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Online since: February 2015
Authors: Raffaella Aversa, Antonio Apicella, Roberto Sorrentino
Materials and Methods
Biomimetic/Biomechanical Approach.
Materials.
Dental materials 2009; 25: 678–690 [9] Sorrentino R, Aversa R, Ferro V, Auriemma T, Zarone F, Ferrari M, Apicella A.
Journal Of Applied Polymer Science, 1982; Vol. 27(4), P. 1139-1148, Issn: 0021-8995 [17] Nicolais L, Apicella A, De Notaristefano C.
Journal Of Membrane Science, 1984; Vol. 18, P. 187-196, Issn: 0376-7388 [18] Schwartz-Dabney, C.L. & Dechow, P.C. (2003) Variation in Cortical Material Properties Throughout the Human Dentate Mandible.
Materials.
Dental materials 2009; 25: 678–690 [9] Sorrentino R, Aversa R, Ferro V, Auriemma T, Zarone F, Ferrari M, Apicella A.
Journal Of Applied Polymer Science, 1982; Vol. 27(4), P. 1139-1148, Issn: 0021-8995 [17] Nicolais L, Apicella A, De Notaristefano C.
Journal Of Membrane Science, 1984; Vol. 18, P. 187-196, Issn: 0376-7388 [18] Schwartz-Dabney, C.L. & Dechow, P.C. (2003) Variation in Cortical Material Properties Throughout the Human Dentate Mandible.
Online since: December 2012
Authors: Yuan Yang, Xin Min Hao, Wen Juan Ma, Ge Gan, Peng Cheng Zhao, Rui Wang
Fig.2 Infrared spectrum of EVA/hemp stem powder foam materials
Fig.3 DSC thermal graphs of EVA/hemp stem powder foam materials
Hemp--- the pure hemp,0%---pure EVA, 10%---EVA/10%wthemp foamed materials, 20%---EVA/20wt%hemp foamed materials, 30% ---EVA/30wt%hemp foamed materials, 35% ---EVA/35wt%hemp foamed materials
Table 1 Absorption peak of EVA/hemp stem powder foamed materials
peak value
Sample
3336 [cm-1]
1734 [cm-1]
1236 [cm-1]
Pure hemp
—OH
carboxylic acid V c=o
Phenol V c-o
Pure EVA
— —
— —
— —
EVA/hemp
—OH
carboxylic acid V c=o
Phenol V c-o
3.3 Measurement of EVA/hemp stem powder foam materials thermal properties
Fig.3 shows the test performance of EVA/hemp stem powder foamed materials thermal properties with different powder contents from 0% to 35%.
Vol. 292 (2007), p. 993 [3] Renhui Qiu and XiaofengRen: submitted to Polymer Engineering and Science (2012) [4] Robert Masirek, Zbigniew Kulinski: Journal of Applied Polymer Science.
Forum Vol.105 (2007), p. 255 [5] Haixia Fang and Yaolin Zhang: submitted to Journal of Applied Polymer Science (2012) [6] Yanling Wu and Zhili Zhong: Urban Environment & Urban Ecology.
In Chinese [9] Rangsong Hui, Xueqin Yang and Yuping Dang: Chinese Journal of Mycology.
In Chinese [10] Yulu Guo: Shandong Textile Science & Technology.
Vol. 292 (2007), p. 993 [3] Renhui Qiu and XiaofengRen: submitted to Polymer Engineering and Science (2012) [4] Robert Masirek, Zbigniew Kulinski: Journal of Applied Polymer Science.
Forum Vol.105 (2007), p. 255 [5] Haixia Fang and Yaolin Zhang: submitted to Journal of Applied Polymer Science (2012) [6] Yanling Wu and Zhili Zhong: Urban Environment & Urban Ecology.
In Chinese [9] Rangsong Hui, Xueqin Yang and Yuping Dang: Chinese Journal of Mycology.
In Chinese [10] Yulu Guo: Shandong Textile Science & Technology.
Online since: December 2012
Authors: Lang Wu, Bin Lei, Bing Yan
Prediction of Elastic Modulus of Cement-Based Materials
Based on Power’s Volume Model
Wu Lang1, a, Yan Bing1,b and Lei Bin2,c
1College of Civil Engineering, Jiangxi Science and Technology Normal University, Nanchang 330013, China
2College of Civil Engineering, Nanchang Institure of Technology, Nanchang 330044, China
awulang19812005@126.com, b ybjxnc@163.com, cBinglle@163.com
Keywords: micromechanics; cement-based materials; volume Model; elastic properties
Abstract.
According to reference [7],the effective volume of the composite materials is,
Journal of Huazhong University of Science and Technology(Natural Science Edition), 2011,39(3):39-42.
Mang, A multiscale micromechanics model for the Autogenous-shrinkage deformation of early-age cement-based materials[J].
Computational Materials Science, 2010, 47(3):775-784
According to reference [7],the effective volume of the composite materials is,
Journal of Huazhong University of Science and Technology(Natural Science Edition), 2011,39(3):39-42.
Mang, A multiscale micromechanics model for the Autogenous-shrinkage deformation of early-age cement-based materials[J].
Computational Materials Science, 2010, 47(3):775-784
Online since: August 2013
Authors: Imtiaz Ali, Jean Francis Bloch, Sabine Rolland du Roscoat, Raphael Passas
Papers as functional green materials
BLOCH Jean-Francis1, a, ALI Imtiaz1,2,b, PASSAS Raphael1,c
and ROLLAND DU ROSCOAT Sabine3,4,5,d
1 G-INP, 461 rue de la Papeterie - CS 10065 - 38402 Saint-Martin d'Hères Cedex, France
2 Faculty of Materials Science and Engineering, Ghulam Ishaq Khan Institute of Engineering Sciences and Technology, Topi (23640), Khyber Pakhtunkhwa, Pakistan
3 Univ.
Paper is constituted of natural fibers and represents a perfect example of structural multifunctional materials.
The design of multi-scale materials is based on the structural properties at the fiber level.
Bichard, The Basic Effects of Recycling on Pulp Properties, Journal of Pulp and Paper Science, vol. 18 no. 4 (1992) 151–159 [2] M.
Raven, Three-dimensional imaging of paper by use of synchrotron X-ray microtomography, Journal of Pulp and Paper Science, vol. 27 no. 2 (2001) 50–53 [5] C.
Paper is constituted of natural fibers and represents a perfect example of structural multifunctional materials.
The design of multi-scale materials is based on the structural properties at the fiber level.
Bichard, The Basic Effects of Recycling on Pulp Properties, Journal of Pulp and Paper Science, vol. 18 no. 4 (1992) 151–159 [2] M.
Raven, Three-dimensional imaging of paper by use of synchrotron X-ray microtomography, Journal of Pulp and Paper Science, vol. 27 no. 2 (2001) 50–53 [5] C.
Online since: November 2011
Edited by: Akii Okonigbon Akaehomen Ibhadode
This periodical edition includes peer-reviewed papers based on results of scientific research and engineering solutions in different areas of modern engineering science.
Keywords:
Materials Science, Materials, Mechanics, Civil Engineering, Electrical Engineering, Cumputer Science, Environmental Engineering
Keywords:
Materials Science, Materials, Mechanics, Civil Engineering, Electrical Engineering, Cumputer Science, Environmental Engineering
Online since: February 2024
Authors: Muhammad Fadhlullah Abd Shukur, Mohamed Shuaib Mohamed Saheed, Kwok Feng Chong, Cheng Seong Khe, Gomaa Abdelgawad Mohammed Ali, Eslam Atef Abdelaziz Aboelazm
Nature materials, 2008. 7(11): p. 845-854
Journal of Materials Chemistry A, 2021. 9(4): p. 1970-2017
Chemistry of Advanced Materials, 2018. 3(4)
Journal of Materials Chemistry A, 2020. 8(4): p. 1837-1848
International Journal of Molecular Sciences, 2015. 16(7): p. 14594-14607
Journal of Materials Chemistry A, 2021. 9(4): p. 1970-2017
Chemistry of Advanced Materials, 2018. 3(4)
Journal of Materials Chemistry A, 2020. 8(4): p. 1837-1848
International Journal of Molecular Sciences, 2015. 16(7): p. 14594-14607
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: January 2012
Authors: Jun Yang
This has much to do with the properties of the roof materials and the way of roofing construction.
It is the important resource of new antibacterial materials in biology [2].
Colloids in seaweed increase the wholeness of the roof The French materials experts, P.
Russian Journal of Marine Biology, 2007, Vol. 33, No. 3, p204–206
Journal of Materials Science,2007,43,(13),p4805-4857
It is the important resource of new antibacterial materials in biology [2].
Colloids in seaweed increase the wholeness of the roof The French materials experts, P.
Russian Journal of Marine Biology, 2007, Vol. 33, No. 3, p204–206
Journal of Materials Science,2007,43,(13),p4805-4857
Online since: August 2015
Authors: Konstantin Naumenko, Holm Altenbach, Frank Laengler, Mykola Ievdokymov
Fatigue and Fracture of Engineering Materials, 19
(9):1143 - 1151, 1996
Materials at High Temperatures, 24(1):1 - 26, 2007
Skrzypek, editors, Creep and Damage in Materials and Structures, pages 285 - 348.
Materials Science and Engineering, A510- A511:169 - 174, 2009.[13] M.H.J.
Deformation and life assessment of high temperature materials under creep fatigue loading.
Materials at High Temperatures, 24(1):1 - 26, 2007
Skrzypek, editors, Creep and Damage in Materials and Structures, pages 285 - 348.
Materials Science and Engineering, A510- A511:169 - 174, 2009.[13] M.H.J.
Deformation and life assessment of high temperature materials under creep fatigue loading.
Online since: July 2014
Authors: Jie Min Liu, Ya Zhen Sun, Shuang Liu, Jia Liang Yang
(3) The steps performing mechanical analysis for disturbed materials by TDD is given.
New York: IMECE(2006) [2] Jiemin Liu, Zhiyong Zhang and Yazhen Sun: Journal of Shenyang Jianzhu University: Natural Science.
Journal of Shenyang Jianzhu University: Natural Science.
Journal of Harbin Institute of Technology.
Vol. 43 (2006), p. 7166 [8] Jiemin Liu: Mechanical of Materials [M].
New York: IMECE(2006) [2] Jiemin Liu, Zhiyong Zhang and Yazhen Sun: Journal of Shenyang Jianzhu University: Natural Science.
Journal of Shenyang Jianzhu University: Natural Science.
Journal of Harbin Institute of Technology.
Vol. 43 (2006), p. 7166 [8] Jiemin Liu: Mechanical of Materials [M].