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Online since: June 2023
Authors: Rosady Mulyadi, Asniawaty Kusno, Aan Kurniawan, Baharuddin Hamzah, Nurul Jamala, Taufik Ishak
Experiments
The absorption coefficient is the efficiency of materials on sound absorption, a common characteristic of building or sound insulation materials.
For natural sound absorptive materials, most materials were made in form of fiber, compacted as board or as flexible layers [12–14].
Adachi, The development of sound absorbing materials using natural bamboo fibers, High Performance Structures and Composites. (2002) 157–166
Sun, Sound absorption properties of ceramic hollow sphere structures with micro-sized open cell, Materials Letters. 134 (2014) 268–271
Fujita, Performance improvement of sound-absorbing materials using natural bamboo fibers and their application, in: High Perform.
For natural sound absorptive materials, most materials were made in form of fiber, compacted as board or as flexible layers [12–14].
Adachi, The development of sound absorbing materials using natural bamboo fibers, High Performance Structures and Composites. (2002) 157–166
Sun, Sound absorption properties of ceramic hollow sphere structures with micro-sized open cell, Materials Letters. 134 (2014) 268–271
Fujita, Performance improvement of sound-absorbing materials using natural bamboo fibers and their application, in: High Perform.
Online since: November 2007
Authors: C. Viljoen, Casparus J. Verbeek, K.L. Pickering
Corn gluten meal (CGM) has potential as a bioderived polymer for use in composite
materials.
Consolidated materials were obtained which showed increased resistance to cracking with higher urea concentration.
Experimental Materials Corn gluten meal was sourced in powder form (Avongold) from Penford NZ, Ltd., Auckland, New Zealand.
De Graaf: Journal of Biotechnology Vol. 79 (2000), p. 299-306
Averous: Journal of Macromolecular Science Vol. 44 (2004), p. 231-274
Consolidated materials were obtained which showed increased resistance to cracking with higher urea concentration.
Experimental Materials Corn gluten meal was sourced in powder form (Avongold) from Penford NZ, Ltd., Auckland, New Zealand.
De Graaf: Journal of Biotechnology Vol. 79 (2000), p. 299-306
Averous: Journal of Macromolecular Science Vol. 44 (2004), p. 231-274
Online since: August 2022
Authors: Vinayak Adimule, Basappa C. Yallur, Maalathi Challa, S.R. Usharani, M.R. Ambika
Journal of Science: Advanced Materials and Devices. 5, 2 (2020) 185-191
IOP Conference Series: Materials Science and Engineering. 872, 1 (2020) 012099
Journal of Materials Science: Materials in Electronics. 32, 9 (2021) 12164-12181
Journal of Materials Science: Materials in Electronics. 29, 10 (2018) 8535-8546
IOP Conference Series: Materials Science and Engineering. 434, 1 (2018) 012079
IOP Conference Series: Materials Science and Engineering. 872, 1 (2020) 012099
Journal of Materials Science: Materials in Electronics. 32, 9 (2021) 12164-12181
Journal of Materials Science: Materials in Electronics. 29, 10 (2018) 8535-8546
IOP Conference Series: Materials Science and Engineering. 434, 1 (2018) 012079
Online since: March 2011
Authors: A.A. Fernandes, H. Mata, M.P.L. Parente, Renato Natal Jorge, Robertt Valente
However, due to manufacturing difficulties and reproducibility, the industrial only recently began using cellular materials as "engineering materials".
These materials have been the subject of much research work.
Miller / International Journal of Mechanical Sciences 42 (2000) 729}754 [2] A.G.
Hanssen et al. / International Journal of Mechanical Sciences 44 (2002) 359–406 [3] MF Ashby et al., Metal foams: a design guide, Oxford, Butterworth-Heinemann, 2000
[7] Banhart, J., Manufacture, Progress in materials Science, 2001. 46: p. 559-632
These materials have been the subject of much research work.
Miller / International Journal of Mechanical Sciences 42 (2000) 729}754 [2] A.G.
Hanssen et al. / International Journal of Mechanical Sciences 44 (2002) 359–406 [3] MF Ashby et al., Metal foams: a design guide, Oxford, Butterworth-Heinemann, 2000
[7] Banhart, J., Manufacture, Progress in materials Science, 2001. 46: p. 559-632
Online since: April 2012
Authors: Yang Qiao, Xiu Li Fu, Xue Feng Yang
Mendez: Materials Science and Engineering A Vol. 399 (2005), p. 199-205
[2] W.
Bhadeshia: Materials Science and Engineering A Vol. 223 (1997), p. 64-77 [4] W.M.
Thomas: Metallurgical and Materials Transactions A Vol. 38A (2007), p. 1330-1336 [6] J.L.
Danninger: Journal of Materials Processing Technology Vol. 176 (2006), p. 62-69 [8] A.R.C.
Ridgway: Journal of Materials Processing Technology Vol. 200 (2008), p. 424-432 [9] HUANG Zhibin, ZHU Dongmei, LUO Fa, et al: Rare Metal Materials and Engineering Vol. 37 (2008), p.1411-1416
Bhadeshia: Materials Science and Engineering A Vol. 223 (1997), p. 64-77 [4] W.M.
Thomas: Metallurgical and Materials Transactions A Vol. 38A (2007), p. 1330-1336 [6] J.L.
Danninger: Journal of Materials Processing Technology Vol. 176 (2006), p. 62-69 [8] A.R.C.
Ridgway: Journal of Materials Processing Technology Vol. 200 (2008), p. 424-432 [9] HUANG Zhibin, ZHU Dongmei, LUO Fa, et al: Rare Metal Materials and Engineering Vol. 37 (2008), p.1411-1416
Online since: January 2014
Authors: Tomasz Tomaszewski, Janusz Sempruch
The loading range (max. 2 kN) will allow for testing the specimens in the small size range for most construction materials [18].
[6] Furuya Y., Notable size effects on very high cycle fatigue properties of high-strength steel, Materials Science and Engineering A 528 (2011) 5234-5240
A., Size effect in bending fatigue resistance of carbon and low-alloy steel and its prediction, Strength of Materials 10 (1978) 392-399
[17] Tomaszewski T., Sempruch J., Determination of the fatigue properties of aluminum alloy using mini specimen, Material Science Forum 726 (2012) 63-68
[18] Tomaszewski T., Sempruch J., Stand for fatigue tests of mini specimen under variable tensile, Materials XXIV Symposium on Fatigue and Fracture Mechanics, Institutional Publications University of Technology and Life Sciences in Bydgoszcz [in Polish] (2012) 147-148
[6] Furuya Y., Notable size effects on very high cycle fatigue properties of high-strength steel, Materials Science and Engineering A 528 (2011) 5234-5240
A., Size effect in bending fatigue resistance of carbon and low-alloy steel and its prediction, Strength of Materials 10 (1978) 392-399
[17] Tomaszewski T., Sempruch J., Determination of the fatigue properties of aluminum alloy using mini specimen, Material Science Forum 726 (2012) 63-68
[18] Tomaszewski T., Sempruch J., Stand for fatigue tests of mini specimen under variable tensile, Materials XXIV Symposium on Fatigue and Fracture Mechanics, Institutional Publications University of Technology and Life Sciences in Bydgoszcz [in Polish] (2012) 147-148
Online since: May 2015
Authors: Jie Lin, Jian Yan Wang, Hang Guo, Yu Ling Wu
It is found that the optimal proportion of SnO2 to graphene is 8:1 (wt%) for the electrospun composite materials.
Most commercial lithium-ion batteries use graphitic materials as anode material.
Zhang, Journal of Materials Chemistry A, 2 (2014) 10211-10217
Novoselov, Nature Materials, 6 (2007) 183-191
Hyeon, Advanced Functional Materials, 15 (2005) 1845-1850
Most commercial lithium-ion batteries use graphitic materials as anode material.
Zhang, Journal of Materials Chemistry A, 2 (2014) 10211-10217
Novoselov, Nature Materials, 6 (2007) 183-191
Hyeon, Advanced Functional Materials, 15 (2005) 1845-1850
Online since: January 2006
Authors: Ming Guo Her, Long Jyi Yeh, Tian Syung Lan, Kuei Shu Hsu, Tung Te Chu
Nomenclature
a = average volume of material machined per unit part.
Acknowledgement Financial support for this work was provided by the National Science Council Taiwan, R.O.C., under the contracts of NSC91-2212-E-244-004 and NSC93-2212-E237-007.
Lan: The optimal control of material removal rate with fixed tool life and speed limitation, Journal of Materials Processing Technology, Vol. 121 (2002), No. 2, pp. 238-242
Li: Applications of virtual manufacturing in materials processing, Journal of Materials Processing Technology, Vol. 113 (2001), pp. 416-423
Chang: Design and implementation for maximum metal removal-rate control of a constant turning-force system, Journal of Materials Processing Technology, Vol. 57 (1996), pp. 351-359
Acknowledgement Financial support for this work was provided by the National Science Council Taiwan, R.O.C., under the contracts of NSC91-2212-E-244-004 and NSC93-2212-E237-007.
Lan: The optimal control of material removal rate with fixed tool life and speed limitation, Journal of Materials Processing Technology, Vol. 121 (2002), No. 2, pp. 238-242
Li: Applications of virtual manufacturing in materials processing, Journal of Materials Processing Technology, Vol. 113 (2001), pp. 416-423
Chang: Design and implementation for maximum metal removal-rate control of a constant turning-force system, Journal of Materials Processing Technology, Vol. 57 (1996), pp. 351-359
Online since: July 2012
Authors: Nor Diyana Abdul Aziz, Nurhanna Badar, Norlida Kamarulzaman, Abdul Rahman Noor Azreen, Mustaffa Nur Amalina
Antonioli: Journal of Sol-Gel Science and Technology Vol. 13 (1998), p. 667–671
Wu: Materials Letters Vol. 59 (2005), p. 804–807
Chen: Materials Research Bulletin Vol. 36 (2001), p. 1057–1064
Wu: Materials Chemistry and Physics Vol. 92 (2005), p. 600–603
Isa: International Journal of the Physical Sciences Vol. 5 (2010), p. 748-752.
Wu: Materials Letters Vol. 59 (2005), p. 804–807
Chen: Materials Research Bulletin Vol. 36 (2001), p. 1057–1064
Wu: Materials Chemistry and Physics Vol. 92 (2005), p. 600–603
Isa: International Journal of the Physical Sciences Vol. 5 (2010), p. 748-752.
Online since: March 2010
Authors: Qing Sen Meng, N. Zhang, S.P. Chen
Chen
Department of Material Science and Engineering, Taiyuan University of Technology,
Taiyuan 030024, China
a
mengqingsen@263.net, bgiftzn@163.com
Keywords: Field-activated; Combustion synthesis; In-situ; FGMs; TiC; TiAl
Abstract.
In this paper, the synthesis of four-layered functionally graded materials (FGMs) samples of (TiC)pNi/TiAl with titanium substrate by field-activated and pressure-assisted synthesis process (FAPAS) was investigated.
Experimental Materials The starting materials used in this research include powders of Al (99.5% purity, 45 µm in average size), Ti (99.99% purity, 10µm in average size), graphite (99.9% purity, 60 nm in average size) and Ni (99.9% purity, 45 µm in average size).
Munir: Journal of Alloys and Compounds, Vol. 476 (2008), p. 889-893 [11] H.B.
Huntington, in: Diffusion Processes in Advanced Technological Materials, edtied by A.
In this paper, the synthesis of four-layered functionally graded materials (FGMs) samples of (TiC)pNi/TiAl with titanium substrate by field-activated and pressure-assisted synthesis process (FAPAS) was investigated.
Experimental Materials The starting materials used in this research include powders of Al (99.5% purity, 45 µm in average size), Ti (99.99% purity, 10µm in average size), graphite (99.9% purity, 60 nm in average size) and Ni (99.9% purity, 45 µm in average size).
Munir: Journal of Alloys and Compounds, Vol. 476 (2008), p. 889-893 [11] H.B.
Huntington, in: Diffusion Processes in Advanced Technological Materials, edtied by A.