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Online since: September 2024
Authors: Artem Ruban, Viktoriya Pasternak, Oleksandr Zemlianskyi, Gennady Ivanov
Romin, Software modeling environment for solving problems of structurally inhomogeneous materials, Materials Science Forum 1068 (2022) 215-222
In Materials Science Forum. 1038, pp. 468–479
In Materials Science Forum. 1038, pp. 460–467
Ruban, Investigation of the properties of powder materials using computer modeling, Materials Science Forum 1038 (2021) 33-39
Huliieva, Prediction of the structural properties of powder materials by 3D modeling methods, Materials Science Forum 1068 (2022) 231-238.
In Materials Science Forum. 1038, pp. 468–479
In Materials Science Forum. 1038, pp. 460–467
Ruban, Investigation of the properties of powder materials using computer modeling, Materials Science Forum 1038 (2021) 33-39
Huliieva, Prediction of the structural properties of powder materials by 3D modeling methods, Materials Science Forum 1068 (2022) 231-238.
Online since: October 2014
Authors: Zong Jie Li, Wei Min Kang, Yu Hao Ma, Bo Wen Cheng, Min Hu
Compared with these, chelating adsorption materials are gradually favored due to their unique adsorption mechanism, high adsorption efficiency and tremendous adsorption capacity.
[5] ParvinKarimiNeghlani, Mehdi Rafizadeh, FaramarzAfsharTaromi: Journal of Hazardous Materials, 2011(186):182-189
[7] Khalid Saeed, SajjadHaider, Tae-Jin Oh: Journal of Membrane Science, 2008(322):400-405
Taha, JunlianQiao, Fengting Li: Journal of Environmental Science, 2012, 24 (4):610-616
[10] PimolpunKampalanonwat, Pitt Supaphol:Applied Materials & Interfaces, 2010,2(12):3619-3627.
[5] ParvinKarimiNeghlani, Mehdi Rafizadeh, FaramarzAfsharTaromi: Journal of Hazardous Materials, 2011(186):182-189
[7] Khalid Saeed, SajjadHaider, Tae-Jin Oh: Journal of Membrane Science, 2008(322):400-405
Taha, JunlianQiao, Fengting Li: Journal of Environmental Science, 2012, 24 (4):610-616
[10] PimolpunKampalanonwat, Pitt Supaphol:Applied Materials & Interfaces, 2010,2(12):3619-3627.
Online since: May 2013
Authors: Sen Kai Lu, Yong Sen Wei, Ping Huang
Li:Materials Science and Engineering A, vol.380, (2004),p.378
Escalera, L Gil, Journal of materials science, Vol.37,(2002),p.4633
LLorca:Progress in Materials Science ,Vol.47, (2002), p.283-353
Lord, Materials Science &Technology. 6 (1990) 1199-1209
Taya, Progress in Materials Science. 38 (1994) 1-157
Escalera, L Gil, Journal of materials science, Vol.37,(2002),p.4633
LLorca:Progress in Materials Science ,Vol.47, (2002), p.283-353
Lord, Materials Science &Technology. 6 (1990) 1199-1209
Taya, Progress in Materials Science. 38 (1994) 1-157
Online since: September 2014
Authors: Lu Qiu, Hai Han Yang, Fang Lei, Shu Guo Fan, Mei Hua Xie, Zhen Ji Wang
Five strains of Botrytis cinerea were used as the experimental materials. 0.3 % carbendazim and 0.3 % chlorothalonil were used as comparing chemistry bacteriostatic agents.
Nowadays, it has been widely applied in many fields, such as environmental materials [6],coatings [7], medical dressings [8], agriculture [9], and so on.
In Advanced Materials Research, Vol. 938(2014), p. 242-250
Journal of food science, Vol. 78(10) (2013), p.1589-1594
Journal of the science of food and agriculture, Vol. 94(5) (2014), p. 1000-1004
Nowadays, it has been widely applied in many fields, such as environmental materials [6],coatings [7], medical dressings [8], agriculture [9], and so on.
In Advanced Materials Research, Vol. 938(2014), p. 242-250
Journal of food science, Vol. 78(10) (2013), p.1589-1594
Journal of the science of food and agriculture, Vol. 94(5) (2014), p. 1000-1004
Online since: July 2025
Authors: Siti Noorbaini Sarmin, Mohamad Jawaid, Amran Shafie Ismail, Hassan Fouad, Nurjannah Salim, Muhamad Haikal Hamdan
Journal of Hazardous Materials,, 2023. 443(130168)
Journal of Materials Research and Technology, 2021. 13: p. 16
Journal of Marine Science and Engineering, 2022. 10(12)
Journal of King Saud University-Science, 2023. 35(7)
Journal of Materials Research and Technology, 2021. 15: p. 29
Journal of Materials Research and Technology, 2021. 13: p. 16
Journal of Marine Science and Engineering, 2022. 10(12)
Journal of King Saud University-Science, 2023. 35(7)
Journal of Materials Research and Technology, 2021. 15: p. 29
Online since: July 2011
Authors: Xi Yan Zhang, Li Qun Cheng, Guang Cheng, Rui Dong
Preparation and up-conversion luminescence of Yb3+and Er3+ co-doped BaF2 phosphor
Liqun Cheng1, a, Guang Cheng2,b, Rui Dong 3,cand Xiyan Zhang4,d
1School of Photo-electronic Engineering, Changchun University of Science and Technology,Changchun,China,130022
2School of Foreign Languages, Changchun University of Science and Technology,Changchun,China,130022
3School of Materials Science and Engineering, Changchun University of Science and Technology,Changchun,China,130022
4School of Materials Science and Engineering, Changchun University of Science and Technology,Changchun,China,130022
achengliqun2011@126.com, bchengguang2010
The up-conversion emission properties can be significantly improved for the Yb3+ and Er3+ co-doped up-conversion materials because of the large absorption cross-section of Yb3+ to 980nm coupled with an efficient energy transfer between Yb3+ and Er3+.However it is still a arduous task to improve the up-conversion efficiency of the up-conversion materials[10~11].
Experimental Yb2O3(99.99%, Er2O3(99.99% ), BaF2(99.0%,) were used as the starting materials.YbF3 and ErF3 were prepared firstly in the laboratory by using HNO3(99.0%) and HF(99.0%).Na2SiF6(99.0%) was added as the charge compensation agents and flux.
The raw materials were weighted in stoichiometric ratios.
Cui, Journal of Solid State Chemistry, 179(3): p.955 (2006) [9] D.Q.
The up-conversion emission properties can be significantly improved for the Yb3+ and Er3+ co-doped up-conversion materials because of the large absorption cross-section of Yb3+ to 980nm coupled with an efficient energy transfer between Yb3+ and Er3+.However it is still a arduous task to improve the up-conversion efficiency of the up-conversion materials[10~11].
Experimental Yb2O3(99.99%, Er2O3(99.99% ), BaF2(99.0%,) were used as the starting materials.YbF3 and ErF3 were prepared firstly in the laboratory by using HNO3(99.0%) and HF(99.0%).Na2SiF6(99.0%) was added as the charge compensation agents and flux.
The raw materials were weighted in stoichiometric ratios.
Cui, Journal of Solid State Chemistry, 179(3): p.955 (2006) [9] D.Q.
Online since: August 2013
Authors: Wei Chen, Yang Xia, Gao Lin Xiang, Hong Yang
Materials which have magnetoelectric effect are called magnetoelectric materials.
Journal of Chongqing University of Posts and Telecommunications: Natural Science Edition,2005,17(1):85-87
New electronic film materials[M].
Materials Review, 2008,22(8):16-20
Electronic Materials[M].
Journal of Chongqing University of Posts and Telecommunications: Natural Science Edition,2005,17(1):85-87
New electronic film materials[M].
Materials Review, 2008,22(8):16-20
Electronic Materials[M].
Online since: May 2013
Authors: Zuo Qi Liu
INTRODUCTION
Discontinuously reinforced metal-matrix composites (MMCs) based on aluminium alloy are recognized as the potential new generation brake disc materials [1,2].
The material is prepared by a liquid agitating method.
Composites Science and Technology, 59, 147-155, 1999
Prediction of damage evolution in forged aluminum metal matrix composites using a neural network approach, Journal of Materials Processing Technology, 80-81, 507-512, 1998
Doong, High strain rate tensile properties of an (Al2O3 particles)-(Al alloy 6061-T6) metal matrix composite, Materials Science and Engineering, 1-2, 213-221, 1993
The material is prepared by a liquid agitating method.
Composites Science and Technology, 59, 147-155, 1999
Prediction of damage evolution in forged aluminum metal matrix composites using a neural network approach, Journal of Materials Processing Technology, 80-81, 507-512, 1998
Doong, High strain rate tensile properties of an (Al2O3 particles)-(Al alloy 6061-T6) metal matrix composite, Materials Science and Engineering, 1-2, 213-221, 1993
Online since: June 2008
Authors: Rui N. Correia, Maria Helena F.V. Fernandes, Sandra C.P. Cachinho
Luklinska, Journal of Materials Science: Materials in Medicine 14 (2003),
p. 891-898
[4] M.
Gil, Journal of Materials Chemistry 15 (2005), p. 1353-1359 [5] Sean Lee, J.
Nakamura, Journal of Materials Science: Materials in Medicine 15 (2004), p. 99-107 [9] Z.
Hench, Journal of Materials Science 38 (2003), p. 4697-4707 [21] J.
Hupa, Journal of Materials Science: Materials in Medicine 13 (2002), p. 1221-1225
Gil, Journal of Materials Chemistry 15 (2005), p. 1353-1359 [5] Sean Lee, J.
Nakamura, Journal of Materials Science: Materials in Medicine 15 (2004), p. 99-107 [9] Z.
Hench, Journal of Materials Science 38 (2003), p. 4697-4707 [21] J.
Hupa, Journal of Materials Science: Materials in Medicine 13 (2002), p. 1221-1225