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Online since: July 2012
Authors: Meysam Rahmat, Pascal Hubert
Nanocomposites are composite materials with inclusions (i.e., fibres or particles) on the order of nanometres.
Gorga, et al., The importance of interfacial design at the carbon nanotube/polymer composite interface, Journal of Applied Polymer Science, 102 (2) (2006) 1413
Liang, et al., Investigation of molecular interactions between (10, 10) single-walled nanotube and Epon 862 resin/DETDA curing agent molecules, Materials Science and Engineering A, 365 (1-2) (2004) 228
Gates, et al., Computational materials: Multi-scale modeling and simulation of nanostructured materials, Composites Science and Technology, 65 (15-16 SPEC ISS) (2005) 2416
Yakobson, et al., High strain rate fracture and C-chain unraveling in carbon nanotubes, Computational Materials Science, 8 (4) (1997) 341
Gorga, et al., The importance of interfacial design at the carbon nanotube/polymer composite interface, Journal of Applied Polymer Science, 102 (2) (2006) 1413
Liang, et al., Investigation of molecular interactions between (10, 10) single-walled nanotube and Epon 862 resin/DETDA curing agent molecules, Materials Science and Engineering A, 365 (1-2) (2004) 228
Gates, et al., Computational materials: Multi-scale modeling and simulation of nanostructured materials, Composites Science and Technology, 65 (15-16 SPEC ISS) (2005) 2416
Yakobson, et al., High strain rate fracture and C-chain unraveling in carbon nanotubes, Computational Materials Science, 8 (4) (1997) 341
Online since: February 2014
Authors: Ari Adi Wisnu, Nurul Taufiqu Rochman
The iron sand is one of raw materials for magnet-ferrite.
The ferrite-based magnetic materials can minimize or even eliminate the intensity and power of radiation reflected by the radar, therefore, they are also known as anti-radar materials.
Therefore, in this study, it will be developed ferrite-based materials by using raw materials from iron sand to absorb electromagnetic waves.
This means that the samples are believed to be multi-phase materials.
Cao, Electromagnetic and microwave absorption performance of some transition metal doped La0.7Sr0.3Mn1−xTMxO3±1 (TM = Fe, Co or Ni), Materials Science and Engineering B 177 (2012) 678– 684
The ferrite-based magnetic materials can minimize or even eliminate the intensity and power of radiation reflected by the radar, therefore, they are also known as anti-radar materials.
Therefore, in this study, it will be developed ferrite-based materials by using raw materials from iron sand to absorb electromagnetic waves.
This means that the samples are believed to be multi-phase materials.
Cao, Electromagnetic and microwave absorption performance of some transition metal doped La0.7Sr0.3Mn1−xTMxO3±1 (TM = Fe, Co or Ni), Materials Science and Engineering B 177 (2012) 678– 684
Online since: September 2013
Authors: Bao Lin Zhu, Li Bian, Tong Wang, Dao Xin Wei
Optimized Design of Plant-mixed Recycled Materials with High Blending Ratio of RAP
Li Bian1, a, Baolin Zhu2,b ,Tong Wang3,c and Daoxin Wei4,d
1,2,3,4China Academy of Transportation Sciences, Huixinli 240#, Chaoyang District, Beijing, China
alisa2019@163.com, bzhubaolin_2000@163.com, ctracywang422@gmail.com,dweidaoxin2009@126.com
Keywords: Recycled Asphalt Material, High Blending Ration of RAP, Hot-sieving of Milling, Gradation of Recycled Material.
Cold-sieving of recycled materials: Break the mixture into pieces, take enough samples by using method of quartering, then do the sieving.
Hot-sieving (135℃~145℃) of recycled materials: Take enough sample by using method of quartering, do the sieving after pre-heating.
While it is sieving, roll the materials lightly to fully disperse agglomerate.
Then roll the materials lightly to fully disperse agglomerate.
Cold-sieving of recycled materials: Break the mixture into pieces, take enough samples by using method of quartering, then do the sieving.
Hot-sieving (135℃~145℃) of recycled materials: Take enough sample by using method of quartering, do the sieving after pre-heating.
While it is sieving, roll the materials lightly to fully disperse agglomerate.
Then roll the materials lightly to fully disperse agglomerate.
Online since: October 2023
Authors: Yusuf Mathiinul Hakim, Idha Royani, Mardiyanto Mardiyanto, Risfidian Mohadi
The achieved materials were characterized using SEM-EDX, XRD, FTIR, and BET analysis and then applied in cationic dye adsorption.
Nowadays, eco-friendly materials produced by household waste, agricultural products, marine products waste, and soil components have been widely improved as valuable adsorbents [10].
Experimental Section Materials and Instrumentations.
The economic aspect becomes a priority in discovering new functional materials.
Thanks for the instrumentation support from the Inorganic Materials and Complexes Laboratory of the Faculty of Mathematics and Natural Sciences, Sriwijaya University.
Nowadays, eco-friendly materials produced by household waste, agricultural products, marine products waste, and soil components have been widely improved as valuable adsorbents [10].
Experimental Section Materials and Instrumentations.
The economic aspect becomes a priority in discovering new functional materials.
Thanks for the instrumentation support from the Inorganic Materials and Complexes Laboratory of the Faculty of Mathematics and Natural Sciences, Sriwijaya University.
Online since: July 2012
Authors: Ali Bahari, R. Gholipur, Z. Khorshidi
Li, “Growth of a stacked silicon nitride / silicon oxide dielectric on Si(100)”, Journal of Vacuum Science and Technology B, 24 (2006) 2119
Li, “Roads to ultrathin silicon oxides”, Journal of Vacuum Science and Technology A, 23 (2005) 201
Schroder, “Semiconductor material and device characterization”, John Wiley & Sons, (2006)
Anthony, “High-k gate dielectrics: Current status and materials properties considerations”, Journal of Applied Physics, 89 (2001) 5243-5275
Nishide, “Material microcharacterization of sol–gel derived HfO2 thin films on silicon wafers”, Japanese Journal of Applied Physics, 43 (2004) 6992–6993
Li, “Roads to ultrathin silicon oxides”, Journal of Vacuum Science and Technology A, 23 (2005) 201
Schroder, “Semiconductor material and device characterization”, John Wiley & Sons, (2006)
Anthony, “High-k gate dielectrics: Current status and materials properties considerations”, Journal of Applied Physics, 89 (2001) 5243-5275
Nishide, “Material microcharacterization of sol–gel derived HfO2 thin films on silicon wafers”, Japanese Journal of Applied Physics, 43 (2004) 6992–6993
Online since: October 2014
Authors: Pavel Tesárek, Martin Lidmila, Tomáš Plachy, Zdeněk Prošek, Jaroslav Topič, Václav Nežerka
Thachil, Properties of polyvinyl alcohol cement pastes, Materials and Structures 41 (2008) 123-130.
Godard, Reinforcement of hydrated Portland cement with high molecular mass water-soluble polymers, Journal of Materials Science 42 (2007) 4858-4869.
Journal of Wuhan University of Technology-Mater.
Raki, Preparation and properties of calcium silicate hydrate-poly(vinyl alcohol) nanocomposite materials.
Němeček, Micromechanical properties of different materials on gypsum basis, Chemicke Listy, 106 (2012) s547-s548.
Godard, Reinforcement of hydrated Portland cement with high molecular mass water-soluble polymers, Journal of Materials Science 42 (2007) 4858-4869.
Journal of Wuhan University of Technology-Mater.
Raki, Preparation and properties of calcium silicate hydrate-poly(vinyl alcohol) nanocomposite materials.
Němeček, Micromechanical properties of different materials on gypsum basis, Chemicke Listy, 106 (2012) s547-s548.
TiO2 Nanotubes Modified with Polyelectrolyte Multilayers as a Drug Delivery and its Release Behavior
Online since: September 2013
Authors: Zhang Wang, Ping Li, Yi Rong Chen, Xiu Feng Xiao, Xiao Juan Yang
TiO2 nanotubes Modified with Polyelectrolyte Multilayers as a drug delivery and its release behavior
Xiao-juan Yang1,a, Zhang Wang 1,b, Ping Li 1,c, Yi-rong Chen1,d, Xiu-feng Xiao1,*
1College of Chemistry and Materials Science, Fujian Key Laboratory of Polymer Materials, Fujian Normal University, Fuzhou 350007, P.
Materials. 16(2004) ,1271-1293
Decher:submitted to Journal of Science , 277,( 1997) 1232-1237
Mohwald: submitted to Journal of Science, 282, (1998) 1111-1114
F: submitted to Journal of Materials Science and Engineering (2012),670-673 [10] J.
Materials. 16(2004) ,1271-1293
Decher:submitted to Journal of Science , 277,( 1997) 1232-1237
Mohwald: submitted to Journal of Science, 282, (1998) 1111-1114
F: submitted to Journal of Materials Science and Engineering (2012),670-673 [10] J.
Online since: October 2014
Authors: Wan You Zhang, Yao Li, Li Juan Xi, Hong Bin Lv
Materials Research Bulletin 47 (2012) 3670-3675
Journal of Hazardous Materials 239-240 (2012) 279-288
Journal of Colloid and Interface Science. 417 (2014) 356-368
Materials Chemistry. 3 (1993) 883-888
Materials Chemistry. 18(2006), 2567-2576
Journal of Hazardous Materials 239-240 (2012) 279-288
Journal of Colloid and Interface Science. 417 (2014) 356-368
Materials Chemistry. 3 (1993) 883-888
Materials Chemistry. 18(2006), 2567-2576
Online since: September 2011
Authors: Jia Ping Liu, Jian Zhong Liu, Zhi Qian Yang, Chang Feng Li, Hua Xin Zhou
Journal of Building Materials, Vol.4 (2001), p.79-83
Construction and Building Materials, Vol.21 (2007), p.539-545
Journal of Materials Science, Vol.44 (2009), p.1600-1606
Nanomechanical properties of cementitious materials[D].
Materials Science, Vol.58(2007),p.1-14
Construction and Building Materials, Vol.21 (2007), p.539-545
Journal of Materials Science, Vol.44 (2009), p.1600-1606
Nanomechanical properties of cementitious materials[D].
Materials Science, Vol.58(2007),p.1-14