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Online since: January 2015
Authors: Marina Rakočević, Nikolay Vatin
Theoretical models of layered composite plates
Modern composite plates are the result of combining more materials of various characteristics whereby better physical-material characteristics are achieved.
For these theories, it is specific to define stiffness of materials of a plate as a whole.
The development of laminated composite plate theories: A review (2012) Journal of Materials Science, 47 (16), pp. 5901-5910
Interlaminar stress analysis of general composite laminates (2011) International Journal of Mechanical Sciences, 53 (11), pp. 958-967
Approximate procedure for calculation of shear stresses σxz and σyz (2012) Journal of Applied Engineering Science, 10 (1), pp. 37-42
For these theories, it is specific to define stiffness of materials of a plate as a whole.
The development of laminated composite plate theories: A review (2012) Journal of Materials Science, 47 (16), pp. 5901-5910
Interlaminar stress analysis of general composite laminates (2011) International Journal of Mechanical Sciences, 53 (11), pp. 958-967
Approximate procedure for calculation of shear stresses σxz and σyz (2012) Journal of Applied Engineering Science, 10 (1), pp. 37-42
Online since: June 2025
Authors: Póliska Csaba, Akerele Ayodeji Usman
Investigating the Impacts of Slag Contents on the Thermal Characteristics of Foam Glasses
Akerele Ayodeji Usman1,3a*, Poliska Csaba2,b
1Antal Kerpely Doctoral School of Materials Science and Technology, University of Miskolc, Egyetemvaros, Miskolc 3515, Hungary
2Institute of Energy, Ceramic & Polymer Technology, Faculty of Materials & Chemical Engineering, University of Miskolc, Miskolc 3515, Hungary
3Department of Science Laboratory Technology, Ekiti State University, Ado-Ekiti, Nigeria.
C. [54] stated that the use of materials with better insulating materials results in lower values of thermal conductivity.
Nianhua Chen, “Foaming mechanism and optimal process conditions of foamed glass based on thermal analysis,” Journal of Porous Materials, vol. 27, p. 621–626, February 2020
[65] “Synthesis of impermeable cellular glass foam from soda lime glass waste using SiC foaming agent,” International Journal of Materials Technology and Innovation, vol.
Bernardo, “Fast sinter-crystallization of a glass from waste materials,” Journal of Non-Crystalline Solids, vol. 354, no. 29, pp. 3486-3490, July 2008
C. [54] stated that the use of materials with better insulating materials results in lower values of thermal conductivity.
Nianhua Chen, “Foaming mechanism and optimal process conditions of foamed glass based on thermal analysis,” Journal of Porous Materials, vol. 27, p. 621–626, February 2020
[65] “Synthesis of impermeable cellular glass foam from soda lime glass waste using SiC foaming agent,” International Journal of Materials Technology and Innovation, vol.
Bernardo, “Fast sinter-crystallization of a glass from waste materials,” Journal of Non-Crystalline Solids, vol. 354, no. 29, pp. 3486-3490, July 2008
Online since: December 2010
Authors: Terry C. Lowe
Lowe in: Bulk Nanostructured Materials, edited by M.J.
Varyukhin in: Ultrafine Grained Materials II edited by Y.T.
Minerals, Metals & Materials Society (2002) p 297-304
Horita, Journal of Materials Science, Vol 45 (2010) p 4578-4582
Lowe, Material Science Forum, Vol 503-504, (2006) p 355-361
Varyukhin in: Ultrafine Grained Materials II edited by Y.T.
Minerals, Metals & Materials Society (2002) p 297-304
Horita, Journal of Materials Science, Vol 45 (2010) p 4578-4582
Lowe, Material Science Forum, Vol 503-504, (2006) p 355-361
Online since: February 2020
Authors: Seyyed Amirhosein Hosseini, Farshad Khosravi, Majid Ghadiri
Advanced Materials. 24 (2012) 37, 5045-5064
Computational Materials Science. 49 (2010) 3, 619-627
Computational Materials Science. 61 (2012), 257-265
International Journal of Mechanics and Materials in Design. 12 (2016) 1, 71-84
Computational Materials Science. 43 (2008) 3, 540-548
Computational Materials Science. 49 (2010) 3, 619-627
Computational Materials Science. 61 (2012), 257-265
International Journal of Mechanics and Materials in Design. 12 (2016) 1, 71-84
Computational Materials Science. 43 (2008) 3, 540-548
Online since: September 2023
Authors: E. Ravikumar, S. Thamizhmanii, A. Karpagaraj, J.S. Senthilkumar
Materials Science and Engineering: A, 789, 139658
Materials Science and Engineering: A, 526(1-2), 113-117
Materials Science and Engineering: A, 733, 199-210
The Open Materials Science Journal, 5(1)
Journal of Materials Processing Technology, 218, 38-47
Materials Science and Engineering: A, 526(1-2), 113-117
Materials Science and Engineering: A, 733, 199-210
The Open Materials Science Journal, 5(1)
Journal of Materials Processing Technology, 218, 38-47
Online since: November 2007
Authors: Zhou Zheng Zhou, CH.X. Wu, Li Li, Zhen Li
Nano-materials and technology increasingly come under emphasis on application in
biomedical treatment and pharmaceutical field.
Recently, application of nanoporous alumina membranes in medical science has becoming public concerned in present biomedical material field.
Luminance materials are restricted in the pore, which maybe arouse quanta size restrict effect, made some quanta point and quanta line with different materials, and develop novel photoelectron devices or device original shape.
Materials and Methods Preparation.
Lin (Eds) Journal of Membrane Science, 158, 235-241 (1999)
Recently, application of nanoporous alumina membranes in medical science has becoming public concerned in present biomedical material field.
Luminance materials are restricted in the pore, which maybe arouse quanta size restrict effect, made some quanta point and quanta line with different materials, and develop novel photoelectron devices or device original shape.
Materials and Methods Preparation.
Lin (Eds) Journal of Membrane Science, 158, 235-241 (1999)
Online since: September 2021
Authors: Vadim G. Nikol'skii, Tatiana V. Dudareva, M.Yu. Sinkevich, V.A. Lobachev, I.A. Krasotkina, Yulia A. Naumova, I.V. Gordeeva
Particle size control is also an important process in the production of powdered elastomeric materials.
Experimental Details Materials.
Properties of powder elastomeric materials.
Krasotkina, et.al., Development and properties of new nanomodifiers for road pavement, Russian Journal of Physical Chemistry B. 8 (4) (2014) 577-583. https://doi.org/10.1134/S1990793114040071 [2] ASTM D5644-18 Standard Test Method for Rubber Compounding Materials – Determination of Particle Size Distribution of Recycled Vulcanizate Particulate Rubber
Goljandin, Crumb Rubber as a Secondary Raw Material from Waste Rubber: A Short Review of End-Of-Life Mechanical Processing Methods, Recycling. 5(32) (2020) 1-20. https://doi.org/10.3390/recycling5040032 [5] Kravchenko I.B., Elastomeric materials containing a finely dispersed elastic filler obtained by the HTSG method: dissertation of a candidate of technical sciences: 05.17.06 / Kravchenko Ivan Borisovich., Moscow, 2008
Experimental Details Materials.
Properties of powder elastomeric materials.
Krasotkina, et.al., Development and properties of new nanomodifiers for road pavement, Russian Journal of Physical Chemistry B. 8 (4) (2014) 577-583. https://doi.org/10.1134/S1990793114040071 [2] ASTM D5644-18 Standard Test Method for Rubber Compounding Materials – Determination of Particle Size Distribution of Recycled Vulcanizate Particulate Rubber
Goljandin, Crumb Rubber as a Secondary Raw Material from Waste Rubber: A Short Review of End-Of-Life Mechanical Processing Methods, Recycling. 5(32) (2020) 1-20. https://doi.org/10.3390/recycling5040032 [5] Kravchenko I.B., Elastomeric materials containing a finely dispersed elastic filler obtained by the HTSG method: dissertation of a candidate of technical sciences: 05.17.06 / Kravchenko Ivan Borisovich., Moscow, 2008
Online since: January 2014
Authors: Jun Chen, Xing Yuan Zhang, Quan An Li, Qing Zhang
Materials Science and Engineering A, 2001, 302: 37-45
Materials Science Forum, 2003, 419-422(1): 57-66
Frontier Materials Science of China, 2008, 2(1): 1-8
Journal of Materials Science, 2008, 43: 6952-6959
Materials Science and Engineering A, 2006, 428: 295-300
Materials Science Forum, 2003, 419-422(1): 57-66
Frontier Materials Science of China, 2008, 2(1): 1-8
Journal of Materials Science, 2008, 43: 6952-6959
Materials Science and Engineering A, 2006, 428: 295-300
Online since: January 2005
Authors: Lian Zhou, Maohong Fan, Sibo Yuan, Zhen Tao Yu
A newly designed near-β type biomedical Ti alloy Ti-5Zr-3Sn-5Mo-15Nb (TLM) were
introduced which are much more suitable for surgical implant and orthopedic materials.
The better workability of TLM alloy results from the stress-induced martensite transform. 1 Introduction Ti and Ti alloys are becoming more promising biomedical materials compared with other metal materials.
Ti require that, Apart from lower E and σs/E values, the alloy also should possess enough strength and toughness to ensure the safety and quality of implanting materials.
Singh: Journal of Alloys and Compounds Vol.329 (2001), p.264 [3] Steinemann S.G, Mausli P A, Semlitsch: Titanium'92 science and Technology[C] (TMS, Warrendale, Pennsylvania: 1993, p.2689)
[4] Yu zhentao, Zhou Lian, Wang keguang: Rare Metals Letters Vol.23(1)(2004), p.5 [5] Y.Song, D.S.Xu, R.Yang etc: Material Science and engineering Vol.A260 (1999),p.269 [6] Fros F.H, Bomberger H, B: J.Metals Vol.37 (7), (1985), p.28 [7] Long M, Rack H J: Biomaterials Vol.19 (1998), p.1621 [8] Mitsuo Niinomi: Material Science and engineering Vol.A243 (1998), p.231
The better workability of TLM alloy results from the stress-induced martensite transform. 1 Introduction Ti and Ti alloys are becoming more promising biomedical materials compared with other metal materials.
Ti require that, Apart from lower E and σs/E values, the alloy also should possess enough strength and toughness to ensure the safety and quality of implanting materials.
Singh: Journal of Alloys and Compounds Vol.329 (2001), p.264 [3] Steinemann S.G, Mausli P A, Semlitsch: Titanium'92 science and Technology[C] (TMS, Warrendale, Pennsylvania: 1993, p.2689)
[4] Yu zhentao, Zhou Lian, Wang keguang: Rare Metals Letters Vol.23(1)(2004), p.5 [5] Y.Song, D.S.Xu, R.Yang etc: Material Science and engineering Vol.A260 (1999),p.269 [6] Fros F.H, Bomberger H, B: J.Metals Vol.37 (7), (1985), p.28 [7] Long M, Rack H J: Biomaterials Vol.19 (1998), p.1621 [8] Mitsuo Niinomi: Material Science and engineering Vol.A243 (1998), p.231
Online since: January 2013
Authors: Ping Yu Jiang, Wei Cao, Juergen Sauser, Jochen Deuse
In this way, we can create necessary WIP material flows for important workpieces in a job-shop floor.
WIP Material Flow Modeling Technology of Using the Extended Event-Driven Graphical Schema As soon as formalizing all time-sensitive states, positions, and correspondent event sets in the context of the WIP material flow of a workpiece, we can use an extended event-driven graphical schema to model such a material flow.
Further thanks go to financial supports from Natural Science Foundation of China with Grant No. 71071125 and National Basic Research Project with Grant No. 2011CB706805.
Huang, et al.: International Journal of Adv Manuf Technol 36 (2007) p. 752-76 [2] Günther, et al.: RFID in Manufacturing, Springer, Germany. (2008) [3] P.Y.
Jiang, et al.: accepted by Proccedings of iMechE Part B Journal of Engineering Manufacture raphical esses in cesses in flown depth er researches, auto-ID computing methods will be coupled with the method proposed in this paper. (2011)
WIP Material Flow Modeling Technology of Using the Extended Event-Driven Graphical Schema As soon as formalizing all time-sensitive states, positions, and correspondent event sets in the context of the WIP material flow of a workpiece, we can use an extended event-driven graphical schema to model such a material flow.
Further thanks go to financial supports from Natural Science Foundation of China with Grant No. 71071125 and National Basic Research Project with Grant No. 2011CB706805.
Huang, et al.: International Journal of Adv Manuf Technol 36 (2007) p. 752-76 [2] Günther, et al.: RFID in Manufacturing, Springer, Germany. (2008) [3] P.Y.
Jiang, et al.: accepted by Proccedings of iMechE Part B Journal of Engineering Manufacture raphical esses in cesses in flown depth er researches, auto-ID computing methods will be coupled with the method proposed in this paper. (2011)