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Online since: March 2007
Authors: Richard Dobedoe, Jakob Kübler, M. Lugovy, V. Slyunyayev, N. Orlovskaya, Gurdial Blugan
Dobedoe
4
1
Empa, Materials Science and Technology, Laboratory for High Performance Ceramics,
Ueberlandstrasse 129, 8600 Duebendorf, Switzerland
2
Institute for Problems of Materials Science, 3 Krzhizhanovskii Street, 03142 Kiev, Ukraine
3
Michigan Technological University, Department of Materials Science and Engineering,
1400 Townsend Drive Houghton, MI 49931, USA
4
University of Warwick, Department of Physics, Centre for Advanced Materials, Coventry CV4 7AL,
United Kingdom
a
jakob.kuebler@empa.ch
Keywords: silicon nitride, composite, laminate, residual stress, fracture toughness
Abstract.
Materials properties of Si3N4 and Si3N4 + TiN composites.
A method of controlling fracture in brittle materials; U.
Munz: Journal Of Materials Science Letters, 9 (1990), p. 1403
Kuebler: Key Engineering Materials, 290 (2005), p. 175
Materials properties of Si3N4 and Si3N4 + TiN composites.
A method of controlling fracture in brittle materials; U.
Munz: Journal Of Materials Science Letters, 9 (1990), p. 1403
Kuebler: Key Engineering Materials, 290 (2005), p. 175
Online since: June 2013
Authors: Philip Harrison, Farag Abdiwi, Woong Ryeol Yu
Effect of Tow Meander on the Shear Compliance of Woven Engineering Fabrics Measured using the Biaxial Bias Extension Test
Farag Abdiwi1, Philip Harrison1 and Woong-Ryeol Yu2
1 School of Engineering, James Watt Building (South)
University of Glasgow, Glasgow G12 8QQ, UK
2 Department of Materials Science and Engineering, 33 Dong 305 Ho, Seoul National University, 1 Gwanak-ro, Gwanak-gu, Seoul 151-742, South Korea
f.abdiwi.1@research.gla.ac.uk, Philip.Harrison@glasgow.ac.uk, woongryu@snu.ac.kr
Keywords: Biaxial bias extension test, woven engineering fabric, variability.
Composites Science and Technology, 72, (9), 1034–1041, 2012 [4] Prodromou, A. and Chen, J., On the Relationship between Shear Angle and Wrinkling of Textile Composites Preforms, Composites: Part A, (28): 491-503, 1997 [5] Wang, J., Predictive Modelling and Experimental Measurement of Composite Forming Behaviour, PhD Thesis, University of Nottingham, 2008 [6] Lussier, D., and Chen, J., Material Characterization of Woven Fabrics for Thermoforming of Composites, Journal of Thermoplastic Composite Materials, 15, 497-509, 2002 [7] Peng, X. and Cao, J., A Continuum Mechanics-Based Non-Orthogonal Constitutive Model for Woven Composite Fabrics, Composites: Part A, 36, 859–874, 2005 [8] Launay, L., Hivet, G., Duong, A. and Boisse, P., Experimental Analysis of the Influence of Tensions on in Plane Shear Behaviour of Woven Composite Reinforcements, Composites Science and Technology, 68, 2, 506–515, 2008 [9] Milani, A., Nemes, J., Lebrun, G., and Bureau, M., A Comparative Analysis of a Modified
Picture Frame Test for Characterization of Woven Fabrics, Polymer Composites, 31(4): 561-568, 2010 [10] Komeili, M. and Milani, A., Shear Response of Woven Fabric Composites under Meso-Level Uncertainties, Journal of Composite Materials, 1–11, 2012 [11] Hivet, G. and Duong, A., A Contribution to the Analysis of the Intrinsic Shear Behaviour of Fabrics, Journal of Composite Materials, 45(6), 695–716, 2010 [12] Harrison, P.
International Journal of Material Forming. 1:891-894, 2008 [14] Abdiwi, F., Harrison, P., Yu, W.R. and Guo, Z., Modelling the Shear-Tension Coupling of Engineering Fabrics.
Composites Part A: Applied Science and Manufacturing, 43 (9), 1546-1554, 2012
Composites Science and Technology, 72, (9), 1034–1041, 2012 [4] Prodromou, A. and Chen, J., On the Relationship between Shear Angle and Wrinkling of Textile Composites Preforms, Composites: Part A, (28): 491-503, 1997 [5] Wang, J., Predictive Modelling and Experimental Measurement of Composite Forming Behaviour, PhD Thesis, University of Nottingham, 2008 [6] Lussier, D., and Chen, J., Material Characterization of Woven Fabrics for Thermoforming of Composites, Journal of Thermoplastic Composite Materials, 15, 497-509, 2002 [7] Peng, X. and Cao, J., A Continuum Mechanics-Based Non-Orthogonal Constitutive Model for Woven Composite Fabrics, Composites: Part A, 36, 859–874, 2005 [8] Launay, L., Hivet, G., Duong, A. and Boisse, P., Experimental Analysis of the Influence of Tensions on in Plane Shear Behaviour of Woven Composite Reinforcements, Composites Science and Technology, 68, 2, 506–515, 2008 [9] Milani, A., Nemes, J., Lebrun, G., and Bureau, M., A Comparative Analysis of a Modified
Picture Frame Test for Characterization of Woven Fabrics, Polymer Composites, 31(4): 561-568, 2010 [10] Komeili, M. and Milani, A., Shear Response of Woven Fabric Composites under Meso-Level Uncertainties, Journal of Composite Materials, 1–11, 2012 [11] Hivet, G. and Duong, A., A Contribution to the Analysis of the Intrinsic Shear Behaviour of Fabrics, Journal of Composite Materials, 45(6), 695–716, 2010 [12] Harrison, P.
International Journal of Material Forming. 1:891-894, 2008 [14] Abdiwi, F., Harrison, P., Yu, W.R. and Guo, Z., Modelling the Shear-Tension Coupling of Engineering Fabrics.
Composites Part A: Applied Science and Manufacturing, 43 (9), 1546-1554, 2012
Online since: June 2014
Authors: Zulkurnain Abdul-Malek, Nadia Mahmoudi Khatir, Seyedeh Maryam Banihashemian
Methods and Materials
DNA molecules from the plant Boesenbergia rotunda belonging to the ginger family were extracted.
The substrate used for etching was a p-type Si wafer (orientation <100>) of diameter (150.0 ± 0.1) mm, thickness (675 ± 25) µm and a resistivity of 1 to 10-20 Ω-cm (MEMC Electronic Materials).
Barton, Long-range photoinduced electron transfer through a DNA helix, Science. 262 (1993) 1025-1029
[22] Hamidinezhad H., Abdul-Malek Z., Wahab Y., Effects of gas pressure on the synthesis and photoluminescence properties of Si nanowires in VHF-PECVD method, Applied Physics A: Materials Science and Processing.108 (2012) 739-744
[23] Hamidinezhad H., Abdul-Malek Z., Investigation of growth behavior and properties of Si nanowires grown at various supply times of Ar gas current, Applied Physics A: Materials Science and Processing. (2014) DOI 10.1007/s00339-013-7881-2
The substrate used for etching was a p-type Si wafer (orientation <100>) of diameter (150.0 ± 0.1) mm, thickness (675 ± 25) µm and a resistivity of 1 to 10-20 Ω-cm (MEMC Electronic Materials).
Barton, Long-range photoinduced electron transfer through a DNA helix, Science. 262 (1993) 1025-1029
[22] Hamidinezhad H., Abdul-Malek Z., Wahab Y., Effects of gas pressure on the synthesis and photoluminescence properties of Si nanowires in VHF-PECVD method, Applied Physics A: Materials Science and Processing.108 (2012) 739-744
[23] Hamidinezhad H., Abdul-Malek Z., Investigation of growth behavior and properties of Si nanowires grown at various supply times of Ar gas current, Applied Physics A: Materials Science and Processing. (2014) DOI 10.1007/s00339-013-7881-2
Online since: May 2021
Authors: P.A. Artamonov, N.P. Lukutsova, S.N. Golovin, A.A. Pykin
Zajcev Effective Fine-Grained Concrete with High-Dispersed Additive Based on the Natural Mineral Wollastonite, FarEastСon - Materials and Construction: Materials International Scientific Conference «FarEastCon». 945 (2018) 85-90
Bondarenko, Effective Highly Dispersed Additive for Concretes on the Basis of Natural Mineral Raw Materials, FarEastСon - Materials and Construction: Materials International Scientific Conference «FarEastCon». 992 (2019) 168-172
Efremochkin, Nano-additives for composite building materials and their environmental SAFETY,International Journal of Applied Engineering Research. 11 (2016) 7561-7565
Minko, Determination of the thermal conductivity of wood insulation materials in conditions of non-stationary heat transferInternational, Journal of Applied Engineering Research. 22 (2014) 15791
Liseitsev et al, Development of fiber concretes with cement-free binders, Modern science-intensive technologies. 1 (2019) 124-130
Bondarenko, Effective Highly Dispersed Additive for Concretes on the Basis of Natural Mineral Raw Materials, FarEastСon - Materials and Construction: Materials International Scientific Conference «FarEastCon». 992 (2019) 168-172
Efremochkin, Nano-additives for composite building materials and their environmental SAFETY,International Journal of Applied Engineering Research. 11 (2016) 7561-7565
Minko, Determination of the thermal conductivity of wood insulation materials in conditions of non-stationary heat transferInternational, Journal of Applied Engineering Research. 22 (2014) 15791
Liseitsev et al, Development of fiber concretes with cement-free binders, Modern science-intensive technologies. 1 (2019) 124-130
Online since: January 2007
Authors: H. Azimi, E. Ahmadi, S.M.M. Hadavi
Introduction
W-Cu composites have been widely used in various fields of industry, for example ultra high voltage
electric contact materials, microelectronic application, leak blocking materials for microwave packages
and heat sink materials for high density integrated circuits [1-8].
Hong, Materials Science and Engineering, A 363 (2003) 179- 184 [3] W.
Kim, Materials Letters 58 (2004) 1199-1203
Kim, Materials Science and Engineering A, 399(2005) 326- 331
Yap, Journal of Materials Processing Technology, 89-90 (1999) 260265
Hong, Materials Science and Engineering, A 363 (2003) 179- 184 [3] W.
Kim, Materials Letters 58 (2004) 1199-1203
Kim, Materials Science and Engineering A, 399(2005) 326- 331
Yap, Journal of Materials Processing Technology, 89-90 (1999) 260265
Online since: July 2011
Authors: Tshilidzi Marwala, Mukul Shukla, Esther Titilayo Akinlabi, Stephen Akinlabi
This gives a good baseline for comparison and also determines the effect of the beam on the structure of the materials.
Kannatey-Asibu: Principle of laser materials processing.
Moeanodini: Computational Material Science 45 (2009), p. 480 [4] S.J.
Vittal: Journal of Manufacturing Processes Vol. 2 (2000), p. 4
Yao: Journal of Manufacturing processes.
Kannatey-Asibu: Principle of laser materials processing.
Moeanodini: Computational Material Science 45 (2009), p. 480 [4] S.J.
Vittal: Journal of Manufacturing Processes Vol. 2 (2000), p. 4
Yao: Journal of Manufacturing processes.
Online since: December 2011
Authors: Li Ming Ke, Li Peng Deng, Cheng Gang Yang, Ji Jun Xin
The widely use of any advanced materials not only depend on its own performance, but also depend on solving the joining technology problems of the materials, the joining issue of ultra fine-grained steel is a key technology of application of it.
References [1] Guifeng Zhang , Jianxun Zhang: Materials Review Vol. 19 (2005), p. 94 [2] Setsuo Takaki, Kenji Kawasaki, Yuji Kimura: Journal of Materials Processing Technology Vol. 117 (2001), p. 359 [3] Jingang Qi, Dongjun Zhang,Yang Yang: Transactions of Materials and Heat Treatment Vol. 31 (2010), p. 90 [4] Y.B.
Hu: Technological Sciences Vol. 51 (2008), p. 1508 [5] Y.B.
Zhang: Journal of Applied Physics Vol. 101 (2007), p. 5 [6] Z.
Shan: Journal of University of Science and Technology Beijing Vol. 14 (2007), p. 163 [7] Hongyun Zhao, Guodong Wang, Dongqing Li, et al: Transactions of the China Welding Institution Vol. 26 (2009), p. 1 [8] Ming Gao, Xiaoyan Zeng, Qianwu Hu: Journal of Materials Processing Technology Vol. 209 (2009), p. 785
References [1] Guifeng Zhang , Jianxun Zhang: Materials Review Vol. 19 (2005), p. 94 [2] Setsuo Takaki, Kenji Kawasaki, Yuji Kimura: Journal of Materials Processing Technology Vol. 117 (2001), p. 359 [3] Jingang Qi, Dongjun Zhang,Yang Yang: Transactions of Materials and Heat Treatment Vol. 31 (2010), p. 90 [4] Y.B.
Hu: Technological Sciences Vol. 51 (2008), p. 1508 [5] Y.B.
Zhang: Journal of Applied Physics Vol. 101 (2007), p. 5 [6] Z.
Shan: Journal of University of Science and Technology Beijing Vol. 14 (2007), p. 163 [7] Hongyun Zhao, Guodong Wang, Dongqing Li, et al: Transactions of the China Welding Institution Vol. 26 (2009), p. 1 [8] Ming Gao, Xiaoyan Zeng, Qianwu Hu: Journal of Materials Processing Technology Vol. 209 (2009), p. 785
Online since: January 2012
Authors: X.J. Li, Xiang Feng Chu, H.B. Qiao, L.S. Bai, Y.P. Dong
Hsu: Applied Surface Science Vol. 254 (2008), p. 6059
Pandija and et al.: Materials Letters Vol. 59 (2005), p. 690
Park: Applied Surface Science Vol. 228 (2004), p. 410
Desal: Journal of Materials Science Letters Vol. 22 (2003), p. 1623
Feng: Applied Surface Science Vol. 253 (2007), p. 4951.
Pandija and et al.: Materials Letters Vol. 59 (2005), p. 690
Park: Applied Surface Science Vol. 228 (2004), p. 410
Desal: Journal of Materials Science Letters Vol. 22 (2003), p. 1623
Feng: Applied Surface Science Vol. 253 (2007), p. 4951.
Online since: July 2013
Authors: Ahmad Akbari Rahimabadi, Sundararajan Natarajan, Stephane Pa Bordas
Journal of Mechanics of Materials and Structure,
6:1213-1238, 2011
A new approach to the application of MoriTanaka's theory in composite materials.
Mechanics of Materials, 6:147-157, 1987
Average stress in matrix and average elastic energy of materials with misfitting inclusions.
Computer Modelling in Engineering and Science, 65:27-74, 2010
A new approach to the application of MoriTanaka's theory in composite materials.
Mechanics of Materials, 6:147-157, 1987
Average stress in matrix and average elastic energy of materials with misfitting inclusions.
Computer Modelling in Engineering and Science, 65:27-74, 2010
Online since: March 2014
Authors: Fang Zhao, Su Li, Jun Shou Li, Ming Yuan Wang, Xiao Juan Wu
Introduction
Combustion synthesis (self-propagating high temperature synthesis, SHS) is a novel technique to produce high temperature ceramic and composite materials.
The process is a highly exothermic reaction within a mixture of reactive powders in a few seconds and can allow for difficult intermetallics materials to be easily manufactured.
References [1] Yeon Hwang, et al, Preparation of TiB2 powders by mechanical alloying, Materials Letters. 54 (2002) 1-7
[4] Welham, Mechanical enhancement of the carbothermic formation of TiB2, Metallurgical and Materials Transa-ctions. 31 (2000) 283-289
[6] Zhang Ying, Wend Dijiang, Preparation and Application of IR Radiation Ceramic Materials, Journal of Soochow University. 25 (2005) 37-39
The process is a highly exothermic reaction within a mixture of reactive powders in a few seconds and can allow for difficult intermetallics materials to be easily manufactured.
References [1] Yeon Hwang, et al, Preparation of TiB2 powders by mechanical alloying, Materials Letters. 54 (2002) 1-7
[4] Welham, Mechanical enhancement of the carbothermic formation of TiB2, Metallurgical and Materials Transa-ctions. 31 (2000) 283-289
[6] Zhang Ying, Wend Dijiang, Preparation and Application of IR Radiation Ceramic Materials, Journal of Soochow University. 25 (2005) 37-39