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Online since: January 2020
Authors: Mikhail Erpalov
Introduction
Torsion tests have been widely used to study the rheological properties of various materials subjected to both cold and hot deformation.
Gore, Review the Effect of Specimen Geometry on Torsion Test Results, International Journal of Innovative Research in Science, Engineering and Technology. 12-(2013) 7567-7574
Khoddam, Variations of effective length of the hot torsion test specimen with deformation, Journal of Materials Processing Technology. 177 (2006) 465–468
Mohammadi, Computer aided optimization of specimen geometry of hot torsion test to minimize microstructure non homogeneity and temperature gradient before deformation, Iranian Journal of Materials Science & Engineering. 3-6 (2009) 35-43
The equivalent strain in high pressure torsion, Materials Science & Engineering. 607 (2014) 530-535
Gore, Review the Effect of Specimen Geometry on Torsion Test Results, International Journal of Innovative Research in Science, Engineering and Technology. 12-(2013) 7567-7574
Khoddam, Variations of effective length of the hot torsion test specimen with deformation, Journal of Materials Processing Technology. 177 (2006) 465–468
Mohammadi, Computer aided optimization of specimen geometry of hot torsion test to minimize microstructure non homogeneity and temperature gradient before deformation, Iranian Journal of Materials Science & Engineering. 3-6 (2009) 35-43
The equivalent strain in high pressure torsion, Materials Science & Engineering. 607 (2014) 530-535
Online since: October 2024
Authors: Samroeng Inglam, Sujin Wanchat, Thawatchai Yaiphuak, Udom Wongwaitongtee, Prasitthichai Naronglerdrit, Adrien Dagnaud
The results indicate that increasing the amount of hair significantly improves the strength of the materials.
The principle of testing the tensile strength of materials consists in a slow applying constant tensile force.
These composite materials can find various applications in fields ranging from automotive parts to construction materials and even aerospace components.
Iuliano, "Sustainability in the manufacturing of composite materials: A literature review and directions for future research," Journal of Manufacturing Processes, vol. 85, pp. 858-874, 2023/01/06/ 2023, doi: https://doi.org/10.1016/j.jmapro.2022.12.020
Vatsal, "Fabrication and Analysis of Human Hair Based Hybrid Epoxy Composite for Mechanical Properties," International Journal of Innovative Science and Research Technology, vol. 07, no.
The principle of testing the tensile strength of materials consists in a slow applying constant tensile force.
These composite materials can find various applications in fields ranging from automotive parts to construction materials and even aerospace components.
Iuliano, "Sustainability in the manufacturing of composite materials: A literature review and directions for future research," Journal of Manufacturing Processes, vol. 85, pp. 858-874, 2023/01/06/ 2023, doi: https://doi.org/10.1016/j.jmapro.2022.12.020
Vatsal, "Fabrication and Analysis of Human Hair Based Hybrid Epoxy Composite for Mechanical Properties," International Journal of Innovative Science and Research Technology, vol. 07, no.
Online since: October 2013
Authors: Jun Ru Yang, Gong Ling Chen, Y.K. Zhang, Ran Zhu
Vol.48 (1987), p.985-1005
[2] Liviu Marsavina, Tomasz Sadowski and Nicolae Faur: Journal of Mechanical Science and Technology.
Vol.223 (2012), p.1485-1506 [4] Khandelwal R. and J.M.C.Kishen: Journal of Applied Mechanics, Transactions ASME.
Vol.76 (2009), p.1-10 [5] Yang Junru, Li Zhaoqian, Huang Chuanzhen, Zhang Yuekan and Qian Kangkang: Key Engineering Materials.
Vol.375-376 (2008), p.118-122 [6] Junru Yang, Gongling Chen and LiLi Zhang: Advanced Materials Research.
[11] Edit Committee of Handbook of Property Data of Materials for Mechanical Engineering: Handbook of Property Data of Materials for Mechanical Engineering(China Machine Press, Beijing 1995)
Vol.223 (2012), p.1485-1506 [4] Khandelwal R. and J.M.C.Kishen: Journal of Applied Mechanics, Transactions ASME.
Vol.76 (2009), p.1-10 [5] Yang Junru, Li Zhaoqian, Huang Chuanzhen, Zhang Yuekan and Qian Kangkang: Key Engineering Materials.
Vol.375-376 (2008), p.118-122 [6] Junru Yang, Gongling Chen and LiLi Zhang: Advanced Materials Research.
[11] Edit Committee of Handbook of Property Data of Materials for Mechanical Engineering: Handbook of Property Data of Materials for Mechanical Engineering(China Machine Press, Beijing 1995)
Online since: November 2013
Authors: Hong Yong Liu, Yi Yang, Gang Wu
Engineering materials as the main entity of sand table experiment, the optimization of engineering materials is related to the final results of the sand table experiment.
Looking from engineering materials Engineering materials is the main entity of sand table experiment and it can decide the result greatly.
Optimization of engineering materials can be carried out according to the WBS framework.WBS provides clues for optimization of engineering materials.
Science & Technology progress and Policy,(2010)
[3] Gao Lingfeng,Xu Minguang,Dong Zhanling,Weng Qifang.How to Improve Experimental Teaching Quality[J].Natural science journal of Hainan University ,(2005)
Looking from engineering materials Engineering materials is the main entity of sand table experiment and it can decide the result greatly.
Optimization of engineering materials can be carried out according to the WBS framework.WBS provides clues for optimization of engineering materials.
Science & Technology progress and Policy,(2010)
[3] Gao Lingfeng,Xu Minguang,Dong Zhanling,Weng Qifang.How to Improve Experimental Teaching Quality[J].Natural science journal of Hainan University ,(2005)
Online since: December 2013
Authors: S. Izman, M.Y. Noordin, Denni Kurniawan, Rusdi Nur
Values of specific energy for machining various materials are compiled by Kalpakjian and Schmid [10].
Singh, Journal of Materials Processing Technology. 200 (2008), p.373-384 [6] Abhang, L. and M.
Hameedullah, Journal of Engineering Science and Technology Review. 3 (2010), p.116-122 [7] Gutowski, T., J.
Ourdjini, Applied Mechanics and Materials. 234 (2012), p.74-77 [9] Li, W., A.
Sharif, Materials and Manufacturing Processes. 25 (2010), p.370-377
Singh, Journal of Materials Processing Technology. 200 (2008), p.373-384 [6] Abhang, L. and M.
Hameedullah, Journal of Engineering Science and Technology Review. 3 (2010), p.116-122 [7] Gutowski, T., J.
Ourdjini, Applied Mechanics and Materials. 234 (2012), p.74-77 [9] Li, W., A.
Sharif, Materials and Manufacturing Processes. 25 (2010), p.370-377
Online since: September 2007
Authors: Zdeněk Knésl, Pavel Hutař, Luboš Náhlík
Knésl1,c
1
Institute of Physics of Materials, Academy of Sciences of the Czech Republic, Žižkova 22,
616 62 Brno, Czech Republic
a
nahlik@ipm.cz , b
hutar@ipm.cz, c
knesl@ipm.cz
Keywords: bi-material interface, loading ratio, plasticity-induced crack closure, critical stress.
The paper is devoted to fatigue crack propagation in layered materials.
The results could be used for the design of new materials with interfaces (composite materials, etc.) and for safer service life of structures made from the materials to which we have referred.
Journal of Fracture, 12 (1976), p. 52
Science 28 (2003), p. 620
The paper is devoted to fatigue crack propagation in layered materials.
The results could be used for the design of new materials with interfaces (composite materials, etc.) and for safer service life of structures made from the materials to which we have referred.
Journal of Fracture, 12 (1976), p. 52
Science 28 (2003), p. 620
Online since: July 2011
Authors: Yuan Qiang Tan, Sheng Qiang Jiang, Dong Min Yang, Yong Sheng, Jian Qiao Ye
Frieß, Computational Materials Science, 28 (2003) 1-15
Herrmann, Computational Materials Science, 28 (2003) 608-619
Tan, Computational Materials Science, 49 (2010) 253-259
Sheng, Computational Materials Science, 50 858-864
Takeda, Materials Science and Engineering: A, 480 (2008) 549-557.
Herrmann, Computational Materials Science, 28 (2003) 608-619
Tan, Computational Materials Science, 49 (2010) 253-259
Sheng, Computational Materials Science, 50 858-864
Takeda, Materials Science and Engineering: A, 480 (2008) 549-557.
Online since: September 2011
Authors: Rimantas Didžiokas, Jolanta Janutėnienė, Marius Gintalas, A. Tadzijevas
Recycling and usage of secondary raw materials in production is one of the most topical issues.
Materials and methods 2.1.1.
Film layers are made of the materials shown in Table 1 in the respective amounts.
European Polymer Journal: Vol. 41 (2005) p. 1453–1477.
Materials science: Vol. 14 (2008) p. 119-127 [4] Alvin R.
Materials and methods 2.1.1.
Film layers are made of the materials shown in Table 1 in the respective amounts.
European Polymer Journal: Vol. 41 (2005) p. 1453–1477.
Materials science: Vol. 14 (2008) p. 119-127 [4] Alvin R.
Online since: December 2022
Authors: Kamarudin Samuding, Ismail Abustan, Mohd Kamarul Irwan Abdul Rahim, Falah Abu, Siti Nor Farhana Zakaria, Nor Hasni Osman, Maheera Mohamad, Mohd Remy Rozainy Mohd Arif Zainol
Materials and Methods
The materials investigated are virgin sugarcane pressmud.
Journal of Materials in Civil Engineering 14 (6), (2002) 447-460
Journal of Wuhan University of Technology: Material Science Edition 28 (4), (2013) 746-750
Series: Materials Science and Engineering 209, (2017) 1-9
Pertanika Journal of Science and Technology 19 (1), (2011) 33-43
Journal of Materials in Civil Engineering 14 (6), (2002) 447-460
Journal of Wuhan University of Technology: Material Science Edition 28 (4), (2013) 746-750
Series: Materials Science and Engineering 209, (2017) 1-9
Pertanika Journal of Science and Technology 19 (1), (2011) 33-43
Online since: January 2016
Authors: Ab Aziz Abdul Latiff, Zawawi Daud, Halizah Awang, Mohd Zainuri Mohd Hatta
The limitation of use by fiber tree materials leads to the finding and exploration of new alternative from non wood materials.
Aripin, Australian Journal of Basic and Applied Sciences. 7 (2013) 401 – 405
Eduok, Australian Journal of Basic and Applied Science. 5 (2011) 1202 - 1208
Waranyou, Songklanakarin, Journal of Science and Technology. 32 (2010) 201 - 205
Aripin, Journal of Applied Sciences. 12 (2014) 1355 – 1358.
Aripin, Australian Journal of Basic and Applied Sciences. 7 (2013) 401 – 405
Eduok, Australian Journal of Basic and Applied Science. 5 (2011) 1202 - 1208
Waranyou, Songklanakarin, Journal of Science and Technology. 32 (2010) 201 - 205
Aripin, Journal of Applied Sciences. 12 (2014) 1355 – 1358.