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Online since: December 2024
Authors: Darmadi Darmadi, Adisalamun Adisalamun, Aula Chairunnisak, Muhammad Zaki
Clay minerals possess substantial potential for developing innovative functional materials, particularly in the context of environmental protection.
In the present study, monolith adsorbents were fabricated using zeolite and bentonite materials to investigate their efficacy in adsorbing Fe (II).
The primary materials for crafting monolith adsorbents consisted of clay, zeolite and bentonite.
To properly to prepare the materials, a thorough washing process was conducted on both the clay and zeolite samples.
Results for compressive strength of monolith adsorbent Sample F (N) A (mm2) Fc (MPa) Zeolite 608 241.78 2.51 Bentonite 2711 166.18 16.31 Analysis of Table 1 reveals that bentonite exhibits the highest compressive strength among the materials tested, owing to its denser pore structure in comparison to the other materials.
In the present study, monolith adsorbents were fabricated using zeolite and bentonite materials to investigate their efficacy in adsorbing Fe (II).
The primary materials for crafting monolith adsorbents consisted of clay, zeolite and bentonite.
To properly to prepare the materials, a thorough washing process was conducted on both the clay and zeolite samples.
Results for compressive strength of monolith adsorbent Sample F (N) A (mm2) Fc (MPa) Zeolite 608 241.78 2.51 Bentonite 2711 166.18 16.31 Analysis of Table 1 reveals that bentonite exhibits the highest compressive strength among the materials tested, owing to its denser pore structure in comparison to the other materials.
Online since: June 2014
Authors: Anika Zafiah M. Rus, Noor Quratul Aine Adnan
Part 2; Thermal Degradation And Materials Properties, Prog React Kinetic And Mechanism, Science Reviews, Vol. 34 (2009), pp 1-43
[3] M.Rus.
Journal of Minerals and Materials Characterization and Engineering.
Acoustical Materials Workshop.
Australain Journal of Basic and Applied Sciences, Vol. 3 (2009), pp 4610-4617 [16] C.
Journal of Food Science and Technology.
Journal of Minerals and Materials Characterization and Engineering.
Acoustical Materials Workshop.
Australain Journal of Basic and Applied Sciences, Vol. 3 (2009), pp 4610-4617 [16] C.
Journal of Food Science and Technology.
Online since: July 2018
Authors: Alexey Shutov
Recently,
a more specific principle, the so-called w-invariance was proposed for metallic materials [4].
Series: Materials Science and Engineering 181 (2017) 012030 doi:10.1088/1757-899X/181/1/012030 [6] A.V.
Mughrabi, A two-parameter description of heterogeneous dislocation distributions in deformed metals crystals, Materials Science and Engineering 85 (1987) 15-31
Karashima, Deformation behaviour and dislocation structures upon stress reversal in polycrystalline aluminium, Materials Science and Engineering 20 (1975) 267- 276
Kocks, Forward and reverse rearrangements of dislocations in tangled walls, Materials Science and Engineering 81 (1986) 189-199.[13] A.V.
Series: Materials Science and Engineering 181 (2017) 012030 doi:10.1088/1757-899X/181/1/012030 [6] A.V.
Mughrabi, A two-parameter description of heterogeneous dislocation distributions in deformed metals crystals, Materials Science and Engineering 85 (1987) 15-31
Karashima, Deformation behaviour and dislocation structures upon stress reversal in polycrystalline aluminium, Materials Science and Engineering 20 (1975) 267- 276
Kocks, Forward and reverse rearrangements of dislocations in tangled walls, Materials Science and Engineering 81 (1986) 189-199.[13] A.V.
Online since: March 2010
Authors: Zhi Qiang Zhang, Zhong Chao Ye, Yi Sheng Zhang, Li Jian
Modeling and Simulation in Materials Science and
Engineering, Vol. 13 (2005), p. 1291
[3] Akerstrom P, Oldenburg M.
Journal of Materials Processing Technology, Vol. 174 (2006), p. 399 [4] Akerstrom P, Oldenburg M.
Journal of Materials Processing Technology, Vol. 177 (2006), p. 452 [6] Turetta A, Bruschi S, Ghiotti A.
Journal of Materials Processing Technology, Vol. 177 (2006), p. 396 [7] Naderi M, Saeed-Akbari A, Bleck W.
Materials Science and Engineering, 2007, p.1 [8] Naderi M, Saeed-Akbari A, Bleck W.
Journal of Materials Processing Technology, Vol. 174 (2006), p. 399 [4] Akerstrom P, Oldenburg M.
Journal of Materials Processing Technology, Vol. 177 (2006), p. 452 [6] Turetta A, Bruschi S, Ghiotti A.
Journal of Materials Processing Technology, Vol. 177 (2006), p. 396 [7] Naderi M, Saeed-Akbari A, Bleck W.
Materials Science and Engineering, 2007, p.1 [8] Naderi M, Saeed-Akbari A, Bleck W.
Online since: June 2011
Authors: Bo Tao Wang, Shuang Zhou, Zengzhi ZHANG
Experiments
Raw Materials.
In the same period, soil moisture content of tree wells using modified pillared clay as water-transmitting materials is obviously higher than that of tree wells using primary clay as water-transmitting materials.
Chen: Science in China, Series D: Earth Sciences.
[4] M.Sychev, R.Prihodko and A.Stepanenko: Microporous and Mesoporous Materials.
Liu and Q.Z.Bai: Journal of Basic Science and Engineering.
In the same period, soil moisture content of tree wells using modified pillared clay as water-transmitting materials is obviously higher than that of tree wells using primary clay as water-transmitting materials.
Chen: Science in China, Series D: Earth Sciences.
[4] M.Sychev, R.Prihodko and A.Stepanenko: Microporous and Mesoporous Materials.
Liu and Q.Z.Bai: Journal of Basic Science and Engineering.
Online since: December 2013
Authors: Quan Kai Wang, Ni Na Bao, Yong Guang Yin
Material and Methods
Materials.
Li: Journal of Food Composition and Analysis, Vol. 22 (2009), p. 72
Zhang: Chinese Journal of Chemical Engineering, Vol.17 (2009) No.3, p. 373
Bai: Journal of Gerontology, Vol.12 (1992), p.165
Du: Journal of the Neurological Sciences Vol. 1-2(2013) No.324, p. 140.
Li: Journal of Food Composition and Analysis, Vol. 22 (2009), p. 72
Zhang: Chinese Journal of Chemical Engineering, Vol.17 (2009) No.3, p. 373
Bai: Journal of Gerontology, Vol.12 (1992), p.165
Du: Journal of the Neurological Sciences Vol. 1-2(2013) No.324, p. 140.
Online since: November 2005
Authors: Qing Jie Zhang, Peng Cheng Zhai, Toshiyuki Hashida, Gang Chen
From Fig. 4, the shape of the curves for different materials and different load
levels are very similar.
Buck: Materials Science and Engineering Vol. 83 (1986), pp.29-38 [2] T.
Hamaguchi: Jounal of Nuclear Materials Vol. 150 (1987), pp. 194-202 [3] Y.H.
Takahashi: Journal of Nuclear Materials Vol. 150 (1987), pp. 42-52 [6] J.D.
Shoji: Journal of Materials Research Vol. 17 (2002), pp. 1945-1953 [9] F.
Buck: Materials Science and Engineering Vol. 83 (1986), pp.29-38 [2] T.
Hamaguchi: Jounal of Nuclear Materials Vol. 150 (1987), pp. 194-202 [3] Y.H.
Takahashi: Journal of Nuclear Materials Vol. 150 (1987), pp. 42-52 [6] J.D.
Shoji: Journal of Materials Research Vol. 17 (2002), pp. 1945-1953 [9] F.
Online since: October 2014
Authors: Hui Li, Xun Wu, Hou Quan Wang
Thus we should make full use of existing resources and science and technology to serve for the circular agriculture.
In order to realize the sustainable development of agricultural production, it should base on modern high technologies as the support and guidance, such as new energy material technology, information technology, biotechnology and so on.
New energy material technology provides new energy surpport system for circular agriculture, to reduce the dependence on the traditional carbonaceous energy and optimize the ecological environment.
Acknowledgements This work was financially supported by the Beijing Science Technology Foundation (Z101108002510011).
Anhui Agricultural Sciences, 2008, 36(19): 8373- 8375 [2] Changbin Yin, Huajun Tang, Yin Zhou, Chinese Journal of Agricultural Resources and Regional Planning, 2006(4): 4- 8 [3] Zhenfeng Zhou, Jun Wang, Yan Zhou, Research of agricultural modernization, 2004.25 (5): 348- 351 [4] Yanan Xuan, Minghao Ou, Futian Qu, Chinese Journal of Population, Resources and Environment, 2006, 27(1):4-8 [5] Wangsheng Gao, Yuanquan Chen, Long Liang.
In order to realize the sustainable development of agricultural production, it should base on modern high technologies as the support and guidance, such as new energy material technology, information technology, biotechnology and so on.
New energy material technology provides new energy surpport system for circular agriculture, to reduce the dependence on the traditional carbonaceous energy and optimize the ecological environment.
Acknowledgements This work was financially supported by the Beijing Science Technology Foundation (Z101108002510011).
Anhui Agricultural Sciences, 2008, 36(19): 8373- 8375 [2] Changbin Yin, Huajun Tang, Yin Zhou, Chinese Journal of Agricultural Resources and Regional Planning, 2006(4): 4- 8 [3] Zhenfeng Zhou, Jun Wang, Yan Zhou, Research of agricultural modernization, 2004.25 (5): 348- 351 [4] Yanan Xuan, Minghao Ou, Futian Qu, Chinese Journal of Population, Resources and Environment, 2006, 27(1):4-8 [5] Wangsheng Gao, Yuanquan Chen, Long Liang.
Online since: July 2015
Authors: Alwin Nagel, Johannes Edelbauer, David Schuller, Oliver Lott
The combination of both materials seems beneficial as the fracture toughness and ductility of the metal phase with the stiffness and creep resistance of the ceramic shows promising materials properties, especially at high temperatures [3,4].
The fine microstructure results of the grain size of ceramic raw materials used.
Lott, Synthesis of Copper/Silicon-Carbide Composites in a thermodynamic disequilibrium, submitted to Materials Science Forum Journal (2015)
Whitehouse, Creep of Metal Matrix Composites, Comprehensive Composite Materials 3 (2000) 371-418
Lott, Interface Design of Copper/Alumina Composites with Interpenetrating Phase Structure, Dissertation, School of Materials Science and Engineering University of New South Wales, Sydney, Australia, 2012.
The fine microstructure results of the grain size of ceramic raw materials used.
Lott, Synthesis of Copper/Silicon-Carbide Composites in a thermodynamic disequilibrium, submitted to Materials Science Forum Journal (2015)
Whitehouse, Creep of Metal Matrix Composites, Comprehensive Composite Materials 3 (2000) 371-418
Lott, Interface Design of Copper/Alumina Composites with Interpenetrating Phase Structure, Dissertation, School of Materials Science and Engineering University of New South Wales, Sydney, Australia, 2012.
Online since: January 2020
Authors: Salah Aldeen Adnan, Mariam M. Hassan, Makram A. Fakhri
[17] Fakhri, M.A., Salim, E.T., Wahid, M.H.A., Hashim, U., Salim, Z.T., Ismail, R.A., Synthesis and characterization of nanostructured LiNbO3 films with variation of stirring duration, Journal of Materials Science: Materials in Electronics, 28(16), (2017) 11813-11822
[18] E.
De Stefano, A Mechanochemical Approach to Porous Silicon Nanoparticles Fabrication, Materials 4 (2011) 1023-1033
Electroplated contacts and porous silicon for silicon based solar cells applications,Materials Science and Engineering: B194l(2015) 78-85 [29] Vendamani VS, Dang ZY, Ramana P, Pathak AP, Ravi Kanth Kumar VV, Breese MBH, et al.
[36] Salim, E.T., Rapid thermal oxidation for silicon nanocrystal based solar cell, International Journal of Nanoelectronics and Materials, 5(2) (2012) 95-100
[37] Ismail, R.A., Salim, E.T., Hamoudi, W.K., Characterization of nanostructured hydroxyapatite prepared by Nd:YAG laser deposition, Materials Science and Engineering C, 33(1) (2013) 47-52
De Stefano, A Mechanochemical Approach to Porous Silicon Nanoparticles Fabrication, Materials 4 (2011) 1023-1033
Electroplated contacts and porous silicon for silicon based solar cells applications,Materials Science and Engineering: B194l(2015) 78-85 [29] Vendamani VS, Dang ZY, Ramana P, Pathak AP, Ravi Kanth Kumar VV, Breese MBH, et al.
[36] Salim, E.T., Rapid thermal oxidation for silicon nanocrystal based solar cell, International Journal of Nanoelectronics and Materials, 5(2) (2012) 95-100
[37] Ismail, R.A., Salim, E.T., Hamoudi, W.K., Characterization of nanostructured hydroxyapatite prepared by Nd:YAG laser deposition, Materials Science and Engineering C, 33(1) (2013) 47-52