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Online since: July 2020
Authors: Ari Adi Wisnu, Azwar Manaf, Yana Taryana, D. Mahmudin, Yuyu Wahyu
Mahmudin1,c, Yuyu Wahyu1,d
and Azwar Manaf3*
1Research Center for Electronic and Telecommunication, Indonesian Institute of
Sciences, Bandung-Indonesia
2Centre for Science and Technology of Advanced Materials,
Kawasan Puspiptek Serpong, Tangerang Selatan15314, Indonesia
3Postgraduate Program of Materials Science Study, Department of Physics,
Faculty of Mathematics and Natural Sciences, Universitas Indonesia, Jakarta-Indonesia
ayanvirs@gmail.com; bdwisnuaa@gmail.com; cdradin@gmail.com; dyuyuwahyusr@gmail.com, *azwar@ui.ac.id
Keywords: Barium hexaferrite, La substitutes, crystal structure, magnetic properties, particle size distribution, microwave absorption, reflection loss.
Therefore, hexaferrite-based materials have been expanded the scope of their use in which the materials continue to be the object of research to date.
Niewa,” Morphology and magnetic properties of pressed barium hexaferrite BaFe12O19 materials”, Journal of Magnetism and Magnetic Materials 2017
Series: Materials Science and Engineering 92 (2015) 012006
[15] Wisnu Ari A,“Development of magnetic material La(1-y)BayFexMn1/2(1-x)Ti1/2(1-x)O3 (x= 0 - 1.0 and y= 0 – 1.0) system as for electromagnetic wave absorber“, dissertation 2014, Materials Science, Department of Physics, Faculty of Mathematics and Natural Sciences, Universitas Indonesia, Jakarta-Indonesia
Therefore, hexaferrite-based materials have been expanded the scope of their use in which the materials continue to be the object of research to date.
Niewa,” Morphology and magnetic properties of pressed barium hexaferrite BaFe12O19 materials”, Journal of Magnetism and Magnetic Materials 2017
Series: Materials Science and Engineering 92 (2015) 012006
[15] Wisnu Ari A,“Development of magnetic material La(1-y)BayFexMn1/2(1-x)Ti1/2(1-x)O3 (x= 0 - 1.0 and y= 0 – 1.0) system as for electromagnetic wave absorber“, dissertation 2014, Materials Science, Department of Physics, Faculty of Mathematics and Natural Sciences, Universitas Indonesia, Jakarta-Indonesia
Online since: March 2010
Authors: W.F. Fan, Zhong Mei Zhang, J.H. Li
Wierzbicki: Journal of Engineering Materials and Technology, 2004, 126 (3):
314-324
[3] W.F.
Li: Materials Science & Engineering A, 2008, 499 (1): 248-251 [4] J.H.
Fan: Materials Science & Engineering A, 2008, 499 (1): 200-203 [5] J.H.
Fan, Z.M.Zhang: Materials Science Forum, Vols. 628-629 (2009), p.541-546 [6] H.
Ding: Materials Science Forum, Vols.575-578 (2009), p.316-321
Li: Materials Science & Engineering A, 2008, 499 (1): 248-251 [4] J.H.
Fan: Materials Science & Engineering A, 2008, 499 (1): 200-203 [5] J.H.
Fan, Z.M.Zhang: Materials Science Forum, Vols. 628-629 (2009), p.541-546 [6] H.
Ding: Materials Science Forum, Vols.575-578 (2009), p.316-321
Online since: November 2012
Authors: Fei Xu, Min Ge Duan
Two kinds of Rohacell polymethacryimide foam, low density 51WF and high density 110WF, are chosen for the core materials.
Computational Materials Science. 2005, 32:252–260 [5] Serge Abrate.
Composites Science and Technology. 2006, 66:1336–47
Journal of Composite Materials. 1973,7: 448-464 [11] Z.
Journal of Applied Mechanics. 1980, 47(2):329-335
Computational Materials Science. 2005, 32:252–260 [5] Serge Abrate.
Composites Science and Technology. 2006, 66:1336–47
Journal of Composite Materials. 1973,7: 448-464 [11] Z.
Journal of Applied Mechanics. 1980, 47(2):329-335
Online since: February 2012
Authors: Dong Yan Ren, Xiao Hong Li, Zhi Hua Li
The impact strength of materials were tested by impact tester (provided by WUZHONG Company ,JB-5).
When the mass fraction of PUP is 15%, the results of the materials are best.
Journal of Central South University: Natural and Science,2007, 38(2):213-217(in Chinese)
European Polymer Journal,2005,41(10):2370-2379
Journal of Applied Polymer Science, 2006, 100(1): 323~328
When the mass fraction of PUP is 15%, the results of the materials are best.
Journal of Central South University: Natural and Science,2007, 38(2):213-217(in Chinese)
European Polymer Journal,2005,41(10):2370-2379
Journal of Applied Polymer Science, 2006, 100(1): 323~328
Online since: November 2019
Authors: Hanoca Hanoca, P.C. Sharath, H.V. Ramakrishna
In this study, contact stress and fatigue life of spur gear for different modules and for different materials were studied.
Comparison was done between Aluminium alloy and SAE materials.From the analysis, it was observed that SAE materials have consistently higher life than Aluminium alloys.
Module 3mm is having the least contact stress among the three modules for all three materials. 3.
PriamPillai, Spur Gear Contact Stress Analysis and Stress Reduction by Experiment Method, International Journal of Engineering Research and General Science, vol. 3, issue. 3, May-June, 2015
[5] Shaik Gulam Abul Hasan, Ganoju Sravan Kumar, Syeda Saniya Fatima, Finite Element Analysis and Fatigue Analysis Of Spur Gear Under Random Loading, International Journal Of Engineering Sciences & Research Technology, July, 2015
Comparison was done between Aluminium alloy and SAE materials.From the analysis, it was observed that SAE materials have consistently higher life than Aluminium alloys.
Module 3mm is having the least contact stress among the three modules for all three materials. 3.
PriamPillai, Spur Gear Contact Stress Analysis and Stress Reduction by Experiment Method, International Journal of Engineering Research and General Science, vol. 3, issue. 3, May-June, 2015
[5] Shaik Gulam Abul Hasan, Ganoju Sravan Kumar, Syeda Saniya Fatima, Finite Element Analysis and Fatigue Analysis Of Spur Gear Under Random Loading, International Journal Of Engineering Sciences & Research Technology, July, 2015
Online since: June 2013
Authors: Nicolae Balc, Vasile Adrian Ceclan, Sorin Grozav, Paul Bere, Cristina Stefana Borzan
Journal of Materials Processing Technology 125–126, (2002) 532–536
Journal of Materials Science & Engineering A (Switzerland) 2000; 279 (1–2):95–110
Journal of Engineering Materials and Technology 2001;123:423–9
International Journal of Mechanical Sciences 2002;44:899–914
International Journal of Mechanical Sciences 2001;43:1009–26
Journal of Materials Science & Engineering A (Switzerland) 2000; 279 (1–2):95–110
Journal of Engineering Materials and Technology 2001;123:423–9
International Journal of Mechanical Sciences 2002;44:899–914
International Journal of Mechanical Sciences 2001;43:1009–26
Online since: January 2013
Authors: Shu De Luo, Yu Jiao Xu
On one hand, it greatly reduces the conditions water pressure, on the other hand, it offsets the cutting shortage of pure water jet, and it is mainly used in cutting hard materials.
Some related studies indicate that it can cut more than 500 kinds of materials.
It can be used to cut marble, granite, ceramic, glass, cement component, etc, in the construction industry; to cut special materials (such as titanium alloy, carbon fire composite, laminated metal or reinforced plastic glass), plane blades, etc, in the aerospace industry; to cut a variety of non-metallic materials and composite materials, such as car glass, internal decoration board, rubber, plastic gas box, instrument panels, carpet, asbestos brake linings, etc, in the automobile manufacturing industry; to cut a variety of tank armor plate, crawler, bulletproof glass, car body, turret, firearms, etc, in ordnance industry; to cut something that hard to be cut such as abrasion resistant white iron castings [6].
J. (1963) [3] Stoff H: submitted to Journal of Fluid Mechanics (1980) [4] G.S.
Wang etc: submitted to Journal of PLA University of Science and Technology (2006) [5] B.
Some related studies indicate that it can cut more than 500 kinds of materials.
It can be used to cut marble, granite, ceramic, glass, cement component, etc, in the construction industry; to cut special materials (such as titanium alloy, carbon fire composite, laminated metal or reinforced plastic glass), plane blades, etc, in the aerospace industry; to cut a variety of non-metallic materials and composite materials, such as car glass, internal decoration board, rubber, plastic gas box, instrument panels, carpet, asbestos brake linings, etc, in the automobile manufacturing industry; to cut a variety of tank armor plate, crawler, bulletproof glass, car body, turret, firearms, etc, in ordnance industry; to cut something that hard to be cut such as abrasion resistant white iron castings [6].
J. (1963) [3] Stoff H: submitted to Journal of Fluid Mechanics (1980) [4] G.S.
Wang etc: submitted to Journal of PLA University of Science and Technology (2006) [5] B.
Online since: December 2014
Authors: Bin Wen, Shan Yao, Lan Xin Wang
Materials with a Poisson’s ratio around 1/3 were ductile, while materials with a Poisson’s ratio far less than 1/3 were brittle [30].
Advanced Engineering Materials. 6 (2004) 299
Advanced Engineering Materials. 6 (2004) 74
Materials Science and Engineering A. 548 (2012) 64
Materials Science and Engineering. 735 (2012)146
Advanced Engineering Materials. 6 (2004) 299
Advanced Engineering Materials. 6 (2004) 74
Materials Science and Engineering A. 548 (2012) 64
Materials Science and Engineering. 735 (2012)146
Online since: November 2018
Authors: Hamimah Abdul Rahman, Shahrin Hisham Amirnordin, Mohd Hafiz Mohd Ali, Najeed Ahmed Khan
Journal of Materials Science. 52(22) (2017) 12923–12959
Journal of Materials Science. 52(22) (2017) 12923–12959
Journal of Applied Polymer Science, 131(22) (2014) n/a-n/a
Journal of Fire Sciences, 13(2) (1995) 104–126
Journal of Composite Materials, 43(26) (2009) 3231–3238
Journal of Materials Science. 52(22) (2017) 12923–12959
Journal of Applied Polymer Science, 131(22) (2014) n/a-n/a
Journal of Fire Sciences, 13(2) (1995) 104–126
Journal of Composite Materials, 43(26) (2009) 3231–3238
Online since: October 2012
Authors: R. Ezhil Vizhi, D. Rajan Babu, M. Lakshmipriya
NLO properties of semi-organic materials are currently under intense investigation, triggered by potential applications in NLO due to their incorporated advantages of both organic and inorganic crystals [7].
Ramasamy , Synthesis, crystal growth and characterization of novel semiorganic nonlinear optical crystal: Dichlorobis(l-proline)zinc(II), Materials Chemistry and Physics 113 (2009) 727–733 [2] M.
Fesenko , Optical, structural and microhardness properties of KDP crystals grown from urea-doped solutions, Materials Research Bulletin Volume 43 (2008) 2778–2789
Ramalingom, Growth, structural and optical studies of pure and bisthiourea zinc chloride doped potassium dihydrogen phosphate single crystals, World Journal of Science and Technology 1(3) 2011 01-06
[6] Keyan Li, Xingtao Wang, Fangfang Zhang, and Dongfeng Xue , Electronegativity Identification of Novel Superhard Materials, Phys.
Ramasamy , Synthesis, crystal growth and characterization of novel semiorganic nonlinear optical crystal: Dichlorobis(l-proline)zinc(II), Materials Chemistry and Physics 113 (2009) 727–733 [2] M.
Fesenko , Optical, structural and microhardness properties of KDP crystals grown from urea-doped solutions, Materials Research Bulletin Volume 43 (2008) 2778–2789
Ramalingom, Growth, structural and optical studies of pure and bisthiourea zinc chloride doped potassium dihydrogen phosphate single crystals, World Journal of Science and Technology 1(3) 2011 01-06
[6] Keyan Li, Xingtao Wang, Fangfang Zhang, and Dongfeng Xue , Electronegativity Identification of Novel Superhard Materials, Phys.