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Online since: August 2016
Authors: Tomasz Sadowski, Przemysław Golewski, Viorel Radoiu
The important example of the modern composite materials are functionally graded materials, (e.g. [1-6]) or polycrystalline materials having thin metallic layers between material components (e.g. [7-10]).
Therefore, the present analysis will be developed for more complex geometries and structural parts made of different materials.
References [1] V.Birman, L.V.Bryd, Modelling and Analysis of Functionally Graded Materials and Structures.
[8] L.A.Gömze, L.N.Gömze, Alumina-based hetero-modulus ceramic composites with extreme dynamic strength – phase transformation of Si3N4 during high speed collision with metallic bodies, Ĕpitöanyag – Journal of Silicate Based and Composite Materials 61 (2009) 38-42
Sadowski, S.D.Dimitrova, Computational simulations of thermal shock cracking by the virtual crack closure technique in a functionally graded plate, Computational Materials Science 116 (2016) 11-21
Therefore, the present analysis will be developed for more complex geometries and structural parts made of different materials.
References [1] V.Birman, L.V.Bryd, Modelling and Analysis of Functionally Graded Materials and Structures.
[8] L.A.Gömze, L.N.Gömze, Alumina-based hetero-modulus ceramic composites with extreme dynamic strength – phase transformation of Si3N4 during high speed collision with metallic bodies, Ĕpitöanyag – Journal of Silicate Based and Composite Materials 61 (2009) 38-42
Sadowski, S.D.Dimitrova, Computational simulations of thermal shock cracking by the virtual crack closure technique in a functionally graded plate, Computational Materials Science 116 (2016) 11-21
Online since: October 2016
Authors: Habib Nasir, Syed Sajid Ali Shah
Xiao, T.T., et al., Journal of Materials Science-Materials in Electronics, 2014. 25(8): p. 3364-3374
Selvam, M., et al., Bulletin of Materials Science, 2013. 36(7): p. 1315-1321
Wang, Y.Y., et al., Journal of Materials Science, 2011. 46: p. 3611
Cai, X.S., et al., Journal of Materials Science, 2014. 49(16): p. 5667-5675
Yang, L.L., et al., Journal of Materials Science, 2014. 49(5): p. 2372-2382
Selvam, M., et al., Bulletin of Materials Science, 2013. 36(7): p. 1315-1321
Wang, Y.Y., et al., Journal of Materials Science, 2011. 46: p. 3611
Cai, X.S., et al., Journal of Materials Science, 2014. 49(16): p. 5667-5675
Yang, L.L., et al., Journal of Materials Science, 2014. 49(5): p. 2372-2382
Online since: October 2012
Authors: Wen Fei Peng, Shu Hua Zheng, Xue Dao Shu
This method is in the trend of phasing out because of wasting raw materials and consuming so much in subsequent machining, although its forging technology is simple.
Bai: Journal of agricultural machinery, Vol. 26 (1995) No.1, pp. 97-101.
Wang: Beijing university of science and technology journal, Vol. 23 (2001) No.2, pp:155-157
Xing: Journal of Mechanical Engineering, Vol. 45 (2009) No.1, pp.131-134 (In Chinese) [8] XueDao.Shu,ChuanMing.Li,and Z.H .Hu: Technology of University of Science and Beijing,Vol. 29 (2007)No.2, pp.159-161 [9] X.D.
Hu: Journal of Mechanical Engineering, (2010) No.3.
Bai: Journal of agricultural machinery, Vol. 26 (1995) No.1, pp. 97-101.
Wang: Beijing university of science and technology journal, Vol. 23 (2001) No.2, pp:155-157
Xing: Journal of Mechanical Engineering, Vol. 45 (2009) No.1, pp.131-134 (In Chinese) [8] XueDao.Shu,ChuanMing.Li,and Z.H .Hu: Technology of University of Science and Beijing,Vol. 29 (2007)No.2, pp.159-161 [9] X.D.
Hu: Journal of Mechanical Engineering, (2010) No.3.
Online since: February 2012
Authors: Wen Long Lu
The material is 2024-T3.
International Journal of Fatigue 24 (2002)1021–36 [2] Curt A.Lavender, Sung-Tae Hong, Mark T.Smith, et al.
Journal of materials processing technology 204 (2008) 486-91 [3] P.Peyre, R.
Materials Science and Engineering A 210 (1996) 102-13 [4] Y.K.
Materials and Design 30 (2009) 1697–703
International Journal of Fatigue 24 (2002)1021–36 [2] Curt A.Lavender, Sung-Tae Hong, Mark T.Smith, et al.
Journal of materials processing technology 204 (2008) 486-91 [3] P.Peyre, R.
Materials Science and Engineering A 210 (1996) 102-13 [4] Y.K.
Materials and Design 30 (2009) 1697–703
Online since: December 2010
Authors: Zhi Gang Yan, Wen Yu Ji, Ming Zhe An
Material Performance of RPC T-beam
Material of RPC.
Materials and Structures, Vol. 29 (1996), p 233-240
PCI Journal, Vol. 44 (1999), p 60-71
Journal of the China Railway Society, Vol. 26 ( 2004), p 116-119. ( in Chinese) [7] YAN Zhigang, YAN Guiping, FANG Youliang. in: Progress in Safety Science and Technology Vol. 4, edited by Feng Changgen, Science Press, Shanghai, China (2004)
China Civil Engineering Journal, Vol. 42 (2009), p 126-132.
Materials and Structures, Vol. 29 (1996), p 233-240
PCI Journal, Vol. 44 (1999), p 60-71
Journal of the China Railway Society, Vol. 26 ( 2004), p 116-119. ( in Chinese) [7] YAN Zhigang, YAN Guiping, FANG Youliang. in: Progress in Safety Science and Technology Vol. 4, edited by Feng Changgen, Science Press, Shanghai, China (2004)
China Civil Engineering Journal, Vol. 42 (2009), p 126-132.
Online since: February 2024
Authors: Suchandrima Das, Chanawee Promaue, Aydin Nassehi
Reference Module in Materials Science and Materials Engineering 2016:1–20
Materials Today: Proceedings 2020
IOP Conference Series: Materials Science and Engineering 2017;227:012033
Materials & Design 2012;38:53–8
International Journal of Lightweight Materials and Manufacture 2022;5:197–212
Materials Today: Proceedings 2020
IOP Conference Series: Materials Science and Engineering 2017;227:012033
Materials & Design 2012;38:53–8
International Journal of Lightweight Materials and Manufacture 2022;5:197–212
Online since: May 2014
Authors: E.A. Aguilar-Reyes, C.A. León-Patiño, D. Ramírez-Vinasco
Tu, The microstructure and the thermal expansion characteristics of Cu/SiCp composites, Materials Science and Engineering: A. 349 (2003) 236-247
Gu, The compressibility of Cu/SiCp powder prepared by high-energy ball milling, Journal of Materials Processing Technology 199 (2008) 173-177
Zhang, Processing of advanced materials using high-energy mechanical milling, Progress in Materials Science 49 (2004) 537-560
Torralba, Mechanically alloyed AlN particle-reinforced Al-6061 matrix composites: Powder processing, consolidation and mechanical strength and hardness of the as-extruded materials, Materials Science and Engineering: A 426 (2006) 85-94
Suryanarayana, Mechanical alloying and milling, Progress in Materials Science 46 (2001) 1-184
Gu, The compressibility of Cu/SiCp powder prepared by high-energy ball milling, Journal of Materials Processing Technology 199 (2008) 173-177
Zhang, Processing of advanced materials using high-energy mechanical milling, Progress in Materials Science 49 (2004) 537-560
Torralba, Mechanically alloyed AlN particle-reinforced Al-6061 matrix composites: Powder processing, consolidation and mechanical strength and hardness of the as-extruded materials, Materials Science and Engineering: A 426 (2006) 85-94
Suryanarayana, Mechanical alloying and milling, Progress in Materials Science 46 (2001) 1-184
Study on the Relationship between Microscopic Structure and Mechanical Properties of HTPB Propellant
Online since: October 2010
Authors: Xu Chang Li, Jian Jiao, Jun Yan Yao, Liang Wang
The material contents of all four formulas are shown by table 1.
Reference: [1] Hongmei An, Jianjun Li: submitted to Journal of.
(In Chinese) [2] Xue Liu: submitted to Journal of Energetic Materials,2000,8(3):35-139.
[4] Zeng Jiaya. submitted to Journal of Journal of Solid Rocket Technology,2002,25(1):46-50.
(In Chinese) [5] Wang Beihai. submitted to Journal of Journal of Solid Rocket Technology,1997,20(3):36-42.
Reference: [1] Hongmei An, Jianjun Li: submitted to Journal of.
(In Chinese) [2] Xue Liu: submitted to Journal of Energetic Materials,2000,8(3):35-139.
[4] Zeng Jiaya. submitted to Journal of Journal of Solid Rocket Technology,2002,25(1):46-50.
(In Chinese) [5] Wang Beihai. submitted to Journal of Journal of Solid Rocket Technology,1997,20(3):36-42.
Online since: February 2011
Authors: Refat El-Sheikhy, Mosleh Al-Shamrani
Introduction
The advanced functional material of clay-based nanocomposite is produced as a new type of material and science which needed new different treatment from other conventional materials or composites [1-10].
These main steps include: 1- Preparation of the materials of nano clay powder and polymer material (HDPE). 2- Modifications and compatibility of the materials to be ready for processing. 3- Mixing of the main materials of clay and polymers.
Pinnavila, Center of Fundamental materials Research and composite materials and structure center, Michigan state Univ., USA, 1999
Zheng, et. al, Journal of nanoscience and nanotechnology, Vol. 5, 1574-1592, 2005
Qutubuddin, Journal of Colloid and Interface Science, 288, 387-389, 2005
These main steps include: 1- Preparation of the materials of nano clay powder and polymer material (HDPE). 2- Modifications and compatibility of the materials to be ready for processing. 3- Mixing of the main materials of clay and polymers.
Pinnavila, Center of Fundamental materials Research and composite materials and structure center, Michigan state Univ., USA, 1999
Zheng, et. al, Journal of nanoscience and nanotechnology, Vol. 5, 1574-1592, 2005
Qutubuddin, Journal of Colloid and Interface Science, 288, 387-389, 2005
Online since: September 2013
Authors: Nida Chaimoon
Material Flow Analysis (MFA) of water in campus is also used to model the scenario rainwater harvesting for reuse purpose.
MFA is an environmental accounting tool which is used to quantify flows or quantity of material in 1 year in specific system boundary.
Yair, A: Journal of Arid Environment Vol.35 No.2(1997), p.341–348
Gong: Journal of Hydrology Vol.257 No.(1–4) (2002), p.134–144
Rechberger: Practical Handbook of Material Flow Analysis (Lewis Publishers, Florida (2004)
MFA is an environmental accounting tool which is used to quantify flows or quantity of material in 1 year in specific system boundary.
Yair, A: Journal of Arid Environment Vol.35 No.2(1997), p.341–348
Gong: Journal of Hydrology Vol.257 No.(1–4) (2002), p.134–144
Rechberger: Practical Handbook of Material Flow Analysis (Lewis Publishers, Florida (2004)