S. & Chu, B.: Journal of Membrane Science 338 (2009), 145
[5] Chen, W., Su, Y., Zheng, L., Wang, L. & Jiang, Z.,: Journal of Membran Science 337 (2009), 98
[8] Latthe, S.S., Gurav, A.B., Maruti, C.S. & Vhatkar, R.S.: Journal of Surface Engineered Materials and Advanced Technology 2 (2012) 76