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Online since: September 2016
Authors: Vincenzo Piluso, Paolo Castaldo, Elide Nastri
Journal of Structural Engineering ASCE 1999; 125(8): 910–20
Journal of Structural Engineering, ASCE 2000; 126 (3): 353–60 [5] Lay, M.
“User’s Manual: Volume III: Materials”, 2010
Engrg., Norwegian University of Science and Technology, Trondheim, Norway
Journal of Structural Engineering ASCE 1999;125(8): 921–9
Journal of Structural Engineering, ASCE 2000; 126 (3): 353–60 [5] Lay, M.
“User’s Manual: Volume III: Materials”, 2010
Engrg., Norwegian University of Science and Technology, Trondheim, Norway
Journal of Structural Engineering ASCE 1999;125(8): 921–9
The Effect of Surface Treatment on Composites of Water Hyacinth Natural Fiber Reinforced Epoxy Resin
Online since: January 2013
Authors: Arinta Difandra, Alia Badra Pitaloka, Asep Handaya Saputra
Introduction
The development and utilization of composite materials is increased.
This is indicated by using of composite materials in various application.
Because of the mechanical and physical properties, water hyacinth can also be used as a base material for composite materials [3].
The fracture part of materials were observed by SEM and to know the bonding between the water hyacinth and epoxy resin.
Chuayjuljt, Using Water-Hyacinth Fiber as a Filler in Natural Rubber, Journal of Science Research 26(1) (2001)
This is indicated by using of composite materials in various application.
Because of the mechanical and physical properties, water hyacinth can also be used as a base material for composite materials [3].
The fracture part of materials were observed by SEM and to know the bonding between the water hyacinth and epoxy resin.
Chuayjuljt, Using Water-Hyacinth Fiber as a Filler in Natural Rubber, Journal of Science Research 26(1) (2001)
Online since: March 2012
Authors: Cheng Tao Yang, Yang Gao, Jing Wan
Lee, et al:Progress in Materials Science, Vol. 48(4) (2003), p.1–97
Sun:Journal of Applied Physics, Vol.90(6) (2001) , p.2970–2974
Solterbeck, et al:Materials Science and Engineering B Vol. 94, (2002), p. 229 – 236
Piorra:Materials Research Bulletin, Vol. 36, (2001), p. 2563–2575
Cross,M.Fujiki,M.Tsukada: Journal of Materials Research.
Sun:Journal of Applied Physics, Vol.90(6) (2001) , p.2970–2974
Solterbeck, et al:Materials Science and Engineering B Vol. 94, (2002), p. 229 – 236
Piorra:Materials Research Bulletin, Vol. 36, (2001), p. 2563–2575
Cross,M.Fujiki,M.Tsukada: Journal of Materials Research.
Online since: June 2010
Authors: A.M. Butt, Syed Waheed-ul-Haq
Both can be formulated to
accept anisotropic materials such as fiber reinforced plastics used in filament winding.
Morozov: Mechanics and Analysis of Composite Materials, Elsevier Science. (2001), pp. 365-392 [3] J.P.
Wu: Optimal Design of Filament Wound Composite Pressure Vessels, Journal of Mechanics of Composite Materials, Vol. 41 (2005), No. 4
Shen: A Filament Wound Structure Technology Overview, Journal of Materials Chemistry and Physics: Vol. 42 (1995), pp. 96-100 [12] Y.
Kattan: Mechanics of Composite Materials with MATLAB, Springer Publications (2005)
Morozov: Mechanics and Analysis of Composite Materials, Elsevier Science. (2001), pp. 365-392 [3] J.P.
Wu: Optimal Design of Filament Wound Composite Pressure Vessels, Journal of Mechanics of Composite Materials, Vol. 41 (2005), No. 4
Shen: A Filament Wound Structure Technology Overview, Journal of Materials Chemistry and Physics: Vol. 42 (1995), pp. 96-100 [12] Y.
Kattan: Mechanics of Composite Materials with MATLAB, Springer Publications (2005)
Online since: February 2007
Authors: Ping Yang, Paul K. Chu, An Sha Zhao, Nan Huang, Guo Jiang Wan
Of Advanced Technology of Materials, Education Ministry, Southwest Jiaotong University,
Chengdu 610031, China
a Department of Physics and Materials Science, City University of Hong Kong, Tat Chee Avenue,
Kowloon, Hong Kong, China
a
nhuang@263.net b paul.chu@cityu.edu.hk
Keywords: platelets adhesion; blood compatibility; plasma immersion; ion implantation; silicon
nitride, BioMEMS
Abstract: Ammonia implanted silicon was performed by using plasma immersion ion implantation
(PIII) to form a silicon nitride films.
Introduction Most of biomedical microelectromechanical systems (BioMEMS) are based on silicon integrated circuit technology, and silicon nitride or oxynitride films usually are formed on the surface as protective or functional films, but the biocompatibility of these materials are relatively unknown[1,2].
Since blood is often the first tissue that contact with the surface of a BioMEMS, a good understanding of the surface blood-compatibility of such silicon-based materials is of importance for invasive applications of the medical devices.
Chu, Journal of Vacuum Science and Technology A 23(5)( 2005 ), p. 1346 [4] P.
Gibbins, Journal of Cell Science. 117 (2004), p.3415
Introduction Most of biomedical microelectromechanical systems (BioMEMS) are based on silicon integrated circuit technology, and silicon nitride or oxynitride films usually are formed on the surface as protective or functional films, but the biocompatibility of these materials are relatively unknown[1,2].
Since blood is often the first tissue that contact with the surface of a BioMEMS, a good understanding of the surface blood-compatibility of such silicon-based materials is of importance for invasive applications of the medical devices.
Chu, Journal of Vacuum Science and Technology A 23(5)( 2005 ), p. 1346 [4] P.
Gibbins, Journal of Cell Science. 117 (2004), p.3415
Online since: October 2014
Authors: Lei Fang, De Hua Deng, Jian Wei Peng, Yong Wang, Qing Tian
Journal of Nanjing University of Science and Technology, 2005,29(4)
Influence of loading rate on mechanical properties of cement asphalt mortars [J].journal of building materials, 2010, 13 (2): 187-192
SHPB technique [J] Ordnance material science and engineering 1991, 11
Journal of building material, 2010, 13(4): 483-486+528
Journal of PLA University of Science and Technology, 2007,8(6)
Influence of loading rate on mechanical properties of cement asphalt mortars [J].journal of building materials, 2010, 13 (2): 187-192
SHPB technique [J] Ordnance material science and engineering 1991, 11
Journal of building material, 2010, 13(4): 483-486+528
Journal of PLA University of Science and Technology, 2007,8(6)
Online since: January 2013
Authors: Fu Xia Wang
Introduction
Portland cement is one of the most common and widely used construction materials.
Pal:Mechanical characterization of commercially made carbonfibre-reinforced polymethylmethacrylate.Journal of Biomedical Materials Research, 20 (6) (1986), pp. 817–826 [3] J.M.
Lo:Effect of MMA-g-UHMWPE grafted fiber on mechanical properties of acrylic bone cement.Journal of Biomedical Materials Research, 38 (4) (1997), pp. 361–369 [4] L.D.T.
Kitamura et al: Bioactive polymethyl methacrylate-based bone cement: comparison of glass beads, apatite- and wollastonite-containing glass ceramic, and hydroxyapatite fillers on mechanical and biological properties.Journal of Biomedical Materials Research, 51 (2) (2000), pp. 258–272 [7] P.
Dental Materials, 21 (4) (2005), pp. 365–370 [8] R.
Pal:Mechanical characterization of commercially made carbonfibre-reinforced polymethylmethacrylate.Journal of Biomedical Materials Research, 20 (6) (1986), pp. 817–826 [3] J.M.
Lo:Effect of MMA-g-UHMWPE grafted fiber on mechanical properties of acrylic bone cement.Journal of Biomedical Materials Research, 38 (4) (1997), pp. 361–369 [4] L.D.T.
Kitamura et al: Bioactive polymethyl methacrylate-based bone cement: comparison of glass beads, apatite- and wollastonite-containing glass ceramic, and hydroxyapatite fillers on mechanical and biological properties.Journal of Biomedical Materials Research, 51 (2) (2000), pp. 258–272 [7] P.
Dental Materials, 21 (4) (2005), pp. 365–370 [8] R.
Online since: September 2013
Authors: Abdul Razak Daud, Muhammad Azmi Abd Hamid, Dewi Suriyani Che Halin, Ibrahim Abu Talib, Haroon Haiza
Hamid2,e
1Center of Excellence Geopolymer & Green Technology (CEGeoGTech), School of Materials Engineering, Universiti Malaysia Perlis, (UniMAP), 02600 Jalan Kangar-Arau, Perlis, Malaysia
2School of Applied Physics, Faculty of Science and Technology, Universiti Kebangsaan Malaysia, 43600 UKM Bangi, Selangor, Malaysia
a dewisuriyani@unimap.edu.my (corresponding author), bhaizaharoon@unimap.edu.my, cibatal@ukm.my, dard@ukm.my, eazmi@ukm.my
Keywords: Current transport, Mechanism, Cuprous oxide, Photoelectrochemical cell
Abstract.
Journal Applied.
Solar Energy Materials & Solar Cells 73 (2002) 67
Journal Material Science: Material Electron 17 (2006) 519
Solar Energy Materials & Solar Cells 93 (2009) 153.
Journal Applied.
Solar Energy Materials & Solar Cells 73 (2002) 67
Journal Material Science: Material Electron 17 (2006) 519
Solar Energy Materials & Solar Cells 93 (2009) 153.
Online since: February 2025
Authors: Nominerdene Battulga, Keesam Shin, Minsuk Lee
Hayes, “Analysis of XPS spectra of Fe2+ and Fe3+ ions in oxide materials”, Applied Surface Science, 254 (2007) 2441-2449
Materials 16 (2023) 4466
Morcillo, “Marine Atmospheric Corrosion of Carbon Steel: A Review”, Materials, 10 (2017) 406
Ser.: Materials Science Engineering, (2015) Vol. 114
Rabiu, “Evaluation of Mechanical Properties of Medium Carbon Steel Quenched in Water and Oil”, Journal of Minerals and Materials Characterization and Engineering, (2012) pp.859-862
Materials 16 (2023) 4466
Morcillo, “Marine Atmospheric Corrosion of Carbon Steel: A Review”, Materials, 10 (2017) 406
Ser.: Materials Science Engineering, (2015) Vol. 114
Rabiu, “Evaluation of Mechanical Properties of Medium Carbon Steel Quenched in Water and Oil”, Journal of Minerals and Materials Characterization and Engineering, (2012) pp.859-862
Online since: May 2023
Authors: Norazila Ibrahim, Rozilah Rajmi, Nur Azeni Mohamad Rusop
Effect of Ga Substitution at Mn Site on Electroresistance Behavior in Monovalent Doped La0.85Ag0.15Mn1-xGaxO3 Manganites
Norazila Ibrahim1,a*, Nur Azeni Mohamad Rusop1,b, Rozilah Rajmi2,c
1School of Physics and Material Studies, Faculty of Applied Sciences, Universiti Teknologi MARA, 40450 Shah Alam, Selangor, Malaysia
2Faculty of Applied Sciences, Universiti Teknologi MARA, Cawangan Perlis, 02600 Arau, Perlis, Malaysia
anoraz954@salam.uitm.edu.my, bazeni_n@yahoo.com, crozilahrajmi@uitm.edu.my
Keywords: Manganites; Electrical and Magnetic Properties; Electroresistance.
The main expected outcome is new manganite-based monovalent doped magnetic sensor materials with high ER values at room temperature as well as new knowledge in elucidating the effect of Ga3+ substitution on occurrence of ER effects in the manganite.
Materials and Methods Preparations of La0.85Ag0.15Mn1-xGaxO3 manganite.
[2] Srivastava SK, Kar M, Ravi S (2008), Effect of Al Substitution on La0.85Ag0.15MnO3 double exchange ferromagnetic compound, Materials Science and Engineering B 147, 84-89
[5] Ibrahim N, Yahya AK, Rajput SS, Keshri S, Talari MK (2011), Double metal-insulator peaks and effect of Sm3+ substitution on magnetic and transport properties of hole-doped La0.85Ag0.15MnO3, Journal of Magnetism and Magnetic Materials 323, 2179-2185
The main expected outcome is new manganite-based monovalent doped magnetic sensor materials with high ER values at room temperature as well as new knowledge in elucidating the effect of Ga3+ substitution on occurrence of ER effects in the manganite.
Materials and Methods Preparations of La0.85Ag0.15Mn1-xGaxO3 manganite.
[2] Srivastava SK, Kar M, Ravi S (2008), Effect of Al Substitution on La0.85Ag0.15MnO3 double exchange ferromagnetic compound, Materials Science and Engineering B 147, 84-89
[5] Ibrahim N, Yahya AK, Rajput SS, Keshri S, Talari MK (2011), Double metal-insulator peaks and effect of Sm3+ substitution on magnetic and transport properties of hole-doped La0.85Ag0.15MnO3, Journal of Magnetism and Magnetic Materials 323, 2179-2185