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Online since: June 2020
Authors: Shi Yong Sun, Ke Xuan Shen, Yu Hang Liu, Liu Li, Yin Hong Ran, Yu Quan Ren, Dao Yong Tan
Polymer Materials Science & Engineering, 2017. 33(10): p. 23-28
Soil Science Society of America Journal, 2006. 70(1): p. 215
Journal of Colloid & Interface Science, 2013. 391(2): p. 16-20
Materials Research Bulletin, 2013. 48(5): p. 1811-1816
Journal of Environmental Sciences, 2017. 56(6): p. 12-24
Soil Science Society of America Journal, 2006. 70(1): p. 215
Journal of Colloid & Interface Science, 2013. 391(2): p. 16-20
Materials Research Bulletin, 2013. 48(5): p. 1811-1816
Journal of Environmental Sciences, 2017. 56(6): p. 12-24
Online since: May 2015
Authors: P. Tserotas, K. Karalis
Hristoforou, Magnetic effects in physical sensor design and development, Journal of Optoelectronics and Advanced Materials, 4 (2002) 245-260
Statharas, Surface properties of a laser-irradiated Al 6061 alloy, International Journal of Computational Materials Science and Surface Engineering, 6 (2014)
Antipas, Liquid column deformation and particle size distribution in gas atomisation, International Journal of Computational Materials Science and Surface Engineering, 4 (2011) 247-264
The gas flow model, Computational Materials Science, 46 (2009) 955-959
Part I: The surface wave formation model, Computational Materials Science, 35 (2006) 416-422
Statharas, Surface properties of a laser-irradiated Al 6061 alloy, International Journal of Computational Materials Science and Surface Engineering, 6 (2014)
Antipas, Liquid column deformation and particle size distribution in gas atomisation, International Journal of Computational Materials Science and Surface Engineering, 4 (2011) 247-264
The gas flow model, Computational Materials Science, 46 (2009) 955-959
Part I: The surface wave formation model, Computational Materials Science, 35 (2006) 416-422
Online since: October 2017
Authors: Ritesh Joshi, Gopal Zinzala, Nishit Nirmal, Kishan Fuse
Introduction
Composite materials have gained a lot of demand in automobile, aerospace, marine industries.
Pawade: Procedia Materials Science vol. 5 (2014), p. 2014-2022
Karunamoorthy: Journal of Materials Processing Technologyvol. 207 (2008) p. 343-349 [5] Al Refaie Abbas, Ming Hsien Li and Kuo Cheng Tai: Journal of University of Science and Technology Beijing: Mineral Metallurgy Materials (Eng Ed) vol. 15 (2008), p.714-722 [6] Setu Dave, Jay J Vora, Nimesh Thakkar, Aditya Singh, Saurabh Srivastava, Bhargav Gadhvi: Key Engineering Materials vol. 706 (2016), p.3-8 [7] Adeel Ikram, Nadeem Ahmad Mufti, Muhammad Qaiser Saleem, Ahmed Raza Khan: Journal of Mechanical Science and Technology vol. 27 (2013), p. 2133-2141 [8] M.
Garg, Ajai Jain, Gian Bhushan: Arabian Journal for Science and Engineering vol. 39 (2014), p. 1465-1476 [9] G.
Hsu: International Journal of Advanced Manufacturing Technology vol. 47 (2010), p.395-402 [12] Yan Cherng Lin, Biing Hwa Yan and Yong Song Chang: Journal of Materials Processing Technology vol. 104 (2000), p. 171-177 [13] Kamal Jangra, Ajai Jain and Sandeep Grover: Journal of Scientific and Industrial Research vol. 69 (2010), p.606-612 [14] Jong Hyuk Jung and Won Tae Kwon: Journal of Mechanical Science and Technology vol. 24 (2010), p.1083-1090 [15] A.
Pawade: Procedia Materials Science vol. 5 (2014), p. 2014-2022
Karunamoorthy: Journal of Materials Processing Technologyvol. 207 (2008) p. 343-349 [5] Al Refaie Abbas, Ming Hsien Li and Kuo Cheng Tai: Journal of University of Science and Technology Beijing: Mineral Metallurgy Materials (Eng Ed) vol. 15 (2008), p.714-722 [6] Setu Dave, Jay J Vora, Nimesh Thakkar, Aditya Singh, Saurabh Srivastava, Bhargav Gadhvi: Key Engineering Materials vol. 706 (2016), p.3-8 [7] Adeel Ikram, Nadeem Ahmad Mufti, Muhammad Qaiser Saleem, Ahmed Raza Khan: Journal of Mechanical Science and Technology vol. 27 (2013), p. 2133-2141 [8] M.
Garg, Ajai Jain, Gian Bhushan: Arabian Journal for Science and Engineering vol. 39 (2014), p. 1465-1476 [9] G.
Hsu: International Journal of Advanced Manufacturing Technology vol. 47 (2010), p.395-402 [12] Yan Cherng Lin, Biing Hwa Yan and Yong Song Chang: Journal of Materials Processing Technology vol. 104 (2000), p. 171-177 [13] Kamal Jangra, Ajai Jain and Sandeep Grover: Journal of Scientific and Industrial Research vol. 69 (2010), p.606-612 [14] Jong Hyuk Jung and Won Tae Kwon: Journal of Mechanical Science and Technology vol. 24 (2010), p.1083-1090 [15] A.
Online since: February 2022
Authors: Artem I. Lizunov, Saeed Kamali, Zhanna V. Eremeeva, Yury V. Konyukhov
Gorokhovsky, Dielectric properties of the polymer-matrix composites based on the system of Co-modified potassium titanate-polytetrafluorethylene, Journal of Composite Materials, 52 (2017) 135-144
Kuznetsov, Enhancement of percolation threshold by controlling the structure of composites based on nanostructured carbon filler, Journal of Electronic Materials, 48(8) (2019) 5111-5118
Zamulaeva, On the application of carbon-containing electrode materials in electrospark alloying technology.
Marek, Wear-resistant high-temperature materials based on boron carbide, in: Refractory Borides and Silicides, Naukova Dumka, (1977) 92-97
Kiselev, Development of new electrode materials for thermo-electrochemical cells for waste heat harvesting, Renewable Energy Focus, (2019) 29 42-48
Kuznetsov, Enhancement of percolation threshold by controlling the structure of composites based on nanostructured carbon filler, Journal of Electronic Materials, 48(8) (2019) 5111-5118
Zamulaeva, On the application of carbon-containing electrode materials in electrospark alloying technology.
Marek, Wear-resistant high-temperature materials based on boron carbide, in: Refractory Borides and Silicides, Naukova Dumka, (1977) 92-97
Kiselev, Development of new electrode materials for thermo-electrochemical cells for waste heat harvesting, Renewable Energy Focus, (2019) 29 42-48
Online since: December 2013
Authors: Zhu Ge Yan, De Ping Xu, Chen Si
[9] J.V.Deventer, J.Provis, P.Duxson et al: Journal of Hazardous Materials Vol.139(2007), p. 506–513
[22] N.Makul, B.Chatveera, P.Ratanadecho: Journal of Science & Technology Vol.31(2009), p. 1-13
[28] Z.J.Li, Y.S.Zhang, X.M.Zhou: Journal of materials in civil engineering Vol.17(2005), p. 624-631
[29] Y.S.Zhang, W.Sun, Z.J.Li: Journal of Materials Science Vol.41(2006), p. 2787–2794
[34] Y.L.Zhao, J,W.Ye, X.B.Lu et al: Journal of Hazardous Materials Vol.174(2010), p. 108–112.
[22] N.Makul, B.Chatveera, P.Ratanadecho: Journal of Science & Technology Vol.31(2009), p. 1-13
[28] Z.J.Li, Y.S.Zhang, X.M.Zhou: Journal of materials in civil engineering Vol.17(2005), p. 624-631
[29] Y.S.Zhang, W.Sun, Z.J.Li: Journal of Materials Science Vol.41(2006), p. 2787–2794
[34] Y.L.Zhao, J,W.Ye, X.B.Lu et al: Journal of Hazardous Materials Vol.174(2010), p. 108–112.
Online since: April 2012
Authors: Jun Ru Yang, Gong Ling Chen, Li Li Zhang, Jing Sun
(3)
(4)
Where, G1 and G2 are material shear modulus, k is related with Poisson's ratio υ, k=(3-υ)/(1+υ) for plane stress, k=3-4υ for the plane strain, and the subscripts 1 and 2 refer to two kinds of materials.
Acknowledgements This work is supported by Shandong Province Outstanding Young Scientist Research Award Fund (BS2009ZZ012), and by Shandong Province Higher Educational Science and Technology Program (J10LD04).
Herrmann: International Journal of Fracture Vol. 128 (2004), p. 49-63 [2] M.
Matbuly: Meccanica Vol. 44 (2009), p. 547-554 [3] Feng Jiang, Dandan Li, Zhiling Deng, Jun Sun: Journal of Material Research Vol. 20 (2006), p. 73-78 (In Chinese) [4] Zhengong Zhou, Shanyi Du: Eleventh National Conference on Composite Materials Proceedings. (2000), p. 675-680 (In Chinese) [5] Daiheng Chen: Engineering Fracture Mechanical Vol. 49 (1994), p. 517-532 [6] J.
Mathematical Theory of Dislocation, American Society of Mechanical Engineer, Now York, (1969) [8] Limin Wang, Haoran Chen, Jian Wang, Shan Chai: Computational Structural Mechanics and Applications Vol. 13 (1996), p. 180-186 (In Chinese) [9] Edit Committee of Handbook of Property Data of Materials for Mechanical Engineering, in: Handbook of Property Data of Materials for Mechanical Engineering, Mechanical Industry Publishing House, Beijing (1995) (In Chinese)
Acknowledgements This work is supported by Shandong Province Outstanding Young Scientist Research Award Fund (BS2009ZZ012), and by Shandong Province Higher Educational Science and Technology Program (J10LD04).
Herrmann: International Journal of Fracture Vol. 128 (2004), p. 49-63 [2] M.
Matbuly: Meccanica Vol. 44 (2009), p. 547-554 [3] Feng Jiang, Dandan Li, Zhiling Deng, Jun Sun: Journal of Material Research Vol. 20 (2006), p. 73-78 (In Chinese) [4] Zhengong Zhou, Shanyi Du: Eleventh National Conference on Composite Materials Proceedings. (2000), p. 675-680 (In Chinese) [5] Daiheng Chen: Engineering Fracture Mechanical Vol. 49 (1994), p. 517-532 [6] J.
Mathematical Theory of Dislocation, American Society of Mechanical Engineer, Now York, (1969) [8] Limin Wang, Haoran Chen, Jian Wang, Shan Chai: Computational Structural Mechanics and Applications Vol. 13 (1996), p. 180-186 (In Chinese) [9] Edit Committee of Handbook of Property Data of Materials for Mechanical Engineering, in: Handbook of Property Data of Materials for Mechanical Engineering, Mechanical Industry Publishing House, Beijing (1995) (In Chinese)
Online since: November 2025
Authors: Oleg Kulakov, Albert Katunin, Yevheniia Zarichniak, Ihor Shutenko
The work [8] determines the heating temperatures of wires with different insulation materials during operation.
Materials Science Forum. 1006 (2020) 70–75
Key Engineering Materials Submitted. 954 (2023) 125–133
International Scientific Journal «Grail of Science». 24 (2023) 210–215 [in Ukrainian]
Materials Science Forum Submitted. 1126 (2024) 143–150
Materials Science Forum. 1006 (2020) 70–75
Key Engineering Materials Submitted. 954 (2023) 125–133
International Scientific Journal «Grail of Science». 24 (2023) 210–215 [in Ukrainian]
Materials Science Forum Submitted. 1126 (2024) 143–150
Online since: December 2014
Authors: Felipe Baptista Nishida, Thiago Antonini Alves, Murilo A. Barbur
Application of Different Conductive Substrate Materials for Heat Transfer Enhancement in Cooling of Electronic Components
Thiago Antonini Alves a,*, Murilo A.
The possible causes of the failures are the diffusion of the semiconductor material, the chemical reactions, the movement of the glued materials, and the thermal tensions [3].
Heater average work temperature for different substrate materials [°C].
The search for materials with suitable thermal and electrical properties is important for the thermal control of the electronic components.
Altemani, An invariant descriptor for heaters temperature prediction in conjugate cooling, International Journal of Thermal Sciences 58 (2012) 92–101
The possible causes of the failures are the diffusion of the semiconductor material, the chemical reactions, the movement of the glued materials, and the thermal tensions [3].
Heater average work temperature for different substrate materials [°C].
The search for materials with suitable thermal and electrical properties is important for the thermal control of the electronic components.
Altemani, An invariant descriptor for heaters temperature prediction in conjugate cooling, International Journal of Thermal Sciences 58 (2012) 92–101
Online since: July 2014
Authors: S. Suresh, N. Shenbaga Vinayaga Moorthi, E.S. Esakkiraj, M. Krishna Kumar, S.M. Jenin Ranjith
Nanotechnology is a production of materials in dimensions less than 100 nm.
Dinesh, Novel technique for fabrication of aluminum6061-MWCNT metal matrix composites, in ARPN journal of engineering and applied sciences, 2013, vol.8, no.3
Shariat, Preparation of nano-structural Al2o3-TiB2 in-situ composite using mechanically activated combustion synthesis followed by intensive milling, in Iranian Journal of Materials Science &Engineering, 2011, vol.8, no.2
Sampath, Effect of in-situ TiB2 particle addition on the mechanical properties of AA 2219 Al alloy composite, in the Journal of Minerals & Materials Characterization & Engineering, 2011, vol.10, no.6, pp.527-534
Keshavamurthy, A study on microstructure and mechanical properties of Al 6061- TiB2 in-situ composites, in Materials Science and Engineering, 2011, vol.528, pp.4125-4132
Dinesh, Novel technique for fabrication of aluminum6061-MWCNT metal matrix composites, in ARPN journal of engineering and applied sciences, 2013, vol.8, no.3
Shariat, Preparation of nano-structural Al2o3-TiB2 in-situ composite using mechanically activated combustion synthesis followed by intensive milling, in Iranian Journal of Materials Science &Engineering, 2011, vol.8, no.2
Sampath, Effect of in-situ TiB2 particle addition on the mechanical properties of AA 2219 Al alloy composite, in the Journal of Minerals & Materials Characterization & Engineering, 2011, vol.10, no.6, pp.527-534
Keshavamurthy, A study on microstructure and mechanical properties of Al 6061- TiB2 in-situ composites, in Materials Science and Engineering, 2011, vol.528, pp.4125-4132
Online since: February 2011
Authors: Shi Xue Xu, Ling Fei Xu, Yan Ru Chen
Space targets detecting oriented method of materials differentiating
Shixue Xu1, a, Lingfei Xu2,b, Yanru Chen3,c
1,2,3Department of Optical Engineering, Nanjing University of Science and Technology, Nanjing, P.R.China 210094
aete_corner@yahoo.com.cn, bjsj900@hotmail.com, cyrchen2002@yahoo.com.cn
Keywords: Space targets, scattering, polarization analysis
Abstract.
We have inspected two kinds of materials which are widely used in the manufacturing of space vehicles and we have found similar optical information in the scattered light of the two kinds of materials, as the bio-reflection distribution, the spectrum distribution and so on.
In order t describe the reflection of given materials precisely, the bio-reflection distribution function (BRDF) is used for the intensity of scattered light is usually determined by the reflectivity of materials and the reflectivity of many kinds of materials will change along with the angle of incidence under most conditions.
Our research indicates that the optical differentiation of materials method will have more feasibility if we take more information from the scattered light of materials’ surfaces as the polarization variation tendency which is a remarkable characteristic when the two kind of materials with similar scattering characteristic are need to be distinguished, based on which, more simple optical detection system of space targets are feasible.
James, “Change of polarization of light beams on propagation in free space,” Journal of Optical Society of America A, 11, 1641-1643 (1994)
We have inspected two kinds of materials which are widely used in the manufacturing of space vehicles and we have found similar optical information in the scattered light of the two kinds of materials, as the bio-reflection distribution, the spectrum distribution and so on.
In order t describe the reflection of given materials precisely, the bio-reflection distribution function (BRDF) is used for the intensity of scattered light is usually determined by the reflectivity of materials and the reflectivity of many kinds of materials will change along with the angle of incidence under most conditions.
Our research indicates that the optical differentiation of materials method will have more feasibility if we take more information from the scattered light of materials’ surfaces as the polarization variation tendency which is a remarkable characteristic when the two kind of materials with similar scattering characteristic are need to be distinguished, based on which, more simple optical detection system of space targets are feasible.
James, “Change of polarization of light beams on propagation in free space,” Journal of Optical Society of America A, 11, 1641-1643 (1994)