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Online since: June 2025
Authors: Nur Huda Dzulkarnain, Nur Athirah Mohd Taib, Affa Rozana Abdul Rashid, Wan Maisarah Mukhtar
Optoelectronics and Advanced Materials- Rapid Communications 14 (3-4) (2020) 118-122
Shaari, Nanocrystalline aluminum doped zinc oxide coated fiber optic for ultraviolet detection, Journal of Nonlinear Optical Physics & Materials 22 (03), 1350037
Optoelectronics and Advanced Materials-Rapid Communications, 18(May-June 2024), 217-222
Huang et al., Dye-Sensitized Titanium Dioxide For Gas Detection, Materials Science Research Journal, 8(3)(2014), 227-241
Journal of Electronic Materials, 43 (2013)
Shaari, Nanocrystalline aluminum doped zinc oxide coated fiber optic for ultraviolet detection, Journal of Nonlinear Optical Physics & Materials 22 (03), 1350037
Optoelectronics and Advanced Materials-Rapid Communications, 18(May-June 2024), 217-222
Huang et al., Dye-Sensitized Titanium Dioxide For Gas Detection, Materials Science Research Journal, 8(3)(2014), 227-241
Journal of Electronic Materials, 43 (2013)
Online since: April 2012
Authors: Xue Ping Zhang, Xiao Jin Xu, Li Qiang Ding
Journal of Materials Processing Technology, Vol. 150, (2004), p.116-123
Journal of Engineering Manufacture, Vol. 220, (2006), p.1217-1222
[7] Y.B.Guo, S.Anurag, in: Finite element modeling of random multiphase materials for micromachining.
International Journal of Impact Engineering, Vol. 25, (2001), p.715-733
Materials Science and Engineering, (1968), p.121-137.
Journal of Engineering Manufacture, Vol. 220, (2006), p.1217-1222
[7] Y.B.Guo, S.Anurag, in: Finite element modeling of random multiphase materials for micromachining.
International Journal of Impact Engineering, Vol. 25, (2001), p.715-733
Materials Science and Engineering, (1968), p.121-137.
Online since: July 2020
Authors: Retno Wulandari, Sunomo Sunomo, Galih Adhi Kurniawan, Agus Dwi Putra, Andoko Andoko
To resolve damage to the knee joint, a replacement bone implant was needed with materials that match the characteristics of the human body.
Most implant materials were derived from biomaterials that have the essence of supporting medical applications.
Saini, Implant biomaterials: A comprehensive review, World Journal of Clinical Cases, 3 (2015) 1
Murr et al., Microstructure and mechanical behavior of Ti–6Al–4V produced by rapid-layer manufacturing, for biomedical applications, Journal of the Mechanical Behavior of Biomedical Materials, 2, (2009) 20–32
Pityana, Microstructures, hardness and bioactivity of hydroxyapatite coatings deposited by direct laser melting process, Materials Science and Engineering. 43 (2014) 189–198
Most implant materials were derived from biomaterials that have the essence of supporting medical applications.
Saini, Implant biomaterials: A comprehensive review, World Journal of Clinical Cases, 3 (2015) 1
Murr et al., Microstructure and mechanical behavior of Ti–6Al–4V produced by rapid-layer manufacturing, for biomedical applications, Journal of the Mechanical Behavior of Biomedical Materials, 2, (2009) 20–32
Pityana, Microstructures, hardness and bioactivity of hydroxyapatite coatings deposited by direct laser melting process, Materials Science and Engineering. 43 (2014) 189–198
Online since: May 2013
Authors: Louis Etienne Denaud, Yann Landon, John Le Dref, Gilles Dessein, Florent Eyma
However, drilling composite materials can produce defects over the entry, the exit and the wall of the drilled hole.
Materials 2.1.
Workpiece materials and machine used The composite materials T700-M21 and T800-M21 are laminates reinforced with carbon fibres (T700 or T800) within a thermosetting resin made of epoxy M21.
Piquet, « Study into causes of damage to carbon epoxy composite material during the drilling process », International Journal of Machining and Machinability of Materials, Vol. 3, No.3/4, p. 309-325, 2008
[8] P.Rahmé, Y.Landon, P.Lagarrigue, F.Lachaud, R.Piquet, « Drilling thick composite materials using large diameter drills», International Journal of Machining and Machinability of Materials, vol.10, 202-221, 2011
Materials 2.1.
Workpiece materials and machine used The composite materials T700-M21 and T800-M21 are laminates reinforced with carbon fibres (T700 or T800) within a thermosetting resin made of epoxy M21.
Piquet, « Study into causes of damage to carbon epoxy composite material during the drilling process », International Journal of Machining and Machinability of Materials, Vol. 3, No.3/4, p. 309-325, 2008
[8] P.Rahmé, Y.Landon, P.Lagarrigue, F.Lachaud, R.Piquet, « Drilling thick composite materials using large diameter drills», International Journal of Machining and Machinability of Materials, vol.10, 202-221, 2011
Online since: October 2008
Authors: M.Y. Debili, M. Draissia, H. Bedboudi, A. Bourbia
Introduction
Nowadays, all research in miniaturized traditional materials with performed or new properties
for wide applications are being generally extended to nanotechnology fields.
But the materials properties are always significantly determined by the real microstructure characteristics of the materials.
Thus, the first step taken in the design of materials is that of getting the detailed information on the material's microstructure, for instance using the diffraction analysis, which is perhaps the most powerful technique used to investigate the microstructure characteristics [1].
Debili, Journal of Metastable and Nanocrystalline Materials 22 (2004), p. 121
Sc. ( Indian Academy of Sciences), Vol. 23 No. 4, Aug. (2000), p. 313.
But the materials properties are always significantly determined by the real microstructure characteristics of the materials.
Thus, the first step taken in the design of materials is that of getting the detailed information on the material's microstructure, for instance using the diffraction analysis, which is perhaps the most powerful technique used to investigate the microstructure characteristics [1].
Debili, Journal of Metastable and Nanocrystalline Materials 22 (2004), p. 121
Sc. ( Indian Academy of Sciences), Vol. 23 No. 4, Aug. (2000), p. 313.
Online since: February 2019
Authors: Nikita S. Deryabin
The refractory alloys, being difficult-to-form materials in the narrow temperature range should provide requirement grain size and mechanical behavior according technological documents in finished products.
[5] Dayong, C., Wenchang, L., Rongbin, L., Weihong, Z. and Mei, Y. (2004) ‘On the accuracy of the X-ray diffraction quantitative phases analysis method in Inconel 718’, J. of Materials Science, Vol. 39, No. 2, pp.719–721
[6] Ganesh, P., Kaul, R., Paul, C.P., Tiwari, P., Rai, S.K., Prasad, R.C. and Kukreja, L.M. (2010) ‘Fatigue and fracture toughness characteristics of laser rapid manufactured Inconel 625 structures’, Materials Science and Engineering A, Vol. 527, Nos. 29–30, pp.7490–7497
[7] Khana, Z.A., Hadfield, M., Tobe, S. and Wang, Y. (2005) ‘Ceramic rolling elements with ring crack defects – a residual stress approach’, Materials Science and Engineering A, Vol. 404, Nos. 1–2, pp.221–226
Armstrong, Dislocation-mechanics-based constitutive relations for material dynamics calculations, Journal of Applied Physics. 61 (5) (1987) 1816-1825
[5] Dayong, C., Wenchang, L., Rongbin, L., Weihong, Z. and Mei, Y. (2004) ‘On the accuracy of the X-ray diffraction quantitative phases analysis method in Inconel 718’, J. of Materials Science, Vol. 39, No. 2, pp.719–721
[6] Ganesh, P., Kaul, R., Paul, C.P., Tiwari, P., Rai, S.K., Prasad, R.C. and Kukreja, L.M. (2010) ‘Fatigue and fracture toughness characteristics of laser rapid manufactured Inconel 625 structures’, Materials Science and Engineering A, Vol. 527, Nos. 29–30, pp.7490–7497
[7] Khana, Z.A., Hadfield, M., Tobe, S. and Wang, Y. (2005) ‘Ceramic rolling elements with ring crack defects – a residual stress approach’, Materials Science and Engineering A, Vol. 404, Nos. 1–2, pp.221–226
Armstrong, Dislocation-mechanics-based constitutive relations for material dynamics calculations, Journal of Applied Physics. 61 (5) (1987) 1816-1825
Online since: January 2013
Authors: Fang Zhu, Jun Fang Wei, He Zhang
The monodisperse spherical particles used as raw materials to prepare photonic crystal materials and multifunctional catalysts with core-shell structure have attracted wide attention and become the research hotspot in chemistry, materials science, and many other disciplines and cross-cutting areas [5].
Experimental Materials and Instrumentation.
Vol.72 (2004), p.175 [8] G.H Bogush and C.F Zukoski IV: Journal of Colloid And Interface Science.
Journal of Colloid and Interface Science.
Electronic Components & Materials.
Experimental Materials and Instrumentation.
Vol.72 (2004), p.175 [8] G.H Bogush and C.F Zukoski IV: Journal of Colloid And Interface Science.
Journal of Colloid and Interface Science.
Electronic Components & Materials.
Online since: August 2014
Authors: Zuhailawati Hussain, Anasyida Abu Seman, Laila Masrur Mohd Nasir, Brij Kumar Dhindaw
Spim Jr., A.Garcia, Modeling of solidification in twin-roll strip casting, Journal of Materials Processing Technology Volume 102, Issues 1–3 (2000) 33–39
[3] Bo Wang, Jie Yu Zhang, Xiang Mei Li, Wei Hua Qi, Simulation of micro structure in twin-roll casting strip, Computational Materials Science 49 (2010) 135-S139
[4] Mingbo Yang, Fusheng Pan, Analysis about forming mechanism of equiaxed crystal zone for 1Cr18Ni9Ti stainless steel twin roll thin strip, Journal of materials processing technology 209 (2009) 2203-2211
Hunt, Micro structure and texture evolution after twin roll casting and subsequent cold rolling of Al-Mg-Mn aluminum alloys, Journal of Materials Processing Technology (2005) 156-163
[8] Jian Zeng, Roger Koitzsch, Herbert Pfeifer, Bernd Friedrich, Numerical simulation of the twin-roll casting process of magnesium alloy strip, Journal of materials processing technology 209 (2009) 2321-2328
[3] Bo Wang, Jie Yu Zhang, Xiang Mei Li, Wei Hua Qi, Simulation of micro structure in twin-roll casting strip, Computational Materials Science 49 (2010) 135-S139
[4] Mingbo Yang, Fusheng Pan, Analysis about forming mechanism of equiaxed crystal zone for 1Cr18Ni9Ti stainless steel twin roll thin strip, Journal of materials processing technology 209 (2009) 2203-2211
Hunt, Micro structure and texture evolution after twin roll casting and subsequent cold rolling of Al-Mg-Mn aluminum alloys, Journal of Materials Processing Technology (2005) 156-163
[8] Jian Zeng, Roger Koitzsch, Herbert Pfeifer, Bernd Friedrich, Numerical simulation of the twin-roll casting process of magnesium alloy strip, Journal of materials processing technology 209 (2009) 2321-2328
Online since: August 2010
Authors: M.S. Ahmad Yasir, C.H. Che Hassan, A.G. Jaharah, A.Y. Zaid, M. Norhamidi, A.I. Gusri
Furthermore these materials can catch fire at
temperature 6100 °C and the only material can burn in pure nitrogen [2].
Yamane, "An overview of the machinability of earoengine alloys," Journal of Materials Processing Technology, pp. 233-253, 2003
Che Haron, "Tool life and surface integrity in turning titanium alloy," Journal of Materials Processing Technology, pp. 231-237, 2001
Adamiak, "Wear of PVD-coated solid carbide end mills in dry high-speed cutting," Journal of Materials Processing Technology, pp. 422-426, 2004
Sanchez, "Experimental and numerical investigation of the effect of spray cutting fluids in high speed milling," Journal of Materials Processing Technology, 2005
Yamane, "An overview of the machinability of earoengine alloys," Journal of Materials Processing Technology, pp. 233-253, 2003
Che Haron, "Tool life and surface integrity in turning titanium alloy," Journal of Materials Processing Technology, pp. 231-237, 2001
Adamiak, "Wear of PVD-coated solid carbide end mills in dry high-speed cutting," Journal of Materials Processing Technology, pp. 422-426, 2004
Sanchez, "Experimental and numerical investigation of the effect of spray cutting fluids in high speed milling," Journal of Materials Processing Technology, 2005
Online since: June 2014
Authors: B.T. Hang Tuah Baharudin, Shamsuddin Sulaiman, G.H. Majzoobi, M.A. Azmah Hanim, J. Nemati
Segal, Materials Science and Engineering A 197 (1995) 157
Langdon, Progress in Materials Science 51 (2006) 881
Lim, Materials Science and Engineering A 526 (2009) 84
Segal, Materials Science and Engineering A 386 (2004) 269
Yoon, Materials Science and Engineering A 527 (2010) 7927
Langdon, Progress in Materials Science 51 (2006) 881
Lim, Materials Science and Engineering A 526 (2009) 84
Segal, Materials Science and Engineering A 386 (2004) 269
Yoon, Materials Science and Engineering A 527 (2010) 7927