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Online since: October 2011
Authors: Pavan Kumar Gurrala, Srinivasa Prakash Regalla
Ahn, “Measurement of anisotropic compressive strength of RP parts”, Journal of Materials Processing Technology, vol. 187-188 (1), 2007, pp. 627-630
Radhakrishnan, “Critical parameters influencing the quality of prototypes in fused deposition modeling”, Journal of Materials Processing Technology, vol. 118 (1), 2001, pp. 385-388
Khan, “Optimization of rapid prototyping parameters for production of flexible ABS objects”, Journal of Materials Processing Technology, vol. 169, 2005, pp.54-69
Mahapatra, “Improving dimensional accuracy of FDM processed parts using gray Taguchi method”, Materials and Design, vol. 30, 2009, pp.4243-4252
Mahapatra, “Parametric appraisal of mechanical property of FDM processed parts”, Materials and Design, Vol. 31(1), 2010, pp.287-295
Radhakrishnan, “Critical parameters influencing the quality of prototypes in fused deposition modeling”, Journal of Materials Processing Technology, vol. 118 (1), 2001, pp. 385-388
Khan, “Optimization of rapid prototyping parameters for production of flexible ABS objects”, Journal of Materials Processing Technology, vol. 169, 2005, pp.54-69
Mahapatra, “Improving dimensional accuracy of FDM processed parts using gray Taguchi method”, Materials and Design, vol. 30, 2009, pp.4243-4252
Mahapatra, “Parametric appraisal of mechanical property of FDM processed parts”, Materials and Design, Vol. 31(1), 2010, pp.287-295
Online since: September 2013
Authors: H.Y. Li, X. C. Li, J. H. Li, J. I. Ma, Y. J. Zhang
But for non uniform materials, such as trip steel, the microstructure changed greatly during deformation and microstructure development influence the macro behavior of the materials, micro materials behavior should be considered during the simulation[9-10].
As a kind of metallic materials, TRIP steel is dissipative materials, so internal variables were needed to describe the plastic behavior.
Materials Science & Engineering A, 2013, Vol.569: 137-143 [3].Yu Hai Yan, Gao Yun Kai, Meng De Jian, Transformation behavior of retained austenite under different deformation modes for low alloyed TRIP-assisted steels[J].
Materials Science and Engineering A, 2006, vol.441:331-335 [4].Akhtar S.
Computational aspects of the mechanics of complex materials[J].
As a kind of metallic materials, TRIP steel is dissipative materials, so internal variables were needed to describe the plastic behavior.
Materials Science & Engineering A, 2013, Vol.569: 137-143 [3].Yu Hai Yan, Gao Yun Kai, Meng De Jian, Transformation behavior of retained austenite under different deformation modes for low alloyed TRIP-assisted steels[J].
Materials Science and Engineering A, 2006, vol.441:331-335 [4].Akhtar S.
Computational aspects of the mechanics of complex materials[J].
Online since: January 2009
Authors: Juan Qin Xue, Yu Jie Wang, Kong Fen Wang, Zhou Zhou
Experimental
1.1 Experimental Materials.
Results and Discussions 2.1 Influence of Different Fiber Membrane Materials on Dynamic Contact Angle.
Fig. 2 shows the change of dynamic contact angle of different fiber membrane materials on the number of cycles.
Gao: Journal of East China University of Science and Technology, Vol.2 (1997), p.30 [13] M.
Wang: Journal of Membrane Science and Technology (China), Vol.2 (2007), p.45 [18] J.
Results and Discussions 2.1 Influence of Different Fiber Membrane Materials on Dynamic Contact Angle.
Fig. 2 shows the change of dynamic contact angle of different fiber membrane materials on the number of cycles.
Gao: Journal of East China University of Science and Technology, Vol.2 (1997), p.30 [13] M.
Wang: Journal of Membrane Science and Technology (China), Vol.2 (2007), p.45 [18] J.
Online since: August 2023
Authors: Alexey Vasilchenko, Yuriy Dreval, Yurii Skob, Roman Maiboroda
Starova, Experimental and Computer Researches of Ferroconcrete Beams at High-Temperature Influences, Materials Science Forum, 968 (2019)
355–360
Vasiukov, Concrete and Fiber Concrete Impact Strength, Materials Science Forum, 1006 (2020) 101–106
Series: Materials Science and Engineering, 1164 (2021) 012083
Materials Science Forum, 1006 (2020) 117–122
Artemiev, Numerical Evaluation of Safety Wall Bending Strength during Hydrogen Explosion, Materials Science Forum, 1038 (2021) 430–436.
Vasiukov, Concrete and Fiber Concrete Impact Strength, Materials Science Forum, 1006 (2020) 101–106
Series: Materials Science and Engineering, 1164 (2021) 012083
Materials Science Forum, 1006 (2020) 117–122
Artemiev, Numerical Evaluation of Safety Wall Bending Strength during Hydrogen Explosion, Materials Science Forum, 1038 (2021) 430–436.
Online since: July 2011
Authors: Sheng Dun Zhao, Jun Hang Guo, Riichi Murakami
The tensile tests of sheet metal of two different materials, 08 boiling steel and 1Cr18Ni9Ti, are taken under 3 directions.
Solids.49 (2001) 1727–1746 [4] Gilles Rousselier: Handbook of Materials Behavior Models. 2001, 436-445 [5] E.
Kushwaha: Materials Science and Engineering.
Michel-Ponnelle: Computational Materials Science. 45 (2009) 762–767 [9] M.K.
Roos: International Journal of Mechanical Sciences. 51 (2009) 619–630 [10] Mediavilla, J., Peerlings, R.H.J., Geers, M.D.G.: Comput.
Solids.49 (2001) 1727–1746 [4] Gilles Rousselier: Handbook of Materials Behavior Models. 2001, 436-445 [5] E.
Kushwaha: Materials Science and Engineering.
Michel-Ponnelle: Computational Materials Science. 45 (2009) 762–767 [9] M.K.
Roos: International Journal of Mechanical Sciences. 51 (2009) 619–630 [10] Mediavilla, J., Peerlings, R.H.J., Geers, M.D.G.: Comput.
Online since: September 2013
Authors: Li Jun Jia, Yang Jiang
Even since the 1940s, FRP material has been widely used in many fields, such as aeronautical engineering, ship industry, auto industry, chemical engineering, medical science, mechanical engineering and so on.
FRP bar is a kind of composite materials mixed with fiber and base material.
China Civil Engineering Journal. 2006, 39(3):24-36
Advanced Materials Research. 2011,Vols.255-260:1115-1119
Advanced Materials Research. 2012,Vols.568:57-60
FRP bar is a kind of composite materials mixed with fiber and base material.
China Civil Engineering Journal. 2006, 39(3):24-36
Advanced Materials Research. 2011,Vols.255-260:1115-1119
Advanced Materials Research. 2012,Vols.568:57-60
Online since: September 2021
Authors: Onuchukwu Godwin Chike, Norhayati Binti Ahmad, Uday M. Basheer Al-Naib
Bandyopadhyay, "Additive manufacturing of biomaterials," Progress in Materials Science, vol. 93, pp. 45-111, 2018. https://doi.org/10.1016/j.pmatsci.2017.08.003
[41] X.
Lupoi, "Solid-state additive manufacturing and repairing by cold spraying: A review," Journal of materials science & technology, vol. 34, no. 3, pp. 440-457, 2018. https://doi.org/10.1016/j.jmst.2017.09.015 [46] T.
Hague, "3D printing of Aluminium alloys: Additive Manufacturing of Aluminium alloys using selective laser melting," Progress in Materials Science, vol. 106, 2019. https://doi.org/10.1016/j.pmatsci.2019.100578 [60] Y.
Fraser, "Direct laser deposition of in situ Ti–6Al–4V–TiB composites," Materials Science and Engineering: A, vol. 358, no. 1-2, pp. 343-349, 2003. https://doi.org/10.1016/S0921-5093(03)00299-5 [65] D.
Hague, "3D printing of Aluminium alloys: Additive Manufacturing of Aluminium alloys using selective laser melting," Progress in Materials Science, vol. 106, p. 100578, 2019. https://doi.org/10.1016/j.pmatsci.2019.100578 [72] M.
Lupoi, "Solid-state additive manufacturing and repairing by cold spraying: A review," Journal of materials science & technology, vol. 34, no. 3, pp. 440-457, 2018. https://doi.org/10.1016/j.jmst.2017.09.015 [46] T.
Hague, "3D printing of Aluminium alloys: Additive Manufacturing of Aluminium alloys using selective laser melting," Progress in Materials Science, vol. 106, 2019. https://doi.org/10.1016/j.pmatsci.2019.100578 [60] Y.
Fraser, "Direct laser deposition of in situ Ti–6Al–4V–TiB composites," Materials Science and Engineering: A, vol. 358, no. 1-2, pp. 343-349, 2003. https://doi.org/10.1016/S0921-5093(03)00299-5 [65] D.
Hague, "3D printing of Aluminium alloys: Additive Manufacturing of Aluminium alloys using selective laser melting," Progress in Materials Science, vol. 106, p. 100578, 2019. https://doi.org/10.1016/j.pmatsci.2019.100578 [72] M.
Online since: October 2015
Authors: Alena Fedoročková, Pavel Raschman, Gabriel Sučik
Recently, the disadvantages of one reactive material have been eliminated by a combination of several materials.
Materials and Methods CCM is a reactive material characterized by lower crystallinity of MgO.
Physico-chemical properties of reactive materials are summarized in Table 1.
Physico-chemical properties of the reactive materials.
Anousis, Thorium and uranium uptake by natural zeolite materials, Science of Total Environment Journal 173/174 (1995) 237-246
Materials and Methods CCM is a reactive material characterized by lower crystallinity of MgO.
Physico-chemical properties of reactive materials are summarized in Table 1.
Physico-chemical properties of the reactive materials.
Anousis, Thorium and uranium uptake by natural zeolite materials, Science of Total Environment Journal 173/174 (1995) 237-246
Online since: August 2014
Authors: Xiu Teng Wang, Ling Xu, Ling Lin, Dong Feng Gao, Jin Huang, Pu Xiao, Bo Wang, Jian Song Zhang, Zuo Tai Zhang
SiAlON ceramics are one kind of the commercially produced high-tech ceramic materials due to their excellent physical properties.
When SiAlONs are used as refractory materials, they will possibly be oxidized by oxygen at high temperature under air atmosphere.
Experimental results demonstrate that this test method is easy to operate and reasonable to reflect the oxidation resistance of the materials exactly.
ZHOU: Journal of the Chinese Ceramic Society, Vol. 6 (2007), p. 778-781
LI: Journal of Inorganic Materials, Vol. 1 (2003), p. 83-90 [8] X.T.
When SiAlONs are used as refractory materials, they will possibly be oxidized by oxygen at high temperature under air atmosphere.
Experimental results demonstrate that this test method is easy to operate and reasonable to reflect the oxidation resistance of the materials exactly.
ZHOU: Journal of the Chinese Ceramic Society, Vol. 6 (2007), p. 778-781
LI: Journal of Inorganic Materials, Vol. 1 (2003), p. 83-90 [8] X.T.
Online since: July 2011
Authors: Zi Ming Zhao, Cui Hua Li, Hua Shi, Quan Zou
Material Classification Using Random Forest
Ziming Zhao, Cuihua Li, Hua Shi, Quan Zou
School of Information Science and Technology Xiamen University
Xiamen 361005, Fujian, P.R.China
mailto:newplan1010@gmail.com
Keywords:texture classification; image patch; filter banks; random forest
Abstract.
This paper proposes an approach to classify materials, which combines random forest with MR8 filter bank.
J, “Representing and recognizing the visual appearance of materials using three-dimensional textons”, International Journal of Computer Vision, vol. 43(1), pp. 29-44, 2001
“Random forests”, Machine Learning Journal, 45(1):5-32, 2001
Wehenkel, “Extremely randomized trees”, Machine Learning Journal, 36(1), 3-42, 2006
This paper proposes an approach to classify materials, which combines random forest with MR8 filter bank.
J, “Representing and recognizing the visual appearance of materials using three-dimensional textons”, International Journal of Computer Vision, vol. 43(1), pp. 29-44, 2001
“Random forests”, Machine Learning Journal, 45(1):5-32, 2001
Wehenkel, “Extremely randomized trees”, Machine Learning Journal, 36(1), 3-42, 2006