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Online since: September 2024
Authors: Samitthichai Seeyangnok, Siriporn Pranee, Chanikan Sonklin, Cherdchai Laongtiparos, Nisalak Trongsiriwat, Aoraya Wongcharu
Materials and Methods
Plant Material.
Indian Journal of Pharmaceutical Sciences, 2018. 80(5)
Paper presented at the Materials Science Forum, 2020. 990 : p.86-90
Journal of Dispersion Science and Technology, 2023 : p.1-9
Paper presented at the Materials Science Forum, 2020. 990 : p.111-116.
Indian Journal of Pharmaceutical Sciences, 2018. 80(5)
Paper presented at the Materials Science Forum, 2020. 990 : p.86-90
Journal of Dispersion Science and Technology, 2023 : p.1-9
Paper presented at the Materials Science Forum, 2020. 990 : p.111-116.
Online since: October 2010
Authors: Yong Zeng, Jun Gong
For the material deposition rate model on conical surfaces can be expressed approximately by the
material deposition rate model on a plane.
References [1] Z.B.Wang, D.A.Zhao and Y.Wang: Journal of Jiangsu University of Science and Technology:Natural Science, Vol. 21, (2000) No.5, pp.78-82.
[2] Y.Wang, D.A.Zhao and Z.B.Wang: Journal of Jiangsu University of Science and Technology: Natural Science, Vol. 22, (2001) No.5, pp.55-59.
[3] J.K.Antonio, R.Ramabhadran and T.L.Ling: International Journal of Robotics and Automation, Vol. 12, (1997) No.4, pp.124-134
[7] F.Z.Li, D.A.Zhao and W.Ji: Journal of Jiangsu University of Science and Technology(Natural Science Edition), Vol. 22, (2008) No.4, pp.64-67.
References [1] Z.B.Wang, D.A.Zhao and Y.Wang: Journal of Jiangsu University of Science and Technology:Natural Science, Vol. 21, (2000) No.5, pp.78-82.
[2] Y.Wang, D.A.Zhao and Z.B.Wang: Journal of Jiangsu University of Science and Technology: Natural Science, Vol. 22, (2001) No.5, pp.55-59.
[3] J.K.Antonio, R.Ramabhadran and T.L.Ling: International Journal of Robotics and Automation, Vol. 12, (1997) No.4, pp.124-134
[7] F.Z.Li, D.A.Zhao and W.Ji: Journal of Jiangsu University of Science and Technology(Natural Science Edition), Vol. 22, (2008) No.4, pp.64-67.
Online since: May 2015
Authors: Xiang Shen, Yang Yang Sun, Bo Bo Wu
Materials and Methods
Geometry model.
Acknowledgements This project is supported by National Natural Science Foundation of China (51305171), Natural Science Foundation of Jiangsu Province (BK20130525), Natural Science Foundation of the Higher Education Institutions of Jiangsu Province (13KJB460006) and Foundation of Jiangsu University (10JDG123, 13A608).
Wang, Design optimization of coronary stent based on finite element models, The Scientific World Journal 2013 (2013) 630243
Mancini, Normal angiographic tapering of the coronary arteries, Canadian Journal of Cardiology 18 (2002) 973-980
Han, Effects of geometric variations of the buckling of arteries, International Journal of Applied Mechanics 3 (2011) 385-406
Acknowledgements This project is supported by National Natural Science Foundation of China (51305171), Natural Science Foundation of Jiangsu Province (BK20130525), Natural Science Foundation of the Higher Education Institutions of Jiangsu Province (13KJB460006) and Foundation of Jiangsu University (10JDG123, 13A608).
Wang, Design optimization of coronary stent based on finite element models, The Scientific World Journal 2013 (2013) 630243
Mancini, Normal angiographic tapering of the coronary arteries, Canadian Journal of Cardiology 18 (2002) 973-980
Han, Effects of geometric variations of the buckling of arteries, International Journal of Applied Mechanics 3 (2011) 385-406
Online since: August 2014
Authors: Gui Fang Liu, Yuan Gao, Ya Quan Sun, Yu Ping Zhang, Hong Mei Yan
Materials and methods
Materials.
Journal of Beijing Technology and Business University (Natural Science Edition),2009, 27(1): 11-14.
Environmental Science & Technology, 2003, 37(20): 4790-4797
Chemical Engineering Journal, 2011, 167: 172-182
New Journal of Chemistry, 1998, 22(3): 263-268.
Journal of Beijing Technology and Business University (Natural Science Edition),2009, 27(1): 11-14.
Environmental Science & Technology, 2003, 37(20): 4790-4797
Chemical Engineering Journal, 2011, 167: 172-182
New Journal of Chemistry, 1998, 22(3): 263-268.
Online since: February 2012
Authors: Adrien Charmetant, Philippe Boisse, Emmanuelle Vidal-Sallé
It must satisfy the principle of material symmetry, i.e. the strain energy must be invariant under any transformation belonging to the symmetry group of the material.
Woven fabric permeability: from textile deformation to fluid flow mesoscale simulations, Composites Science and Technology, 68: 1624–1630
A Hyperelastic Approach for Composite Reinforcement Large Deformation Analysis, Journal of Composite Materials, 44: 5–26
Physically based strain invariant set for materials exhibiting transversely isotropic behaviour, Journal of the Mechanics and Physics of Solids, 49: 871–897
Experimental and numerical analysis on normalization of picture frame tests for composite materials, Composites Science and Technology, 64:11–21.
Woven fabric permeability: from textile deformation to fluid flow mesoscale simulations, Composites Science and Technology, 68: 1624–1630
A Hyperelastic Approach for Composite Reinforcement Large Deformation Analysis, Journal of Composite Materials, 44: 5–26
Physically based strain invariant set for materials exhibiting transversely isotropic behaviour, Journal of the Mechanics and Physics of Solids, 49: 871–897
Experimental and numerical analysis on normalization of picture frame tests for composite materials, Composites Science and Technology, 64:11–21.
Online since: March 2008
Authors: Yoshiaki Akiniwa, Takahisa Shobu, Keisuke Matsumoto, Tsuyoshi Yagi, Masataka Yamamoto
Experimental Method
Materials and specimen.
The materials used were SUS 304 (AISI 304) and SUS 301L (AISI 301L) austenitic stainless steel.
The Poisson ratio of all materials was set at 0.3.
[8] T.Shobu, J.Mizuki, K.Suzuki, H.Suzuki, Y.Akiniwa and K.Tanaka, "Application of strain scanning method to stress measurement of austenitic stainless steel", Journal of the Society of Materials Science, Japan, Vol.55, No.7, pp647-653 (2006)
[10] T.Shobu, J.Mizuki, K.Suzuki, Y.Akiniwa and K.Tanaka, "Correction of surface aberration in strain scanning method with analyzer", Journal of the Society of Materials Science, Japan, Vol.55, No.1, pp101-109 (2006)
The materials used were SUS 304 (AISI 304) and SUS 301L (AISI 301L) austenitic stainless steel.
The Poisson ratio of all materials was set at 0.3.
[8] T.Shobu, J.Mizuki, K.Suzuki, H.Suzuki, Y.Akiniwa and K.Tanaka, "Application of strain scanning method to stress measurement of austenitic stainless steel", Journal of the Society of Materials Science, Japan, Vol.55, No.7, pp647-653 (2006)
[10] T.Shobu, J.Mizuki, K.Suzuki, Y.Akiniwa and K.Tanaka, "Correction of surface aberration in strain scanning method with analyzer", Journal of the Society of Materials Science, Japan, Vol.55, No.1, pp101-109 (2006)
Online since: June 2011
Authors: F. L. Dong, Xin Gui Tang, Yan Ping Jiang, Qiu Xiang Liu
Pan: Materials Science and Engineering B,Vol. 117 (2005), p. 339
Seraphin: Materials Chemistry and Physics, Vol.109 (2008), p. 262
Cann: Materials Letters, Vol.62 (2008), p. 633
Cao: Materials Letters, Vol.62 (2008), p. 1353
Cao, Materials Science and Engineering B.
Seraphin: Materials Chemistry and Physics, Vol.109 (2008), p. 262
Cann: Materials Letters, Vol.62 (2008), p. 633
Cao: Materials Letters, Vol.62 (2008), p. 1353
Cao, Materials Science and Engineering B.
Online since: September 2017
Authors: Miroslav Vokáč, Tomáš Hána, Klára V. Machalická, Martina Eliášová
Interlayer Stiffness Dependence
Generally speaking, polymer interlayers are visco-elastic materials, which stiffness properties are temperature, loading rate and load duration dependent.
It becomes obvious that when the temperature increases, material tends to soften.
Acknowledgements This paper was written with support of the Czech Science Foundation No.
Dear, On the blast resistance of laminated glass, International Journal of Solids and Structures. 49 (2012) 899-918
Gebbeken, Experimental and numerical investigations of laminated glass subjected to blast loading, International Journal of Impact Engineering. 39 (2012) 42-50
It becomes obvious that when the temperature increases, material tends to soften.
Acknowledgements This paper was written with support of the Czech Science Foundation No.
Dear, On the blast resistance of laminated glass, International Journal of Solids and Structures. 49 (2012) 899-918
Gebbeken, Experimental and numerical investigations of laminated glass subjected to blast loading, International Journal of Impact Engineering. 39 (2012) 42-50
Online since: November 2011
Authors: Gaetan Laroche, Stéphane Turgeon, Maryam Mavadat, André Ricard
Introduction
Non-equilibrium plasmas have a great impact on polymeric material science, in that they allow modifying the outermost surface layer, in ‘cold’ processes, conferring materials a tailored surface composition and properties such as adhesion, wettability, and biocompatibility.
References [1] Mavadat M, Ricard A, Sarra-Bournet C and Laroche G 2011 Journal of Physics D: Applied Physics Accepted [2] Williamson J M and DeJoseph C A 2003 Journal of Applied Physics 93 1893-8 [3] Tonnis E J and Graves D B 2002 Journal of Vacuum Science & Technology A: Vacuum, Surfaces, and Films 20 1787-95 [4] Britun N, Gaillard M, Ricard A, Kim Y M, Kim K S and Han J G 2007 Journal of Physics D: Applied Physics 40 1022-9 [5] Biloiu C, Sun X, Harvey Z and Scime E 2006 Determination of rotational and vibrational temperatures of a nitrogen helicon plasma.
Review of Scientific Instruments) pp 10F117-4 [6] Ricard A, Nouvellon C, Konstantinidis S, Dauchot J P, Wautelet M and Hecq M 2002 Journal of Vacuum Science & Technology A: Vacuum, Surfaces, and Films 20 1488-91 [7] Biloiu C, Sun X, Harvey Z and Scime E 2007 Journal of Applied Physics 101 073303-11
References [1] Mavadat M, Ricard A, Sarra-Bournet C and Laroche G 2011 Journal of Physics D: Applied Physics Accepted [2] Williamson J M and DeJoseph C A 2003 Journal of Applied Physics 93 1893-8 [3] Tonnis E J and Graves D B 2002 Journal of Vacuum Science & Technology A: Vacuum, Surfaces, and Films 20 1787-95 [4] Britun N, Gaillard M, Ricard A, Kim Y M, Kim K S and Han J G 2007 Journal of Physics D: Applied Physics 40 1022-9 [5] Biloiu C, Sun X, Harvey Z and Scime E 2006 Determination of rotational and vibrational temperatures of a nitrogen helicon plasma.
Review of Scientific Instruments) pp 10F117-4 [6] Ricard A, Nouvellon C, Konstantinidis S, Dauchot J P, Wautelet M and Hecq M 2002 Journal of Vacuum Science & Technology A: Vacuum, Surfaces, and Films 20 1488-91 [7] Biloiu C, Sun X, Harvey Z and Scime E 2007 Journal of Applied Physics 101 073303-11
Online since: December 2009
Authors: Iman Farahbakhsh, S. Hadi Tabaian, J. Vahdati
Production of nano leaded brass alloy by oxide materials
I.
Vahdati3, c 1 School of Materials Engineering & Metallurgy, Iran University of science & Technology, Tehran, iran 2 Faculty of Materials Engineering & Metallurgy, Amirkabir University, Tehran, Iran 3 Faculty of Materials Engineering & Metallurgy, University Ferdowsi of Mashhad a farahbakhsh@iust.ac.ir, btabaian@aut.ac.ir, cjvahdati@iust.ac.ir Key words: Lead bearing brass, reduction reaction thermodynamic, mechanochemical process, graphite Abstract: Mechanochemical process was applied for brass alloy production using chemical grade oxide powders.
In this study, formation of leaded brass by mechanochemical method is investigated using metal oxides and graphite as starting materials.
Suryanarayana, "Mechanical alloying and milling ", Progress in Materials Science, Vol 46, (2001) [2] M.
El-Eskandarany, "Mechanical Alloying for Fabrication of Advanced Engineering Materials", William Andrew Publishing, (2001)
Vahdati3, c 1 School of Materials Engineering & Metallurgy, Iran University of science & Technology, Tehran, iran 2 Faculty of Materials Engineering & Metallurgy, Amirkabir University, Tehran, Iran 3 Faculty of Materials Engineering & Metallurgy, University Ferdowsi of Mashhad a farahbakhsh@iust.ac.ir, btabaian@aut.ac.ir, cjvahdati@iust.ac.ir Key words: Lead bearing brass, reduction reaction thermodynamic, mechanochemical process, graphite Abstract: Mechanochemical process was applied for brass alloy production using chemical grade oxide powders.
In this study, formation of leaded brass by mechanochemical method is investigated using metal oxides and graphite as starting materials.
Suryanarayana, "Mechanical alloying and milling ", Progress in Materials Science, Vol 46, (2001) [2] M.
El-Eskandarany, "Mechanical Alloying for Fabrication of Advanced Engineering Materials", William Andrew Publishing, (2001)