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Online since: December 2022
Authors: Evan T. Salim, Forat Hamzah Alsultany, Abdulqader D. Faisal, Wafaa K. Khalef, M.H.A. Wahid
Nanoelectronics and materials 6, (2013), 121-128
Materials Research Bulletin, 86, (2017). 215-219
Hadi, Electrical conductivity, mobility and carrier concentration in Nb2O5 films: Effect of NH4OH molarity, International Journal of Nanoelectronics and Materials, 14(3) (2021) 259-268
Series: Materials Science and Engineering 454(1) (2018) 012172
Steiner,"Recent progress in processing and properties of ZnO; Progress in Materials Science 50, 293 (2005)
Materials Research Bulletin, 86, (2017). 215-219
Hadi, Electrical conductivity, mobility and carrier concentration in Nb2O5 films: Effect of NH4OH molarity, International Journal of Nanoelectronics and Materials, 14(3) (2021) 259-268
Series: Materials Science and Engineering 454(1) (2018) 012172
Steiner,"Recent progress in processing and properties of ZnO; Progress in Materials Science 50, 293 (2005)
Online since: October 2012
Authors: Liang Wang, Xiao Na Wu, Zhao Hui Zhang, Wen Yang Li, Xing Fei Guo
Favre / Journal of Membrane Science. 50–59 (2007), 294
Journal of Membrane Science, 110–118(2011), 376
Journal of Membrane Science . 21–33 (2011),380
Journal Membrane Science, 156-160(2005), 257
Journal of Membrane Science, 275-289( 2005), 255
Journal of Membrane Science, 110–118(2011), 376
Journal of Membrane Science . 21–33 (2011),380
Journal Membrane Science, 156-160(2005), 257
Journal of Membrane Science, 275-289( 2005), 255
Online since: October 2010
Authors: Shu Hui Li, Wei Gang Zhang, Wen Jiao Dan
Material Behaviors
The material in the study is uncoated cold-rolled Si-Mn TRIP800 sheet steel.
International Journal of Mechanical Sciences, 2001, 43 (9): 2017-2034 [9] Dan W.J., Zhang W.G., Li S.H., Lin Z.Q., A model for strain induced martensitic transformation of TRIP steel with strain rate, Computational Materials Science, Volume 40, Issue 1, July 2007: 101-107 [10] Saito K., Ikeda Sh., Makii K., et al.
[12] Iwamoto T., Sawa T., Sasaki M., Macroscopic constitutive modeling of TRIP steel using green function and computational simulation of its deformation behavior, Zairyo/Journal of the Society of Materials Science, Japan, 53(12), 2004: 1365-1370
[13] Choi H., Koç M. and Ni J., A study on the analytical modeling for warm hydro-mechanical deep drawing of lightweight materials, International Journal of Machine Tools and Manufacture, Volume 47, Issue 11, September 2007:1752-1766 [14] Takiguchi M. and Yoshida F., Analysis of plastic bending of adhesive-bonded sheet metals taking account of viscoplasticity of adhesive, Journal of Materials Processing Technology, Volume 140, Issues 1-3, 22 September 2003:441-446 [15] Manabe K., Koyama H., Yoshihara S., et al., Development of a combination punch speed and blank-holder fuzzy control system for the deep-drawing process, Journal of Materials Processing Technology, Volumes 125-126, 9 September 2002: 440-445 [16] Miller M.P., McDowell D.L., Modelling large strain multiaxial effects in FCC polycrystals.
International Journal of Plasticity 1996;12:875–902
International Journal of Mechanical Sciences, 2001, 43 (9): 2017-2034 [9] Dan W.J., Zhang W.G., Li S.H., Lin Z.Q., A model for strain induced martensitic transformation of TRIP steel with strain rate, Computational Materials Science, Volume 40, Issue 1, July 2007: 101-107 [10] Saito K., Ikeda Sh., Makii K., et al.
[12] Iwamoto T., Sawa T., Sasaki M., Macroscopic constitutive modeling of TRIP steel using green function and computational simulation of its deformation behavior, Zairyo/Journal of the Society of Materials Science, Japan, 53(12), 2004: 1365-1370
[13] Choi H., Koç M. and Ni J., A study on the analytical modeling for warm hydro-mechanical deep drawing of lightweight materials, International Journal of Machine Tools and Manufacture, Volume 47, Issue 11, September 2007:1752-1766 [14] Takiguchi M. and Yoshida F., Analysis of plastic bending of adhesive-bonded sheet metals taking account of viscoplasticity of adhesive, Journal of Materials Processing Technology, Volume 140, Issues 1-3, 22 September 2003:441-446 [15] Manabe K., Koyama H., Yoshihara S., et al., Development of a combination punch speed and blank-holder fuzzy control system for the deep-drawing process, Journal of Materials Processing Technology, Volumes 125-126, 9 September 2002: 440-445 [16] Miller M.P., McDowell D.L., Modelling large strain multiaxial effects in FCC polycrystals.
International Journal of Plasticity 1996;12:875–902
Online since: March 2011
Authors: Wen Li Wang, Jie He, Wei Lian Qu
Rare Metal Materials and Engineering.(2009),38(8)1317-1320
[5] A.L.Lu, Q.Y.Shi, H.Y.Zhao.
Journal of materials proeessing technology.(2008), 20(5):60-69
Journal of materials proeessing technology. (2008),199:452-455 [11] E.M.Anawa,A.G..Olabi.Control of welding residual stress for dissimilar laser welded materials.
Journal of materials proeessing technology.(2008), 20(4):22-33
Computational Materials Science.(2008), 43:353-365
Journal of materials proeessing technology.(2008), 20(5):60-69
Journal of materials proeessing technology. (2008),199:452-455 [11] E.M.Anawa,A.G..Olabi.Control of welding residual stress for dissimilar laser welded materials.
Journal of materials proeessing technology.(2008), 20(4):22-33
Computational Materials Science.(2008), 43:353-365
Online since: November 2013
Authors: Mohamad Rusop, Nurul Hafizah A. Rahman, Azrif Manut
They are certain materials either natural or unnatural by biological methods.
The material properties of DNA complex layer or thin films can be catalogued in a similar way as those of others materials used in optical devices.
Raja, Recent Advanced in Conjugated Polymers for Light Emitting Devices, International Journal of Molecular Sciences, 12 (2011) 2036-2054
Jin, Materials science of DNA, Journal of Materials Chemistry, 19 (2009) 1353
J., DNA – A New Material for Photonics, Nature Photonics, 1 (2007) 3-5
The material properties of DNA complex layer or thin films can be catalogued in a similar way as those of others materials used in optical devices.
Raja, Recent Advanced in Conjugated Polymers for Light Emitting Devices, International Journal of Molecular Sciences, 12 (2011) 2036-2054
Jin, Materials science of DNA, Journal of Materials Chemistry, 19 (2009) 1353
J., DNA – A New Material for Photonics, Nature Photonics, 1 (2007) 3-5
Online since: April 2008
Authors: Yi Gao, Zeng Pan
Jin: Journal of Materials Sciences & Technology (English) Vol.
16 (2000), p. 341-344
[2] K.P.
Hawbolt: Journal of Materials Processing Technology Vol. 56 (1996), p. 897-907
Morgridge: Materials Transactions Vol. 33 (1992), p. 740-746
Luo: Journal of Materials Engineering Vol. 1 (1999), p. 20-23
Wang: China Railway Science Vol. 25 (2004), p. 80-85
Hawbolt: Journal of Materials Processing Technology Vol. 56 (1996), p. 897-907
Morgridge: Materials Transactions Vol. 33 (1992), p. 740-746
Luo: Journal of Materials Engineering Vol. 1 (1999), p. 20-23
Wang: China Railway Science Vol. 25 (2004), p. 80-85
Online since: March 2022
Authors: Zahran Hafid Kenvisyah, Muhammad Hafidz Revianto, Fadila Azhari, Sri Agustina
The aim of this study was to investigate the production of modified starch nanoparticles for active food packaging materials.
Many biomaterials can be used as active packaging materials, including chitosan, polylactic acid (PLA), and starch.
Experimental Materials.
The results may show the potent of Beneng Taro to be used as source of starch nanoparticles materials.
Zetterlund, Solvent Effects on the Synthesis of Polymeric Nanoparticles via Block Copolymer Self-Assembly Using Microporous Membranes, in: Materials Science Forum, Trans Tech Publ, 2020, pp. 324-330
Many biomaterials can be used as active packaging materials, including chitosan, polylactic acid (PLA), and starch.
Experimental Materials.
The results may show the potent of Beneng Taro to be used as source of starch nanoparticles materials.
Zetterlund, Solvent Effects on the Synthesis of Polymeric Nanoparticles via Block Copolymer Self-Assembly Using Microporous Membranes, in: Materials Science Forum, Trans Tech Publ, 2020, pp. 324-330
Online since: December 2013
Authors: Sulastri Sabudin, Mohd Nazif Farhan, Mohd Faizal Mohideen Batcha
The drying medium flowing around the material serves to remove the moisture.
Drying of Granular Materials in Circulating Fluidized Beds.
[5] Ibrahim, M., Sopian, K. and Daud, W.R.W. (2009) Study of the Drying Kinetics of Lemon Grass, American Journal of Applied Sciences 6 (6): pp 1070 – 1075
Journal of Food Engineering, v. 78, n. 4, p. 1291-1297
Global Journal of Science Frontier Research
Drying of Granular Materials in Circulating Fluidized Beds.
[5] Ibrahim, M., Sopian, K. and Daud, W.R.W. (2009) Study of the Drying Kinetics of Lemon Grass, American Journal of Applied Sciences 6 (6): pp 1070 – 1075
Journal of Food Engineering, v. 78, n. 4, p. 1291-1297
Global Journal of Science Frontier Research
Online since: June 2012
Authors: Yu Fang Yang, Jing Yao Zhang
References
[1]Suryanarayana C, Yoo S H, Groza J R: Journal of Materials Science Letters.
Chinese Journal of Materials Research (in Chinese) .Vol. 137 (2002), p. 245
[3] Groza J R, Zavaliangos A: Materials Science and Engineering.Vol. 27 (2000), p.171
[4]Yang Y F, Zong Y P, Wang G, Xu N: Chinese journal of materials research(in Chinese).Vol. 27 (2007), p.69
[5]Yang Y F, Zong Y P, Xu N, Mu Q: Journal of Materials and Metallurgy(in Chinese).
Chinese Journal of Materials Research (in Chinese) .Vol. 137 (2002), p. 245
[3] Groza J R, Zavaliangos A: Materials Science and Engineering.Vol. 27 (2000), p.171
[4]Yang Y F, Zong Y P, Wang G, Xu N: Chinese journal of materials research(in Chinese).Vol. 27 (2007), p.69
[5]Yang Y F, Zong Y P, Xu N, Mu Q: Journal of Materials and Metallurgy(in Chinese).
Online since: October 2010
Authors: Jian Zhong Li, Ying Li, Jiu Gui Huang, Geng Rui Zhou, Yan Wen Tian
The selected materials were a 0.20-mm thick, obtained by cold (secondary)-rolled and continuous annealing or cover annealing, coated with an electrolytical substrate.
Journal of Materials Processing Technology, 152(2004), p.384-388
Journal of Iron and Steel Research, 13-4 (2001), p. 38-41.
Corrosion Science, 52(2010), p.14-20
Materials Protection. 33 -3 (2000), p.1~3.
Journal of Materials Processing Technology, 152(2004), p.384-388
Journal of Iron and Steel Research, 13-4 (2001), p. 38-41.
Corrosion Science, 52(2010), p.14-20
Materials Protection. 33 -3 (2000), p.1~3.