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Online since: April 2016
Authors: Michał Stopel, Dariusz Skibicki, Wojciech Mocko
VERIFICATION OF FEM MODELLING CAPABILITIES ALLOWING FOR THE EFFECTS OF STRAIN RATE
* STOPEL Michal1,a *, SKIBICKI Dariusz1,b, MOCKO Wojciech2,c
1University Of Science And Technology in Bydgoszcz,
al.
This phenomena is also the subject of studies related to composite materials due to fact that composites are widely used as an energy absorbers in road safety structures [6].
One of the most important factors in preparation of the analysis is to select a suitable material model to allow for the effects of strain rate on the changes in material properties.
One of the material models allowing for the effects of strain rate is the model developed by G.R.
A simplified Johnson-Cook model was used as a material model with the material parameters determined based on the strength tests [4].
This phenomena is also the subject of studies related to composite materials due to fact that composites are widely used as an energy absorbers in road safety structures [6].
One of the most important factors in preparation of the analysis is to select a suitable material model to allow for the effects of strain rate on the changes in material properties.
One of the material models allowing for the effects of strain rate is the model developed by G.R.
A simplified Johnson-Cook model was used as a material model with the material parameters determined based on the strength tests [4].
Online since: February 2009
Authors: Rong Shen, Shi Peng Wu, Ji Ming Chen, Yong Hong Liu
Rahman: Journal of Materials Processing Technology,
Vol. 190(2007), pp. 73-76
Wang: Key Engineering Materials, Vol. 315-316(2006), pp. 516-520
Chi: Journal of Materials Processing Technology, Vol. 205(2008), pp. 128-137
Gindy: Journal of Materials Processing Technology, Vol. 172(2006), No. 3, pp. 363-371
Junkar: International Journal of Materials and Product Technology, Vol. 29(2007), pp. 344-357
Wang: Key Engineering Materials, Vol. 315-316(2006), pp. 516-520
Chi: Journal of Materials Processing Technology, Vol. 205(2008), pp. 128-137
Gindy: Journal of Materials Processing Technology, Vol. 172(2006), No. 3, pp. 363-371
Junkar: International Journal of Materials and Product Technology, Vol. 29(2007), pp. 344-357
Online since: September 2020
Authors: Jin Wang, Bo Li, Chang Xu Yan
Journal of materials chemistry A, 2016, 4(36): 13778-13785
Journal of Materials Chemistry A, 2017, 5(2): 554-563
Chemistry of Materials, 2014, 26(12): 3838-3848
Materials Science and Engineering: C, 2020, 108: 110196
Journal of Hazardous Materials, 2020, 387: 122000
Journal of Materials Chemistry A, 2017, 5(2): 554-563
Chemistry of Materials, 2014, 26(12): 3838-3848
Materials Science and Engineering: C, 2020, 108: 110196
Journal of Hazardous Materials, 2020, 387: 122000
Online since: August 2013
Authors: Min Hua Jiang, Shu Zhen Li, Bo Lin He
So far, CS technology have penetrated into many fields, such as materials science and engineering, physics, chemistry, metallurgy, machinery science and engineering, etc.
The status and analysis of the researches at home and abroad CS welding of similar materials.
Dissimilar materials welding.
References [1] Merzhanov A G:Combustion and Plasma Synthesis of High-temperature Materials.
[15] Miyamoto Y, Nakamo T, Kiozumi M: Journal of Material Research, Vol.l (1986), p.7 [16] Sun D C, Ke L M, Xing L, et al: Journal of welding, Vol.21 (2000), p.44(in Chinese)
The status and analysis of the researches at home and abroad CS welding of similar materials.
Dissimilar materials welding.
References [1] Merzhanov A G:Combustion and Plasma Synthesis of High-temperature Materials.
[15] Miyamoto Y, Nakamo T, Kiozumi M: Journal of Material Research, Vol.l (1986), p.7 [16] Sun D C, Ke L M, Xing L, et al: Journal of welding, Vol.21 (2000), p.44(in Chinese)
Online since: August 2019
Authors: Dominik Gazdič, Karel Dvořák, Marcela Fridrichová, Dalibor Všianský, Adéla Halešová
To produce Portland cement, a large amount of natural raw materials with high energy consumption is needed for its firing, especially high thermal energy consumption.
Therefore, it is very difficult to design a different composition of raw meal to save both energy and natural raw materials while achieving high quality and durability.
Materials and Methods The raw materials for the preparation and subsequent firing of the raw meal were calcium carbonate, CaCO3 (p.a., Penta), amorphous silica, SiO2 (p.a., Lach-Ner) and boric acid, H3BO3 (p.a., Penta), as a stabilizer.
LO1408 "AdMaS UP - Advanced Materials, Structures and Technologies", supported by Ministry of Education, Youth and Sports under the „National Sustainability Programme I".
Zhong, A study on active β-dicalcium silicate, Journal of the Chinese Silicate Society, 10 (1982) 161-166
Therefore, it is very difficult to design a different composition of raw meal to save both energy and natural raw materials while achieving high quality and durability.
Materials and Methods The raw materials for the preparation and subsequent firing of the raw meal were calcium carbonate, CaCO3 (p.a., Penta), amorphous silica, SiO2 (p.a., Lach-Ner) and boric acid, H3BO3 (p.a., Penta), as a stabilizer.
LO1408 "AdMaS UP - Advanced Materials, Structures and Technologies", supported by Ministry of Education, Youth and Sports under the „National Sustainability Programme I".
Zhong, A study on active β-dicalcium silicate, Journal of the Chinese Silicate Society, 10 (1982) 161-166
Online since: April 2011
Authors: Jacques Huot, Manuel Tousignant
In their work on Ti-V-Fe alloy system, Nomura and Akiba have mentioned that ferrovanadium may be used as raw materials instead of pure vanadium [10].
The starting materials were Ti (99.95% purity), V (99% purity), Mn (99% purity) and a FeV commercial alloy (79.88 wt.% V; 16.26 wt.% Fe; 3.74 wt.% Al; 0.09 wt.% Si; 0.03 wt.% Cr).
Thus, even if these materials could not be considered for practical applications we see that the replacement of vanadium by ferrovanadium does not have a large impact on the useful part of the hydrogen capacity.
Yu Science and Technology of Advanced Materials: 4 (2003), p. 491
Naixin Materials Science and Engineering A: 385 (2004), p. 17
The starting materials were Ti (99.95% purity), V (99% purity), Mn (99% purity) and a FeV commercial alloy (79.88 wt.% V; 16.26 wt.% Fe; 3.74 wt.% Al; 0.09 wt.% Si; 0.03 wt.% Cr).
Thus, even if these materials could not be considered for practical applications we see that the replacement of vanadium by ferrovanadium does not have a large impact on the useful part of the hydrogen capacity.
Yu Science and Technology of Advanced Materials: 4 (2003), p. 491
Naixin Materials Science and Engineering A: 385 (2004), p. 17
Online since: February 2019
Authors: Yu.V. Pukharenko, T.A. Khezhev, Sergei V. Klyuev, Alexander V. Klyuev
Methods
Pilot studies were conducted in laboratories of departments of Institute of Construction Materials Science of Belgorod State Technological University named after V.G.
[2] Brandt A.M., Cement-Based Composites: Materials, Mechanical Properties and Performance.
[4] Lemm J.M., HB Fiber-Reinforced Concrete: Principles, Properties, Developments and Applications (Building Materials Science).
[18] Lesovik R.V., Klyuyev S.V., Klyuyev A.V., Netrebenko A.V., Durachenko A.V., High-Strength Fiber-Reinforced Concrete Containing Technogenic Raw Materials and Composite Binders with Use of Nanodispersed Powder, Research Journal of Applied Sciences. 9 (2014) 1153–1157
[20] Lesovik R.V., Klyuyev S.V., Klyuyev A.V., Tolbatov A.A., Durachenko A.V., The Development of textile fine-grained fiber concrete using technogenic raw materials, Research Journal of Applied Sciences. 10 (2015) 701–706
[2] Brandt A.M., Cement-Based Composites: Materials, Mechanical Properties and Performance.
[4] Lemm J.M., HB Fiber-Reinforced Concrete: Principles, Properties, Developments and Applications (Building Materials Science).
[18] Lesovik R.V., Klyuyev S.V., Klyuyev A.V., Netrebenko A.V., Durachenko A.V., High-Strength Fiber-Reinforced Concrete Containing Technogenic Raw Materials and Composite Binders with Use of Nanodispersed Powder, Research Journal of Applied Sciences. 9 (2014) 1153–1157
[20] Lesovik R.V., Klyuyev S.V., Klyuyev A.V., Tolbatov A.A., Durachenko A.V., The Development of textile fine-grained fiber concrete using technogenic raw materials, Research Journal of Applied Sciences. 10 (2015) 701–706
Online since: January 2013
Authors: Soon Wook Jeong, Eun Young Lee, Li Li He, Amir Abidov, Bunyod Allabergenov, Oybek Tursunkulov, Sang Youp Kim, Sung Jin Kim, Tae Yong Kim
The metallurgical and composite materials processing industry needs to know the hardness of the materials with which it works.
Gogia, Ti based biomaterials, the ultimate choice for orthopaedic implants-a review, Progress in Materials Science 54, (2009), 397–425 [3] Farkhod R.
Hulbert, Dongtao Jiang The synthesis and consolidation of hard materials by spark plasma sintering Int.
Journal of Refractory Metals & Hard Materials 27, (2009), 367–375 [10] Eriksson M, Salamon D, Nygren M, Shen Z.
Shabel A simple procedure for calculating Rockwell hardness conversion rela-tionships for metallic alloys Materials Science and Engineering 95, (1987), 209-216 [15] Masato Ito, Daigo Setoyama, Junji Matsunaga Electrical and thermal properties of titanium hydrides Journal of Alloys and Compounds 420, (2006), 25–28
Gogia, Ti based biomaterials, the ultimate choice for orthopaedic implants-a review, Progress in Materials Science 54, (2009), 397–425 [3] Farkhod R.
Hulbert, Dongtao Jiang The synthesis and consolidation of hard materials by spark plasma sintering Int.
Journal of Refractory Metals & Hard Materials 27, (2009), 367–375 [10] Eriksson M, Salamon D, Nygren M, Shen Z.
Shabel A simple procedure for calculating Rockwell hardness conversion rela-tionships for metallic alloys Materials Science and Engineering 95, (1987), 209-216 [15] Masato Ito, Daigo Setoyama, Junji Matsunaga Electrical and thermal properties of titanium hydrides Journal of Alloys and Compounds 420, (2006), 25–28
Online since: September 2019
Authors: Dong Soo Kim, Vitalii Galkin, Kamran Haider, Jong Bin Ahn
Kim, Aerosol Synthesis and Growth Mechanism of Magnetic Iron Nanoparticles, Materials Science Forum 534-536 (2007) 9-12
Tolochko and Li-Da, Preparation and characterization of magnetic Fe, Fe/C and Fe/N nanoparticles synthesized by chemical vapor condensation process, Reviews on Advanced Materials Science 5 (2003) 487-492
Magnetism and Magnetic Materials 355 (2014) 180-183
Choi, Effect of washing process on the magnetic properties of Nd-Fe-B Nanoparticles prepared by reduction-diffusion method, Journal of Magnetism and Magnetic Materials 439 (2017) 91-94
Zhang, High anisotropic NdFeB submicro/nanoflakes prepared by surfactant-assisted ball milling at low temperature, Journal of Magnetism and Magnetic Materials 442 (2017) 279-287
Tolochko and Li-Da, Preparation and characterization of magnetic Fe, Fe/C and Fe/N nanoparticles synthesized by chemical vapor condensation process, Reviews on Advanced Materials Science 5 (2003) 487-492
Magnetism and Magnetic Materials 355 (2014) 180-183
Choi, Effect of washing process on the magnetic properties of Nd-Fe-B Nanoparticles prepared by reduction-diffusion method, Journal of Magnetism and Magnetic Materials 439 (2017) 91-94
Zhang, High anisotropic NdFeB submicro/nanoflakes prepared by surfactant-assisted ball milling at low temperature, Journal of Magnetism and Magnetic Materials 442 (2017) 279-287