Sort by:
Publication Type:
Open access:
Publication Date:
Periodicals:
Search results
Online since: January 2020
Authors: Aleksey I. Khatsrinov, Lenar N. Shafigullin, Alsu Yusupova
This modified filler was a part of sulfide materials.
EPR-measurements of silicate containing materials No.
Lakhno, Production and investigation of properties of sulfide composite materials based on technogenic sulfur waste with titanium chloride as an activator, Research Journal of Pharmaceutical, Biological and Chemical Sciences. 6 (2016) 1614-1619
Goretyi, Sulfur-based construction materials, Penza, 2003
Sciences, Moscow, 2000
EPR-measurements of silicate containing materials No.
Lakhno, Production and investigation of properties of sulfide composite materials based on technogenic sulfur waste with titanium chloride as an activator, Research Journal of Pharmaceutical, Biological and Chemical Sciences. 6 (2016) 1614-1619
Goretyi, Sulfur-based construction materials, Penza, 2003
Sciences, Moscow, 2000
Online since: December 2025
Authors: Radek Kottner, Michal Volf, Eva Nezbedová
Application of Composite Materials for Thermal Storage in the Heat Supply System in the Czech Republic
Michal VOLF1,a*, Eva NEZBEDOVÁ1,b
and Radek KOTTNER2,c
1Ing.
This paper investigates the application of polymer materials for low-temperature, pressure-less a thermal storage in Czech district heating systems integrated with high-performance heat pumps.
While composite materials are widely applied in aviation and the chemical industry [4][5], their use in the energy sector—particularly for stationary thermal storage—remains less common.
Journal of Science Communication. 2000, 163, pp. 51–59
Meeting the Materials Data Management Needs of Engineering Enterprises [online].
This paper investigates the application of polymer materials for low-temperature, pressure-less a thermal storage in Czech district heating systems integrated with high-performance heat pumps.
While composite materials are widely applied in aviation and the chemical industry [4][5], their use in the energy sector—particularly for stationary thermal storage—remains less common.
Journal of Science Communication. 2000, 163, pp. 51–59
Meeting the Materials Data Management Needs of Engineering Enterprises [online].
Online since: March 2026
Authors: Temitayo S. Ogedengbe, Ifeyinwa Obianyo, Musa Mohammed
This has driven research into the utilization of alternative construction materials.
Advances in Civil Engineering Materials, 9(2), 122-138
EDP Sciences
Construction and Building Materials, 140, 150-156
Journal of Engineering Science & Technology Review, 6(5)
Advances in Civil Engineering Materials, 9(2), 122-138
EDP Sciences
Construction and Building Materials, 140, 150-156
Journal of Engineering Science & Technology Review, 6(5)
Online since: May 2013
Authors: Jian Xiong Yang, Zhong Yao Huang, Li Hai Cai
Miraftab: Journal of materials science, Vol. 26 (1991) No. 11, p. 1661
Bunsell: Journal of Materials Science, Vol.17 (1982) No. 8, p.2391
Bunsell: Journal of Materials Science, Vol. 10(1975), No. 8, p.1300
Wong: Journal of Materials Science, Vol. 12 (1977) No. 12, p.2447
Rose, Journal of Materials Science, Vol. 9 (1974) No. 11, p.1809
Bunsell: Journal of Materials Science, Vol.17 (1982) No. 8, p.2391
Bunsell: Journal of Materials Science, Vol. 10(1975), No. 8, p.1300
Wong: Journal of Materials Science, Vol. 12 (1977) No. 12, p.2447
Rose, Journal of Materials Science, Vol. 9 (1974) No. 11, p.1809
Online since: May 2017
Authors: Adnan I.O. Zaid, Safwan M. Al-Qawabah, Nabeel Alshabatat
Consider a beam made of functionally graded material which consists of a mixture of two materials V1 and V2.
Khair-Eldeen: Powder metallurgical fabrication and microstructural investigations of Aluminium/Steel functionally graded material,” Materials Sciences and Applications. 2 (2011), p. 1708-1718
Miura-Fujiwara: Novel fabrication method for functionally graded materials under centrifugal force: the centrifugal mixed-Powder method, Materials. 2 (2009), p. 2510-2525
Mishra: Functionally Graded Materials: A critical Review.
International journal of research. 1 (2014), p. 289-301
Khair-Eldeen: Powder metallurgical fabrication and microstructural investigations of Aluminium/Steel functionally graded material,” Materials Sciences and Applications. 2 (2011), p. 1708-1718
Miura-Fujiwara: Novel fabrication method for functionally graded materials under centrifugal force: the centrifugal mixed-Powder method, Materials. 2 (2009), p. 2510-2525
Mishra: Functionally Graded Materials: A critical Review.
International journal of research. 1 (2014), p. 289-301
Online since: November 2016
Authors: Jin Wang, Xiao Bo Zhang, Shu Qin Zhang
Journal of Materials Processing Technology. 162 (2005) 156-162
Journal of materials processing technology. 209(1) (2009) 462-469 [5] Franzen V, Kwiatkowski L, Neves J, et al.
Journal of Materials Processing Technology. 222 (2015) 287-300
Journal of Materials Processing Technology. 219 (2015) 221-229
Materials & Design. 63 (2014) 20-29.
Journal of materials processing technology. 209(1) (2009) 462-469 [5] Franzen V, Kwiatkowski L, Neves J, et al.
Journal of Materials Processing Technology. 222 (2015) 287-300
Journal of Materials Processing Technology. 219 (2015) 221-229
Materials & Design. 63 (2014) 20-29.
Online since: September 2011
Authors: Adam Niesłony, Andrzej Kurek
In many papers we can find the data proving that this assumption is not correct for some materials [8, 9].
Table 2 contain constants according to the selected material and those obtained for particular materials according to the equations of compatibility (10) and (11).
Suitable material tests and a good choice of the approximating equations should provide a correct description of fatigue properties of constructional materials.
Materials, Vol. 5, 1970, pp. 767-776 [13] ASTM Standard E606-92: Standard practice for strain-controlled fatigue testing.
ASTM; 1997, p. 523-37 [14] Bäumel A. and Seeger T.: Material Data for Cyclic Loading, Materials Science Monographs, 61, Elsevier Science Publishers, Amsterdam, 1990 [15] Ramberg W. and Osgood W.R.: Description of stress-strain curves by three parameters, Technical Note No. 902, National Advisory Committee for Aeronautics, Washington DC, 1943 [16] Plumtree A. and Abdel-Raouf H.A.: Cyclic stress–strain response and substructure, International Journal of Fatigue, Vol. 23, 2001, pp. 799-805 [17] Niesłony A., El Dsoki Ch., Kaufmann H., Krug P.: New method for evaluation of the Manson-Coffin-Basquin and Ramberg-Osgood equations with respect to compatibility, International Journal of Fatigue, Vol. 30, 2008, pp. 1967-1977 [18] Niesłony A., Kurek A., El Dsoki Ch. and Kaufmann H.: A study of compatibility between two classical fatigue curve models based on some selected structural materials, International Journal of Fatigue, 2011, Available online doi:10.1016/j.ijfatigue.2011.03.002
Table 2 contain constants according to the selected material and those obtained for particular materials according to the equations of compatibility (10) and (11).
Suitable material tests and a good choice of the approximating equations should provide a correct description of fatigue properties of constructional materials.
Materials, Vol. 5, 1970, pp. 767-776 [13] ASTM Standard E606-92: Standard practice for strain-controlled fatigue testing.
ASTM; 1997, p. 523-37 [14] Bäumel A. and Seeger T.: Material Data for Cyclic Loading, Materials Science Monographs, 61, Elsevier Science Publishers, Amsterdam, 1990 [15] Ramberg W. and Osgood W.R.: Description of stress-strain curves by three parameters, Technical Note No. 902, National Advisory Committee for Aeronautics, Washington DC, 1943 [16] Plumtree A. and Abdel-Raouf H.A.: Cyclic stress–strain response and substructure, International Journal of Fatigue, Vol. 23, 2001, pp. 799-805 [17] Niesłony A., El Dsoki Ch., Kaufmann H., Krug P.: New method for evaluation of the Manson-Coffin-Basquin and Ramberg-Osgood equations with respect to compatibility, International Journal of Fatigue, Vol. 30, 2008, pp. 1967-1977 [18] Niesłony A., Kurek A., El Dsoki Ch. and Kaufmann H.: A study of compatibility between two classical fatigue curve models based on some selected structural materials, International Journal of Fatigue, 2011, Available online doi:10.1016/j.ijfatigue.2011.03.002
Online since: September 2014
Authors: Lian Fa Yang, Jing Li
Hora: International Journal of Plasticity.
Combescure: International Journal of Mechanical Sciences, Vol. 44(2002), p. 899
[10] Marciniak Z and Kuczynski K: International Journal of Mechanical Science, Vol. 9(1967), p. 609
[11] Ramin Hashemi, Ahmad Assempour and Ehsan Masoumi Khalil Abad: Materials and Design, Vol. 30(2009), p. 3545
Hu: Chinese Journal of Mechanical Engineering, Vol. 30(1994), p. 82.
Combescure: International Journal of Mechanical Sciences, Vol. 44(2002), p. 899
[10] Marciniak Z and Kuczynski K: International Journal of Mechanical Science, Vol. 9(1967), p. 609
[11] Ramin Hashemi, Ahmad Assempour and Ehsan Masoumi Khalil Abad: Materials and Design, Vol. 30(2009), p. 3545
Hu: Chinese Journal of Mechanical Engineering, Vol. 30(1994), p. 82.
Experimental Insights into Rutting and Stripping Resistance of Sisal Fiber Reinforced Asphalt Layers
Online since: February 2026
Authors: Ahmed Ibrahim Al-Safar, Ahlam Alzerjawi
Journal of Composites Science 7.12 (2023): 506. mdpi.com
[13] Hu, WeiHsiu, et al.
Materials Today: Proceedings, 2021.
Journal of Materials Processing Technology, 2024.
Materials Today: Proceedings, 2021.
International Journal of Advance Science and Technology 29.10S (2020): 5111-28.
Materials Today: Proceedings, 2021.
Journal of Materials Processing Technology, 2024.
Materials Today: Proceedings, 2021.
International Journal of Advance Science and Technology 29.10S (2020): 5111-28.
Online since: June 2012
Authors: Jin Yong Jiang, Hao Nan Jia, Gui E Lu, Xiao Biao Jia
And the status of the two kinds of materials under 25℃ and RH 89% are shown in Fig 2.
And the results of the two kinds of materials under 25℃ and RH 89% are shown in table 2.
Moisture has more notable infection on inside wall materials.
[2] Kurulkar G.R, Syal R.K, Singh H: Journal of Energetic Materials.
[6] Yaxia Yin, Sailong Xu, Xuzhu Zhang: Chinese Journal of Energetic Materials.
And the results of the two kinds of materials under 25℃ and RH 89% are shown in table 2.
Moisture has more notable infection on inside wall materials.
[2] Kurulkar G.R, Syal R.K, Singh H: Journal of Energetic Materials.
[6] Yaxia Yin, Sailong Xu, Xuzhu Zhang: Chinese Journal of Energetic Materials.