Sort by:
Publication Type:
Open access:
Publication Date:
Periodicals:
Search results
Online since: February 2012
Authors: Chang Qing Chen, Fue Han, Ya Peng Shen
School of Science, Xi’an Polytechnic University, Xi’an, 710048, P.
But and of the nanoporous materials are unknown.
In order to obtain and, the FEM for the solid materials of nanoporous materials are made (shown in Fig. 3 and Fig. 4).
The size of the two models is the same to the one of the nanoporous materials.
In the solid FEM, the materials properties for the solid materials and the Si substrate are given out in Table 2.
But and of the nanoporous materials are unknown.
In order to obtain and, the FEM for the solid materials of nanoporous materials are made (shown in Fig. 3 and Fig. 4).
The size of the two models is the same to the one of the nanoporous materials.
In the solid FEM, the materials properties for the solid materials and the Si substrate are given out in Table 2.
Online since: November 2015
Authors: Andy Vanaerschot, David Moens, Dirk Vandepitte, Stepan Lomov
Variability in composite materials properties
Andy Vanaerschot1,a , Stepan Lomov2,b , David Moens1,c
and Dirk Vandepitte1,d∗
1KU Leuven
Dept. of Mechanical Engineering, Kasteelpark Arenberg 41 - box 2449 - Belgium
2KU Leuven
Dept. of Materials Engineering, Kasteelpark Arenberg 44 - box 2450 - Belgium
aandy.vanaerschot@kuleuven.be, bstepan.lomov@mtm.kuleuven.be, cdavid.moens@kuleuven.be,
ddirk.vandepitte@kuleuven.be
Keywords: composite materials, anisotropic properties, orthotropic properties, material identification,
variability, correlation length
Abstract.
Composite materials are created as a quite complex architecture which includes a fibre reinforcement structure and matrix material.
Introduction Composite materials are available for several decades already.
The many families of composite materials have just one thing in common: they have some kind of fibre reinforcement and some kind of matrix material to hold the fibre reinforcement in place.
Pellissetti, The need for linking micromechanics of materials with stochastic finite elements: a challenge for materials science, Computational Materials Science, 41, 1, 27-37 (2007) [10] H.
Composite materials are created as a quite complex architecture which includes a fibre reinforcement structure and matrix material.
Introduction Composite materials are available for several decades already.
The many families of composite materials have just one thing in common: they have some kind of fibre reinforcement and some kind of matrix material to hold the fibre reinforcement in place.
Pellissetti, The need for linking micromechanics of materials with stochastic finite elements: a challenge for materials science, Computational Materials Science, 41, 1, 27-37 (2007) [10] H.
Online since: May 2011
Authors: Shuang Li, Chang Hai Zhai, Li Li Xie
The cases of beam sectional material behavior under hardening and softening are investigated.
Acknowledgements The study was supported by grants from the National Natural Science Foundation of China (No. 90815014, 51008101) and China Postdoctoral Science Foundation (No. 20100471019).
Flórez-López: International Journal of Solids and Structures, Vol. 40(2003), p. 5109 [3] A.
Filippou: Journal of Structural Engineering, Vol. 123(1997), p. 958 [4] X.C.
Fenves: Journal of Structural Engineering, Vol. 132(2006), p. 244 [7] R.H.J.
Acknowledgements The study was supported by grants from the National Natural Science Foundation of China (No. 90815014, 51008101) and China Postdoctoral Science Foundation (No. 20100471019).
Flórez-López: International Journal of Solids and Structures, Vol. 40(2003), p. 5109 [3] A.
Filippou: Journal of Structural Engineering, Vol. 123(1997), p. 958 [4] X.C.
Fenves: Journal of Structural Engineering, Vol. 132(2006), p. 244 [7] R.H.J.
Online since: May 2021
Authors: Qian He Chen, Chun Lian Song, Cai Xia Li
Introduction
In recent years, with the continuous development of science and technology, the research and development of new materials become more and more comprehensive, and gradually develop and promote some polymer materials [1].
However, most of these polymer materials are brittle materials, which often have defects in the preparation process.
Journal of Electron Microscopy, 2015, 3406: 521-529
Composites Science and Technology.2017,7(146):26-33
International Journal of Plasticity.2020,7(130):102712
However, most of these polymer materials are brittle materials, which often have defects in the preparation process.
Journal of Electron Microscopy, 2015, 3406: 521-529
Composites Science and Technology.2017,7(146):26-33
International Journal of Plasticity.2020,7(130):102712
Online since: January 2025
Authors: I Wayan Karyasa, Enike Dwi Kusumawati
Halloysite Nanoclay/Curcumin/Ag Hybrid Nano Materials
Intercalation of halloysite nanoclay (HNC) of curcumin with Ag nanoparticles (AgNPs)
Anti-bacterial materials
[59]
10.
Materials & Design. 158 (2018) 74-87. https://doi.org/10.1016/j.matdes.2018.08.015
Journal of Biomedical Materials Research Part B: Applied Biomaterials. 82(1) (2017) 129-138. https://doi.org/10.1002/jbm.b.30714
Materials. 13(24) (2020) 5706. https://doi.org/10.3390/ma13245706
International Journal of Polymeric Materials and Polymeric Biomaterials. 70(4) (2021) 256-269. https://doi.org/10.1080/00914037.2019.1706515
Materials & Design. 158 (2018) 74-87. https://doi.org/10.1016/j.matdes.2018.08.015
Journal of Biomedical Materials Research Part B: Applied Biomaterials. 82(1) (2017) 129-138. https://doi.org/10.1002/jbm.b.30714
Materials. 13(24) (2020) 5706. https://doi.org/10.3390/ma13245706
International Journal of Polymeric Materials and Polymeric Biomaterials. 70(4) (2021) 256-269. https://doi.org/10.1080/00914037.2019.1706515
Online since: February 2011
Authors: Jian Xu, Pei Xian Zhu, Hui Yu Ma, Sheng Gang Zhou
Characterization of Ti-Al and Ti-Cu Laminated Composite Electrode Materials
Jian Xua, Peixian Zhub , Huiyu Mac, Shenggang Zhoud
Faculty of Material Science and Engineering, Kunming University of Science and Technology, Kunming, Yunnan, 650093, China
awoteu@163.com, bzhu_pei_xian@163.com, cmahuiyu1985@163.com, dzsgandyliu@126.com,
Keywords: Layered Composite; Electrode; Ti-A; Ti-Cu, Conductivity; Electrocatalytic.
Characterization of Ti-Al and Ti-Cu laminated composite materials activity.
Fig.2 LSV curves of different coating electrodes Figure 3 shows the cyclic voltammetry curves of different substrate materials coating IrO2-Ta2O5 anode.
[7] V Paníc, A Dekanski, G Wang:Journal of Colloid and Interface Science,2003,263:68–73
(In Chinese) [12] LI Ya-jiang, Gerasimov S A., WANG Juan:Materials Science and Technology,2007,15(2):206-210
Characterization of Ti-Al and Ti-Cu laminated composite materials activity.
Fig.2 LSV curves of different coating electrodes Figure 3 shows the cyclic voltammetry curves of different substrate materials coating IrO2-Ta2O5 anode.
[7] V Paníc, A Dekanski, G Wang:Journal of Colloid and Interface Science,2003,263:68–73
(In Chinese) [12] LI Ya-jiang, Gerasimov S A., WANG Juan:Materials Science and Technology,2007,15(2):206-210
Online since: March 2013
Authors: Marek Płaczek
Using constitutive equations of piezoelectric materials and an equation of the plate’s motion a matrix of characteristics of the system was obtained.
Research in this area concern the reliability of machines, increasing the speed and range of displacement and applications of new materials.
Piezoelectric materials can be described by a pair of constitutive equations that describe relations between electrical and mechanical properties.
Especially nowadays, when a significant increase of applications of smart materials is observed in modern technical devices.
Dzitkowski, Modelling and Synthesis of Discrete–Continuous Subsystems of Machines with Damping, Journal of Materials Processing Technology, Vol. 164-165 (2005). pp. 1317-1326
Research in this area concern the reliability of machines, increasing the speed and range of displacement and applications of new materials.
Piezoelectric materials can be described by a pair of constitutive equations that describe relations between electrical and mechanical properties.
Especially nowadays, when a significant increase of applications of smart materials is observed in modern technical devices.
Dzitkowski, Modelling and Synthesis of Discrete–Continuous Subsystems of Machines with Damping, Journal of Materials Processing Technology, Vol. 164-165 (2005). pp. 1317-1326
Online since: December 2010
Authors: Jin Sheng Liang, Jun Ping Meng, Yan Ding, Yi Lin Han, Pei Peng Wang
Theoretical Calculation for Far Infrared Emissivity of Tourmaline Powder Materials
Peipeng Wanga, Jinsheng Liangb, Junping Mengc, Yan Dingd and Yilin Hane
Institute of Power Source & Ecomaterials Science, Hebei University of Technology, Tianjin, 300130, China
asg.come@yahoo.com.cn, bliang_jinsheng@sina.com, cmengjunping@hebut.edu.cn, ddingyan@hebut.edu.cn, ehanyilin1983@126.com
Keywords: tourmaline, mineral materials, infrared emissivity, theoretical calculation, model朗读
Abstract.
For the single powder materials, the main factors that affect the infrared emissivity of materials are crystal structure, chemical composition, ability of thermal excitation, and powder particle size (shown in Fig. 3).
LIAO: Journal of Tongji University.
Liang: Advanced Materials Research.Vol. 58(2009), p.77 [4] Hamilton, V.
Liang: Journal of functional materials, Vol. 35(2004), p.2579 [10]Y.
For the single powder materials, the main factors that affect the infrared emissivity of materials are crystal structure, chemical composition, ability of thermal excitation, and powder particle size (shown in Fig. 3).
LIAO: Journal of Tongji University.
Liang: Advanced Materials Research.Vol. 58(2009), p.77 [4] Hamilton, V.
Liang: Journal of functional materials, Vol. 35(2004), p.2579 [10]Y.
Online since: February 2022
Authors: Sergei Koryagin, Nikolay Velikanov, Oleg Sharkov
Investigation of the Effect of Vibration on the Bearing Capacity of Composite Materials
Sergei Koryagin1,a, Oleg Sharkov1*,b and Nikolay Velikanov1,c
1Immanuel Kant Baltic Federal University, Kaliningrad, 236016, Russia
askoryagin@kantiana.ru, bosharkov@kantiana.ru, cnvelikanov@kantiana.ru
Keywords: polymer coatings, composite structures, vibration, strength, deformation.
One of the effective methods for reducing the effect of shock and vibration loads on the bearing capacity of mechanical structures is the use of structural elements made of composite materials [11, 14–18].
Materials and Methods Test bench.
References [1] Gvozdkova S I and Shvartsburg L E 2017 Procedia Engineering 206 958–964 [2] Dong R G, Welcome D E, Xu X S and McDowell T W 2020 International Journal of Industrial Ergonomics 77 102946 [3] Vieler H, Karim A and Lechler A 2017 Robotics and Computer-Integrated Manufacturing 47 117–122 [4] Dubrovskiy A, Aliukov S, Dubrovskiy S and Alyukov A 2017 Lecture Notes in Engineering and Computer Science 2 679–684 [5] Moheimani S O R, Halim D and Fleming A J 2003 Spatial Control of Vibration: Theory and Experiments (Singapore World Scientific Publishing) p 236 [6] Munoa J, Beudaert X, Erkorkmaz K, Iglesias A, Barrios A and Zatarain M 2015 CIRP Annals 64(1) 385–388 [7] Hosseinabadi A H H and Altintas Y 2014 CIRP Journal of Manufacturing Science and Technology 7(3) 246–257 [8] Guoa Z, Cao Y, Feng K, Guan H and Zhang T 2019 Mechanical Systems and Signal Processing 133 106271 [9] Duan P and Ding X 2015 Journal of University of Shanghai for Science and Technology 37(6) 583–588 [
10] Chen Y, Wu H, Zhai J, Chen H, Zhu Q and Han Q 2019 Aerospace Science and Technology 84 1049–1058 [11] Koryagin S I, Sharkov O V and Velikanov N L 2018 Materials Science Forum 938 46–53 [12] Limarga A M, Duong T L, Gregori G and Clarke D R 2007 Surface and Coatings Technology 202(4–7) 693–697 [13] Kirpichnikov V Y, Koshcheev A P and Syatkovskii A I 2020 Journal of Applied Mechanics and Technical Physics 61(6) 968–971 [14] Kulíšek V, Růžička M, Vrba P, Smolík J and Janota M 2019 Materials Today: Proceedings 12(2) 288–297 [15] Fantuzzi N, Bacciocchi M, Benedetti D and Agnelli J 2021 Composites Part C: Open Access 4 100096 [16] Bigdeli M and Monfared V 2021 International Journal of Engineering, Transactions B: Applications 34(2) 556–563 [17] Cao Y, Zuo D, Zhao Y, Cao Z, Zhi J, Zheng G and Tay T E 2021 Composite Structures 261 13565 [18] Yang M, Gui L, Hu Y, Ding G and Song C 2018 Results in Physics 8 1110–1118 [19] Thomson W T 1996 Theory of vibration with applications (Boca Raton
One of the effective methods for reducing the effect of shock and vibration loads on the bearing capacity of mechanical structures is the use of structural elements made of composite materials [11, 14–18].
Materials and Methods Test bench.
References [1] Gvozdkova S I and Shvartsburg L E 2017 Procedia Engineering 206 958–964 [2] Dong R G, Welcome D E, Xu X S and McDowell T W 2020 International Journal of Industrial Ergonomics 77 102946 [3] Vieler H, Karim A and Lechler A 2017 Robotics and Computer-Integrated Manufacturing 47 117–122 [4] Dubrovskiy A, Aliukov S, Dubrovskiy S and Alyukov A 2017 Lecture Notes in Engineering and Computer Science 2 679–684 [5] Moheimani S O R, Halim D and Fleming A J 2003 Spatial Control of Vibration: Theory and Experiments (Singapore World Scientific Publishing) p 236 [6] Munoa J, Beudaert X, Erkorkmaz K, Iglesias A, Barrios A and Zatarain M 2015 CIRP Annals 64(1) 385–388 [7] Hosseinabadi A H H and Altintas Y 2014 CIRP Journal of Manufacturing Science and Technology 7(3) 246–257 [8] Guoa Z, Cao Y, Feng K, Guan H and Zhang T 2019 Mechanical Systems and Signal Processing 133 106271 [9] Duan P and Ding X 2015 Journal of University of Shanghai for Science and Technology 37(6) 583–588 [
10] Chen Y, Wu H, Zhai J, Chen H, Zhu Q and Han Q 2019 Aerospace Science and Technology 84 1049–1058 [11] Koryagin S I, Sharkov O V and Velikanov N L 2018 Materials Science Forum 938 46–53 [12] Limarga A M, Duong T L, Gregori G and Clarke D R 2007 Surface and Coatings Technology 202(4–7) 693–697 [13] Kirpichnikov V Y, Koshcheev A P and Syatkovskii A I 2020 Journal of Applied Mechanics and Technical Physics 61(6) 968–971 [14] Kulíšek V, Růžička M, Vrba P, Smolík J and Janota M 2019 Materials Today: Proceedings 12(2) 288–297 [15] Fantuzzi N, Bacciocchi M, Benedetti D and Agnelli J 2021 Composites Part C: Open Access 4 100096 [16] Bigdeli M and Monfared V 2021 International Journal of Engineering, Transactions B: Applications 34(2) 556–563 [17] Cao Y, Zuo D, Zhao Y, Cao Z, Zhi J, Zheng G and Tay T E 2021 Composite Structures 261 13565 [18] Yang M, Gui L, Hu Y, Ding G and Song C 2018 Results in Physics 8 1110–1118 [19] Thomson W T 1996 Theory of vibration with applications (Boca Raton
Online since: June 2014
Authors: Jian Kun Yi, Huang Shen, Ke Bin Yan, Bing Gao
The major use of this material model is for honeycomb and foam materials with real anisotropic behavior.
The major use of it is for aluminum honeycomb crushable foam materials with anisotropic behavior.
,Simulation of Energy Absorbing Materials in Blast Loaded Structures, 8th International Ls-dyna Users Conference, Dearborn, Michigan ,2004,8-67-80
[21] SU Hua-bing .HUANG Xiao-qing.TANG Li-qun.LIU Ze-jia.ZHANG Hong, Finite Element Simulation and Analysis of Small Compression of Foam Aluminum Based on the Statistical Hole-diameter,Science Technology and Engineering, Vol.9, No.23, 2009, pp. 6991-6995
Awoyemi, Meso-scale Modelling of Shock Wave Propagation in a Cellluar Glass Particle Reinforced Thermoplastic Composite, 18th International Conference on Composite Materials, Jeju, Korea,2011
The major use of it is for aluminum honeycomb crushable foam materials with anisotropic behavior.
,Simulation of Energy Absorbing Materials in Blast Loaded Structures, 8th International Ls-dyna Users Conference, Dearborn, Michigan ,2004,8-67-80
[21] SU Hua-bing .HUANG Xiao-qing.TANG Li-qun.LIU Ze-jia.ZHANG Hong, Finite Element Simulation and Analysis of Small Compression of Foam Aluminum Based on the Statistical Hole-diameter,Science Technology and Engineering, Vol.9, No.23, 2009, pp. 6991-6995
Awoyemi, Meso-scale Modelling of Shock Wave Propagation in a Cellluar Glass Particle Reinforced Thermoplastic Composite, 18th International Conference on Composite Materials, Jeju, Korea,2011