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Online since: June 2012
Authors: Shi Qiao Gao, Li Shen, Zhen Quan Zhang, An Ran Jiang
Not only different materials have different characteristic dimensions, but also the same material may have different characteristic dimensions because of diffident processing.
Compact Damping Models for Laterally Moving Microstructures with Gas-Rarefaction Effects[J].Journal of Microelectromechanical Systems,2001,10(2): 263-273
Derivation of Porous Squeeze-Film Reynolds Equations Using the Brinkman Model and Its Application [J].Journal of Physics D: Applied Physics,2001,34: 3217-3223
Squeeze Film Damping Effect on a MEMS Torsion Mirror [J].Journal of Micromechanics and Microengineering, 2002, 12: 556-561
International Journal of Engineering Science, 2003, 41: 313-335
Compact Damping Models for Laterally Moving Microstructures with Gas-Rarefaction Effects[J].Journal of Microelectromechanical Systems,2001,10(2): 263-273
Derivation of Porous Squeeze-Film Reynolds Equations Using the Brinkman Model and Its Application [J].Journal of Physics D: Applied Physics,2001,34: 3217-3223
Squeeze Film Damping Effect on a MEMS Torsion Mirror [J].Journal of Micromechanics and Microengineering, 2002, 12: 556-561
International Journal of Engineering Science, 2003, 41: 313-335
Online since: July 2011
Authors: Hang Yao, Ming Li Cao
Experiment
Materials.
At present, the main toughening mechanisms of fibrous reinforcing materials on composite materials are pullout effect, crack bridging and crack deflection, etc. [8,9].
References [1] Qiaozhen Yu and Jie Xiong: Journal of Zhejiang Institute of Science and Technology.
Vol. 38(8) (2010), p. 11-13 (In Chinese) [4] Mingli Cao and Jianqiang Wei: submitted to Journal of Wuhan University of Technology -Materials Science Edition (2010) [5] Mingli Cao and Jianqiang Wei: submitted to Journal of Wuhan University of Technology -Materials Science Edition (2011) [6] Wu Yao, Yiping Ma, Muhua Tan and Keru Wu: Journal of Building Materials.
Vol. 40(1) (2009), p. 34-37 (In Chinese) [8] Erfan Chen and Chen Dong: Polymer Materials Science and Engineering.
At present, the main toughening mechanisms of fibrous reinforcing materials on composite materials are pullout effect, crack bridging and crack deflection, etc. [8,9].
References [1] Qiaozhen Yu and Jie Xiong: Journal of Zhejiang Institute of Science and Technology.
Vol. 38(8) (2010), p. 11-13 (In Chinese) [4] Mingli Cao and Jianqiang Wei: submitted to Journal of Wuhan University of Technology -Materials Science Edition (2010) [5] Mingli Cao and Jianqiang Wei: submitted to Journal of Wuhan University of Technology -Materials Science Edition (2011) [6] Wu Yao, Yiping Ma, Muhua Tan and Keru Wu: Journal of Building Materials.
Vol. 40(1) (2009), p. 34-37 (In Chinese) [8] Erfan Chen and Chen Dong: Polymer Materials Science and Engineering.
Online since: June 2013
Authors: Wan Qiang Hu
For instance of the rolling of duplex metal, because of the parameters differences between two kind of materials, such as mechanical properties, melting point, heat conductivity coefficient and linear expansion coefficient, the effects of these parameters to duplex metal’s organization, bonding properties and respective basic features after rolling are different.
For example, the hot rolling of two explosive composite boards with respective materials of stainless steel-steel and titanium-steel are different.
These materials become holes because of dropping when cutting and grinding metallographic phase samples.
Journal of Sichuan Ordnance, 2011, 32(9): 64-66
Journal of Sichuan Ordnance, 2011, 32(6): 108-109.
For example, the hot rolling of two explosive composite boards with respective materials of stainless steel-steel and titanium-steel are different.
These materials become holes because of dropping when cutting and grinding metallographic phase samples.
Journal of Sichuan Ordnance, 2011, 32(9): 64-66
Journal of Sichuan Ordnance, 2011, 32(6): 108-109.
Online since: June 2014
Authors: Jun Zhao, Dong Mei Wu, Sen Liu
A FEM can not only reduce high cost for expensive equipment, and eliminate potential health risks associated with biological materials, but also can simulate surgical cutting process for tools of any shape, operating at any speed, depth and so on.
SS2012AA041604 and the National Nature Science Foundation of China under Grant No. 61273358.
Pope: Journal of Biomechanics, Vol. 9 (1976) No.9, p.343
Armarego: Journal of Manufacturing Science and Engineering, Vol. 118 (1996) No.2, p. 453
Ward: Journal of Biomechanics, Vol. 13 (1980) No.3, p.203
SS2012AA041604 and the National Nature Science Foundation of China under Grant No. 61273358.
Pope: Journal of Biomechanics, Vol. 9 (1976) No.9, p.343
Armarego: Journal of Manufacturing Science and Engineering, Vol. 118 (1996) No.2, p. 453
Ward: Journal of Biomechanics, Vol. 13 (1980) No.3, p.203
Online since: October 2014
Authors: Vlad Carlescu, Dumitru Olaru, Gheorghe Prisacaru
The Yeoh material model for incompressible rubber-like materials was presented for the first time in 1990.
Ogden, Nonlinear electroelastostatics: Incremental equations and stability, International Journal of Engineering Science 48 (2010) 1–14
Naghdabadi, A hyperelastic constitutive model for rubber-like materials, European Journal of Mechanics A/Solids 38 (2013) 144-151
C.: Polydimethylsiloxane/silica/titania composites prepared by solvent-free sol–gel technique, Journal of Sol-Gel Science and Technology 56 (2010) 310–319
Krishna Kumar, A New Stored Energy Function for Rubber Like Materials for Low Strains, Mechanics of Advanced Materials and Structures 16 (2009) 402–416
Ogden, Nonlinear electroelastostatics: Incremental equations and stability, International Journal of Engineering Science 48 (2010) 1–14
Naghdabadi, A hyperelastic constitutive model for rubber-like materials, European Journal of Mechanics A/Solids 38 (2013) 144-151
C.: Polydimethylsiloxane/silica/titania composites prepared by solvent-free sol–gel technique, Journal of Sol-Gel Science and Technology 56 (2010) 310–319
Krishna Kumar, A New Stored Energy Function for Rubber Like Materials for Low Strains, Mechanics of Advanced Materials and Structures 16 (2009) 402–416
Online since: September 2013
Authors: Lie Liu, Ruo Peng Liu, Xue Long Yang, Zhi Ya Zhao, Xi Geng Miao
Acknowledgments
This research was supported by grants of Shenzhen Key Laboratory of Ultrahigh Refractive Structural Materials, Guangdong Science and Technology Plan (No. 2011A091103003), and Shenzhen Innovative R&D Team Program (Peacock Plan) (No.
Yu: Journal of Tianjin Normal University, Natural Sciences Vol. 27[2] (2007), p. 15 (in Chinese)
Shi: Journal of Functional Materials and Devices Vol. 13[1] (2007), p. 54 (in Chinese)
Ma: Materials Engineering Vol. 2 (2008), p. 54 (in Chinese)
Huang: Chinese Journal of Radio Science Vol. 24[6] (2009), p. 1104.
Yu: Journal of Tianjin Normal University, Natural Sciences Vol. 27[2] (2007), p. 15 (in Chinese)
Shi: Journal of Functional Materials and Devices Vol. 13[1] (2007), p. 54 (in Chinese)
Ma: Materials Engineering Vol. 2 (2008), p. 54 (in Chinese)
Huang: Chinese Journal of Radio Science Vol. 24[6] (2009), p. 1104.
Online since: April 2022
Authors: Lesego M. Mohlala, Olusola Akinbami, Michael Bodunrin, Desmond Klenam, Josias van der Merwe
Vincent, Materials Science and Engineering: A 375 (2004) 213–218
Chiba, Materials Science and Engineering: A 759 (2019) 380–390
Mourad, Advances in Materials Science and Engineering 2019 (2019) e2157592
Oke, Journal of Materials Research and Technology 5 (2016) 384–393
Machaka, Computational Materials Science 188 (2021) 110244
Chiba, Materials Science and Engineering: A 759 (2019) 380–390
Mourad, Advances in Materials Science and Engineering 2019 (2019) e2157592
Oke, Journal of Materials Research and Technology 5 (2016) 384–393
Machaka, Computational Materials Science 188 (2021) 110244
Online since: August 2018
Authors: Dani Gustaman Syarif, Djoko Hadi Prajitno, Efrizon Umar
Prajitno, Efrizon Umar
Center for Applied Nuclear Science and Technology (PSTNT)-BATAN
Jl.
[13] Saleh R., Putra N., Prakoso S.P., Septiadi W.N., (2013), Experimental investigation of thermal conductivity and heat pipe thermal performance of ZnO nanofluids, International Journal of Thermal Sciences 63, pp. 125-132
[16] Syarif, D.G. and Prajitno, D.H., (2013), Characteristics of Water-ZrO2 Nanofluid Made from Solgel Synthesized ZrO2 Nanoparticle Utilizing Local Zircon, Journal of Materials Science and Engineering B 3 (2), pp. 122-127
[18] Rajaeiyan, A., and Bagheri-Mohagheghi, M.M., (2013), Comparison of Urea and Citric Acid Complexing Agents and Annealing Temperature Effect on the Structural Properties of 𝛾- and 𝛼-Alumina Nanoparticles Synthesized by Sol-Gel Method, Advances in Materials Science and Engineering Volume 2013, ArticleID791641, pp. 1-9, http://dx.doi.org/10.1155/2013/791641
[23] Lertpanyapornchai, B., Yokoi, T., Ngamcharussrivichai, C., (2016), Citric acid as complexing agent in synthesis of mesoporous strontium titanate via neutral-templated self-assembly sol-gel combustion method, Mesoporous and Microporous Materials 226, pp.505-509
[13] Saleh R., Putra N., Prakoso S.P., Septiadi W.N., (2013), Experimental investigation of thermal conductivity and heat pipe thermal performance of ZnO nanofluids, International Journal of Thermal Sciences 63, pp. 125-132
[16] Syarif, D.G. and Prajitno, D.H., (2013), Characteristics of Water-ZrO2 Nanofluid Made from Solgel Synthesized ZrO2 Nanoparticle Utilizing Local Zircon, Journal of Materials Science and Engineering B 3 (2), pp. 122-127
[18] Rajaeiyan, A., and Bagheri-Mohagheghi, M.M., (2013), Comparison of Urea and Citric Acid Complexing Agents and Annealing Temperature Effect on the Structural Properties of 𝛾- and 𝛼-Alumina Nanoparticles Synthesized by Sol-Gel Method, Advances in Materials Science and Engineering Volume 2013, ArticleID791641, pp. 1-9, http://dx.doi.org/10.1155/2013/791641
[23] Lertpanyapornchai, B., Yokoi, T., Ngamcharussrivichai, C., (2016), Citric acid as complexing agent in synthesis of mesoporous strontium titanate via neutral-templated self-assembly sol-gel combustion method, Mesoporous and Microporous Materials 226, pp.505-509
Online since: July 2021
Authors: Mohammed A. Al-Seady, Nihal A. Abdul Wahhab, Hamid I. Abbood, Hayder M. Abduljlil
De Heer: Science.
McEuen: Science.
Lee, “Field emission of carbon-nanotube pointelectron source”, Diamond and Related Materials. 18, 1435-1439. (2009)
Gauden, “Enhanced adsorption of paracetamol on closed carbon nanotubes by formation of nanoaggregates: Carbon nanotubes as potential materials in hot-melt drug deposition-experiment and simulation”, J.
Balogun: Energy Storage Materials, vol. 25, (2020), pp. 41-51
McEuen: Science.
Lee, “Field emission of carbon-nanotube pointelectron source”, Diamond and Related Materials. 18, 1435-1439. (2009)
Gauden, “Enhanced adsorption of paracetamol on closed carbon nanotubes by formation of nanoaggregates: Carbon nanotubes as potential materials in hot-melt drug deposition-experiment and simulation”, J.
Balogun: Energy Storage Materials, vol. 25, (2020), pp. 41-51
Online since: September 2003
Authors: S.H. Zhang, F. Lu
Citation & Key Engineering Materials Vols
In fact, it's impossible for natural rock materials to meet the demands.
Li: Journal of Materials Processing Technology Vol. 129(1-3) (2002), p. 50 [2] X.P.
Malkin: Transactions of the ASME: Journal of Manufacturing Science and Engineering, Vol. 123(1) (2001), p. 13 [5] D.N.
Lu: The Chinese Journal of Nonferrous Metals Vol. 12(1) (1992), p. 11 [7] S.H.
In fact, it's impossible for natural rock materials to meet the demands.
Li: Journal of Materials Processing Technology Vol. 129(1-3) (2002), p. 50 [2] X.P.
Malkin: Transactions of the ASME: Journal of Manufacturing Science and Engineering, Vol. 123(1) (2001), p. 13 [5] D.N.
Lu: The Chinese Journal of Nonferrous Metals Vol. 12(1) (1992), p. 11 [7] S.H.