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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: July 2014
Authors: Aysegul Kucuksucu, Mehmet A. Guler, Ahmet Avci
Erdol: International Journal of Computational and Mathematical Sciences, (2007), 1, 121–127
Mahzoon and M.Shariyat: Iranian Journal of Materials Science and Engineering, (2012), 9(1): 29-41
Ramirez: Journal of Smart Materials and Structures, Vol. 15 No 5, (2006) pp.1287-1295
Krenk: Journal of Composite Materials, 13, (1979) pp.108-116
Erdogan: International Journal of Mechanical Sciences, Vol. 49, No. 2, (2007), pp. 161–182
Mahzoon and M.Shariyat: Iranian Journal of Materials Science and Engineering, (2012), 9(1): 29-41
Ramirez: Journal of Smart Materials and Structures, Vol. 15 No 5, (2006) pp.1287-1295
Krenk: Journal of Composite Materials, 13, (1979) pp.108-116
Erdogan: International Journal of Mechanical Sciences, Vol. 49, No. 2, (2007), pp. 161–182
Online since: March 2015
Authors: Guo Peng
The fracture strength at room temperature of ceramic materials is higher with the decreasing of grain size.
When the whisker content exceeds the critical volume, the rigid skeleton is formed internal composite materials.
References [1] Zhou Yu, Ceramic Materials Science, Harbin Institute of Technology Press, Harbin, 1995
Journal of Inorganic Materials. 13 (1998) 469-476
Journal of Materials Engineering. 7 (2000) 10-12.
When the whisker content exceeds the critical volume, the rigid skeleton is formed internal composite materials.
References [1] Zhou Yu, Ceramic Materials Science, Harbin Institute of Technology Press, Harbin, 1995
Journal of Inorganic Materials. 13 (1998) 469-476
Journal of Materials Engineering. 7 (2000) 10-12.
Online since: February 2014
Authors: Porntip Tooptompong, Jantip Setthayanond, Podjanalak Chaiyapongputti, Pacharamon Munsuwan
Experimental
Materials
Sweet tamarind seed puchased from local market in Thailand.
Journal of Pharmaceutical and Biomedical Sciences.
Advanced Materials Research. vol. 233 – 235 (2011), 1388 – 1391 [3] S.
Lignin Properties and Materials.
Lignin Properties and Materials.
Journal of Pharmaceutical and Biomedical Sciences.
Advanced Materials Research. vol. 233 – 235 (2011), 1388 – 1391 [3] S.
Lignin Properties and Materials.
Lignin Properties and Materials.
Online since: December 2014
Authors: Guo Xi Xu
Repair of meniscal injury of natural biological scaffold materials.
Natural biological materials include fiber protein, hyaluronic acid and collagen.
With the development of tissue engineering, biomechanics, gene engineering and materials science and in-depth research, but also provides a new approach for the treatment of meniscus injury.
Materials Science and Engineering: C, Volume 33, Issue 8, 1 December 2013, Pages 4777-4785
Journal of the Mechanical Behavior of Biomedical Materials, Volume 4, Issue 8, November 2011, Pages 2024-2030
Natural biological materials include fiber protein, hyaluronic acid and collagen.
With the development of tissue engineering, biomechanics, gene engineering and materials science and in-depth research, but also provides a new approach for the treatment of meniscus injury.
Materials Science and Engineering: C, Volume 33, Issue 8, 1 December 2013, Pages 4777-4785
Journal of the Mechanical Behavior of Biomedical Materials, Volume 4, Issue 8, November 2011, Pages 2024-2030
Online since: December 2011
Authors: Xing Li, Xiao Xiang Xu, Xue Cheng Ping
Kun Cheol Shin, introducted a failure criterion for anisotropic/isotropic bi-materials problem with a wedge.
But the process of obtaining the singular stress fields of anisotropic/isotropic bi-materials is complex.
The solid is composed of two materials, denoted by A and B, A-and B-materials are anisotropic and isotropic materials respectively.
The materials comprising the specimen are steel and glass fiber renforced epoxy composite material.
References [1] Kum Cheol Shin, Won Seock Kim, Jung Ju Lee, “Application of Stress intensity to design of anisotropic/isotropic bi-materials with a wedge” Internation Journal of Solids and Structures 44(2007) 7748-7766
But the process of obtaining the singular stress fields of anisotropic/isotropic bi-materials is complex.
The solid is composed of two materials, denoted by A and B, A-and B-materials are anisotropic and isotropic materials respectively.
The materials comprising the specimen are steel and glass fiber renforced epoxy composite material.
References [1] Kum Cheol Shin, Won Seock Kim, Jung Ju Lee, “Application of Stress intensity to design of anisotropic/isotropic bi-materials with a wedge” Internation Journal of Solids and Structures 44(2007) 7748-7766
Online since: January 2013
Authors: Gou Sheng Liu, Yue Long Liu
When raw materials ratio is 0.8:1, all the non-APP V peaks are weak.
Journal of Applied Polymer Science.
Journal of Agriculture and Food Chemistry, Vol. 24,(1976), p.412
Journal of American Chemical Society, Vol. 91,(1969),p. 62
Journal of Agriculture Food Chemistry, Vol. 27,(1979), p. 612
Journal of Applied Polymer Science.
Journal of Agriculture and Food Chemistry, Vol. 24,(1976), p.412
Journal of American Chemical Society, Vol. 91,(1969),p. 62
Journal of Agriculture Food Chemistry, Vol. 27,(1979), p. 612
Online since: April 2016
Authors: Xing Xiang Zhang, Ning Xin Zhang, Xiao Yu Yuan, Ji Wen Zong, Wei Li, Yuan Kai Zhang
Photoinduced Microencapsulation of microcapsules containing n-octadecane with P(APUA) and P(AMA) Shell
Ning-xin Zhang, Xiao-yu Yuan, Ji-wen Zong, Wei Lia,b, Yuan-kai Zhang
and Xing-xiang Zhang
State Key Laboratory of Hollow Fiber Membrane Materials and Processes, School of Material Science and Engineering, Tianjin Polytechnic University, Tianjin 300387, China
ahiweilee@gmail.com, bhiliwei@139.com
Keywords: UV, Microcapsule, Phase change material, Composite materials, Microstructure
Abstract.
Yu: Journal of Material Science, Vol. 44 (2009), p.5877 [5] J.F.
Wang and Li Ren: Journal of Applied Polymer Science, Vol. 97 (2005) , p.1755 [6] M.A.
Tang: Solar Energy Materials and Solar Cells, Vol. 94 (2010) , p.1643 [12] G.H.
Stubbs: Journal of Colloid and Interface Science, Vol. 266 (2003) , p.282
Yu: Journal of Material Science, Vol. 44 (2009), p.5877 [5] J.F.
Wang and Li Ren: Journal of Applied Polymer Science, Vol. 97 (2005) , p.1755 [6] M.A.
Tang: Solar Energy Materials and Solar Cells, Vol. 94 (2010) , p.1643 [12] G.H.
Stubbs: Journal of Colloid and Interface Science, Vol. 266 (2003) , p.282
Online since: January 2022
Authors: José Alberto Guzmán-Torres
Currently, methodologies such as Data Science and ML have shown
incredible potential in the designing of some special materials [8].
International Journal of Data Science and Analytics, 6(3):167-175, 2018
In IOP Conference Series: Materials Science and Engineering, volume 1150, page 012019.
ACI Materials Journal, 113(6), 2016
Journal of Materials in Civil Engineering, 28(10):04016092, 2016
International Journal of Data Science and Analytics, 6(3):167-175, 2018
In IOP Conference Series: Materials Science and Engineering, volume 1150, page 012019.
ACI Materials Journal, 113(6), 2016
Journal of Materials in Civil Engineering, 28(10):04016092, 2016
Online since: September 2015
Authors: Miloslav Popovič, Ondřej Koutný, Martina Drdlová, Josef Krátký
There are several typical foamed materials which can be used as a blast-energy absorbers.
Materials and test methodology.
Composites Science and Technology. 2009, vol. 69, issue 6, pp. 754-763.
International Journal of Chemical, Nuclear, Materials and Metallurgical Engineering. 2014, no. 10
Materials. 2015, vol. 78, pp. 63-73.
Materials and test methodology.
Composites Science and Technology. 2009, vol. 69, issue 6, pp. 754-763.
International Journal of Chemical, Nuclear, Materials and Metallurgical Engineering. 2014, no. 10
Materials. 2015, vol. 78, pp. 63-73.