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Online since: January 2012
Authors: Yuan Tian
Segmentation of Bladder and Prostate Cancer with Biological Materials Based on Center-Focus Active Shape Model
Yuan Tian
School of Engineering, University of Edinburgh, Edinburgh, United Kingdom
E-mail: yuantian.science@gmail.com
Key Words: active shape model, center-focus, segmentation,biological materials
Abstract.
International Journal of Cancer . pp. 2893-2917(2010) [2] L.
International Journal of Cancer . pp. 2893-2917(2010) [2] L.
Online since: July 2014
Authors: Ling Ji
Materials Science and Engineering: R: Reports, 2005, 50(1): 1-78
Journal of materials engineering and performance, 2013, 22(6): 1558-1564
Metallurgical and Materials Transactions A, 2013: 1-10
Materials & Design, 2011, 32(2): 535-549
Journal of Lanzhou University o f Technology,2010,1- 4.
Journal of materials engineering and performance, 2013, 22(6): 1558-1564
Metallurgical and Materials Transactions A, 2013: 1-10
Materials & Design, 2011, 32(2): 535-549
Journal of Lanzhou University o f Technology,2010,1- 4.
Online since: August 2012
Authors: Guerold Sergueevitch Bobrovinitchii, Ana Lúcia Diegues Skury, Shirlene Chagas, Sérgio Neves Monteiro
The effects of starting materials and the parameters of sintering process on the mechanical properties of the final product were investigated.
References [1] Shaojie, L., Yi M., Zhengguang Z., Yufang S., Advanced Materials Research, 150, p.1191, 2011 [2] Rong, X.Z., Yano, T., Journal Materials Scienc, 39 (1), p.4705, 2004 [3] Singhal, S.K., Singh, B.P., Indian Journal of Eng.
Sciences. 12, p. 325, 2005 [4] Yucheng Zhao, Mingzhi Wang.
Journal Of Materials Processing Technology. 209,(2009). p.355 [5] Bobrovinitchii, G.S, Skury, A.L.D., Monteiro, S.N., Materials Science Forum. 660-661, p. 837, 2010 [6] Yi zhong Zu , Jing-you TANG, Cui-xia TANG.
Journal Of University Of Science And Technology Beijing. 31,(2009), p.215-219.
References [1] Shaojie, L., Yi M., Zhengguang Z., Yufang S., Advanced Materials Research, 150, p.1191, 2011 [2] Rong, X.Z., Yano, T., Journal Materials Scienc, 39 (1), p.4705, 2004 [3] Singhal, S.K., Singh, B.P., Indian Journal of Eng.
Sciences. 12, p. 325, 2005 [4] Yucheng Zhao, Mingzhi Wang.
Journal Of Materials Processing Technology. 209,(2009). p.355 [5] Bobrovinitchii, G.S, Skury, A.L.D., Monteiro, S.N., Materials Science Forum. 660-661, p. 837, 2010 [6] Yi zhong Zu , Jing-you TANG, Cui-xia TANG.
Journal Of University Of Science And Technology Beijing. 31,(2009), p.215-219.
Online since: August 2018
Authors: M.H. Aliabadi, Pi Hua Wen, L. Li
When the integration point locates in matrix part, the local stiffness matrix C for isotropic materials is applied:
Cm=C11C12C12C12C11C12C12C12C110 0 00 0 00 0 00 0 00 0 00 0 0C44000C44000C44 (4)
Where C44=C11-C122
Considering that the composite yarns are transversely isotropic with axis of transverse isotropy along the corresponding yarn axis.
, Journal of Multiscale Modelling 1 (02), 263-301, 2009
[8] D Abe, et al, Micromechanical modeling for the evaluation of elastic moduli of woven composites, Key Engineering Materials 525, 73-76, 2013
[9] O Bacarreza, P Wen, MH Aliabadi Woven, Micromechanical modelling of textile composites Composites, 1-74, 2015 [10] L Li, F, et al Micromechanical Continuum Damage Analysis of Plain Woven Composites Journal of Multiscale Modelling 6 (03), 1550009, 2015 [11] PH Wen, et al Meshless method for crack analysis in functionally graded materials with enriched radial base functions, CMES: Computer Modeling in Eng & Sci 30 (3), 133-147, 2008 [12] J Sladek, et al , Analysis of orthotropic thick plates by meshless local Petrov–Galerkin (MLPG) method, Int journal for numerical methods in engineering 67 (13), 1830-1850, 2006
[14] J Sladek, et al, Meshless local Petrov-Galerkin (MLPG) method for shear deformable shells analysis, Computer Modeling in Engineering and Sciences 13 (2), 103, 2006 [15] G Geraci, MH Aliabadi, Micromechanical boundary element modelling of transgranular and intergranular cohesive cracking in polycrystalline materials, Eng Fracture Mech 176, 351-374, 2017 [16] I Benedetti, MH Aliabadi, Multiscale modeling of polycrystalline materials: A boundary element approach to material degradation and fracture, Computer Methods in Applied Mechanics and Engineering 289, 429-453, 2015
, Journal of Multiscale Modelling 1 (02), 263-301, 2009
[8] D Abe, et al, Micromechanical modeling for the evaluation of elastic moduli of woven composites, Key Engineering Materials 525, 73-76, 2013
[9] O Bacarreza, P Wen, MH Aliabadi Woven, Micromechanical modelling of textile composites Composites, 1-74, 2015 [10] L Li, F, et al Micromechanical Continuum Damage Analysis of Plain Woven Composites Journal of Multiscale Modelling 6 (03), 1550009, 2015 [11] PH Wen, et al Meshless method for crack analysis in functionally graded materials with enriched radial base functions, CMES: Computer Modeling in Eng & Sci 30 (3), 133-147, 2008 [12] J Sladek, et al , Analysis of orthotropic thick plates by meshless local Petrov–Galerkin (MLPG) method, Int journal for numerical methods in engineering 67 (13), 1830-1850, 2006
[14] J Sladek, et al, Meshless local Petrov-Galerkin (MLPG) method for shear deformable shells analysis, Computer Modeling in Engineering and Sciences 13 (2), 103, 2006 [15] G Geraci, MH Aliabadi, Micromechanical boundary element modelling of transgranular and intergranular cohesive cracking in polycrystalline materials, Eng Fracture Mech 176, 351-374, 2017 [16] I Benedetti, MH Aliabadi, Multiscale modeling of polycrystalline materials: A boundary element approach to material degradation and fracture, Computer Methods in Applied Mechanics and Engineering 289, 429-453, 2015
Online since: August 2013
Authors: Steve W.M. Supit, Faiz U.A. Shaikh, Prabir K. Sarker
Introduction
Concrete is one of the most widely used construction materials in the world.
International Journal of Earth Sciences and Engineering.
ACI Material Journal, 100-M49
Journal of Materials in Civil Engineering, DOI:10.1061/(ASCE)0899-1561(2005)17:1(45)
Engineering science and technology: An International Journal (ESTIJ),2, 1.
International Journal of Earth Sciences and Engineering.
ACI Material Journal, 100-M49
Journal of Materials in Civil Engineering, DOI:10.1061/(ASCE)0899-1561(2005)17:1(45)
Engineering science and technology: An International Journal (ESTIJ),2, 1.
Online since: October 2014
Authors: V.S. Srinivasan, S. Rajendra Boopathy, B. Vijaya Ramnath
The present technological development makes us to find and fabricate new materials to replace existing materials.
Also, the need for environmental friendly, easily biodegradable material plays prime role in determining the raw materials.
[2] Shinji Ochi, Mechanical properties of Kenaffibres and Kenaf/PLA composites, Mechanics of Materials, 40, (2008), 446–452
Sanuddin, The effect of processing parameters on the mechanical properties of Kenaffibre plastic composite, Materials and Design, 32, (2011), 1039–1043
Advanced Materials Research. 718-720 (2013) 63-68.
Also, the need for environmental friendly, easily biodegradable material plays prime role in determining the raw materials.
[2] Shinji Ochi, Mechanical properties of Kenaffibres and Kenaf/PLA composites, Mechanics of Materials, 40, (2008), 446–452
Sanuddin, The effect of processing parameters on the mechanical properties of Kenaffibre plastic composite, Materials and Design, 32, (2011), 1039–1043
Advanced Materials Research. 718-720 (2013) 63-68.
Online since: June 2006
Authors: Xiao Ping Zhang, Yiu Wing Mai, Yao Wu Shi, C.S.H. Lim
Shi
3
1
Institute of Materials Science and Technology, School of Mechanical Engineering, South China
University of Technology, Guangzhou 510640, China
2
CAMT, School of Aerospace, Mechanical and Mechatronic Engineering (AMME), the University of
Sydney, NSW 2006, Australia
3
School of Materials Science and Engineering, Beijing Polytechnic University, China
a mexzhang@scut.edu.cn or xzhang@aeromech.usyd.edu.au
Keywords: Thermal fatigue, Creep resistance, Nano-composite solder, Tin-lead solder, Fracture.
YW Mai at the Centre for Advanced Materials Technology, School of AMME, the University of Sydney, in the thematic areas of "Deformation and Toughening Mechanics and Mechanisms of Nano-scale Materials".
Plumbridge: Journal of Materials Science Vol. 31 (1996), p. 2501
Xia: Journal of Electronic Materials Vol.31 (2002), p.1122
Shi: Journal of Materials Science: Materials in Electronics Vol.15 (2004), p. 511
YW Mai at the Centre for Advanced Materials Technology, School of AMME, the University of Sydney, in the thematic areas of "Deformation and Toughening Mechanics and Mechanisms of Nano-scale Materials".
Plumbridge: Journal of Materials Science Vol. 31 (1996), p. 2501
Xia: Journal of Electronic Materials Vol.31 (2002), p.1122
Shi: Journal of Materials Science: Materials in Electronics Vol.15 (2004), p. 511
Online since: October 2010
Authors: Stefano P. Trasatti, Maurizio Vedani, Dario Gastaldi, Valentina Sassi, Lorenza Petrini, Francesco Migliavacca
Magnesium and its alloys seem to be among the most appealing materials
to design biodegradable stents.
Among the solutions proposed to overcome this drawback, the adoption of degradable materials coupled with new shapes of the device seems to be very promising.
[2] Hanawa T., 2009, Materials for metallic stents, Journal of Artificial Organs, 12(2), 73-79
Corrosion Science 49, 319-346
Journal of the Minerals, Metals and Materials Society 59, 49-53
Among the solutions proposed to overcome this drawback, the adoption of degradable materials coupled with new shapes of the device seems to be very promising.
[2] Hanawa T., 2009, Materials for metallic stents, Journal of Artificial Organs, 12(2), 73-79
Corrosion Science 49, 319-346
Journal of the Minerals, Metals and Materials Society 59, 49-53
Online since: July 2013
Authors: Wen Yan Shan, Guang Wei Zhu, De Dong Hu
Shan1, 2, c
1College of Electromechanical Engineering Qingdao University of Science and Technology, Qingdao, 266061, China
2Shandong Provincial Key Laboratory of Polymer Material Advanced Manufacturing Technology, Qingdao University of Science & Technology
ahudedong@126.com, bxiaoxiaosmart@163.com, cshanwenyan@163.com
Keywords: Rotating packed bed; Gas pressure drop; Count-flow; Cross-flow; Correlation
Abstract.
Rotating packed bed is a new high efficient equipment for multiphase flow transference, it has been widely used in chemical separation and preparation of nano-materials.
Introduction Rotating packed bed (Abbreviation for RPB) is a new high efficient equipment for multiphase flow transference, it has been widely used in chemical separations and preparations of nano-materials.
Chemical Engineering Science. 56 (2001), p. 587 [8] H.W.
Science & Technology in Chemical Industry. 12(2004), p. 12 [18] W.Z.
Rotating packed bed is a new high efficient equipment for multiphase flow transference, it has been widely used in chemical separation and preparation of nano-materials.
Introduction Rotating packed bed (Abbreviation for RPB) is a new high efficient equipment for multiphase flow transference, it has been widely used in chemical separations and preparations of nano-materials.
Chemical Engineering Science. 56 (2001), p. 587 [8] H.W.
Science & Technology in Chemical Industry. 12(2004), p. 12 [18] W.Z.
Online since: August 2018
Authors: Marvin U. Herrera, James Christian M. Dizon, Ivy R. Colambo, Alvin Karlo Garcia Tapia
Such stable configurations could be established by forming covalent bonds between the inorganic and organic materials.
Herrera, Embedding of polyaniline molecules on adhesive tape using successive ionic layer adsorption and reaction (SILAR) technique, Materials Science and Engineering Conference Series. 201 (2017) 012041
Materials Chemistry and Physics. 99 (2006) 382-387 [11] Haq, A N U, et al.
Journal of Nanomaterials. 14 (2017)
Material Science in Semiconductor Processing. 69 (2017) 44-51 [13] Jassim A N. et al.
Herrera, Embedding of polyaniline molecules on adhesive tape using successive ionic layer adsorption and reaction (SILAR) technique, Materials Science and Engineering Conference Series. 201 (2017) 012041
Materials Chemistry and Physics. 99 (2006) 382-387 [11] Haq, A N U, et al.
Journal of Nanomaterials. 14 (2017)
Material Science in Semiconductor Processing. 69 (2017) 44-51 [13] Jassim A N. et al.