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Online since: July 2024
Authors: Dan Yong Wang, Wen Fang Xing, Shu Hu Li, Hua Zhen Wei
Barbero, Journal of Composite Materials. 32(1998) 483
[2] E.J.
Saleh, Journal of Composite Materials. 27(1993) 83 [4] J.M.
Springer, Journal of Composite Materials. 21(1987) 421 [5] B.W.
Morals, Journal of composite materials. 30(1996) 1115 [8] A.S.
Argon A S, Treatise on Materials Science and Technology. 1(1972) 79 [9] B.
Saleh, Journal of Composite Materials. 27(1993) 83 [4] J.M.
Springer, Journal of Composite Materials. 21(1987) 421 [5] B.W.
Morals, Journal of composite materials. 30(1996) 1115 [8] A.S.
Argon A S, Treatise on Materials Science and Technology. 1(1972) 79 [9] B.
Online since: October 2025
Authors: Ester Angula, Junestus Negongo, Kalola Ferdinand, Surendra Kumar Saini
Materials Science and Engineering 1305 (2024) 012017
International Journal of Mechanical and Materials Engineering 5 (2010) 182-190
Arabian Journal for Science and Engineering 44 (2019) 5801-5809
Journal of Engineering and Applied Science 70 (2023) 145
Journal of Survey in Fisheries Sciences 10 (2023) 2106-2122
International Journal of Mechanical and Materials Engineering 5 (2010) 182-190
Arabian Journal for Science and Engineering 44 (2019) 5801-5809
Journal of Engineering and Applied Science 70 (2023) 145
Journal of Survey in Fisheries Sciences 10 (2023) 2106-2122
Online since: January 2017
Authors: Hua Yan, Yun Tao Li, Si Xie Zhao
Materials and methods
Materials.
Renganarayanan: Journal of Zhejiang University Science A (Science in Engineering), Vol. 7 (2006) No.11, p.1886
Fang: Journal of Function Materials, Vol. 8 (2009) No.40, p.1313
Wu: Chinese Journal of Materials Research, Vol. 24 (2010) No.3, p.330
LIU: Chinese Journal of Materials Research, Vol. 29 (2015) No.9, p.673
Renganarayanan: Journal of Zhejiang University Science A (Science in Engineering), Vol. 7 (2006) No.11, p.1886
Fang: Journal of Function Materials, Vol. 8 (2009) No.40, p.1313
Wu: Chinese Journal of Materials Research, Vol. 24 (2010) No.3, p.330
LIU: Chinese Journal of Materials Research, Vol. 29 (2015) No.9, p.673
Online since: January 2007
Authors: Wei Peng, F.Q. Liu, Tao Gao, C.Y. Yao, Xun Lv, Ju Long Yuan
Experimental Setup
Preparation of Bonding Materials.
Journal of the ASPE Vol. 21, No 2/3 pp.134-139
Journal of materials Processing Technology, Vol. 113(2001), pp.385-388
Yao: Journal of Materials Processing Tech.
Gao: Key Engineering Materials Vol. 259(1) (2004), pp.59-63.
Journal of the ASPE Vol. 21, No 2/3 pp.134-139
Journal of materials Processing Technology, Vol. 113(2001), pp.385-388
Yao: Journal of Materials Processing Tech.
Gao: Key Engineering Materials Vol. 259(1) (2004), pp.59-63.
Online since: September 2016
Authors: Raghu V. Prakash, Vladlen Mazur, Viktor Artiukh
Petersburg State Polytechnical University, Polytechnicheskaya, 29, Saint-Petersburg, 195251, Russia
2LLC “Saint-Petersburg Electrotechnical Company”, Pushkin, Parkovaya, 56, Saint-Petersburg, 196603, Russia
3Indian Institute of Technology Madras, C1-6-7, Second Loop Road, Madras Campus, Chennai, 600036, India
aartiukh@mail.ru, bmr_mazur@mail.ru, craghuprakash@iitm.ac.in
Keywords: Dynamic Loads, Accidental Failures, Workpiece, Rolling Mill Frame, Materials Science, Main Line, Contemporary Materials for Metallurgy.
The article exposes contemporary materials and structures for metallurgy.
Artyukh, Loading Decrease in Metallurgical Machines, Research Journal of Applied Sciences, Engineering and Technology. 8(12) (2014) 1461-1464
Artyukh, Effectiveness of Flexible Pin Type Couplings, International Journal of Engineering Science and Innovative Technology (IJESIT).
Artukh, Choice of Elastomeric Material for Buffer Devices of Metallurgical Equipment, Research Journal of Applied Sciences, Engineering and Technology. 4(11) (2012) 1585-1589
The article exposes contemporary materials and structures for metallurgy.
Artyukh, Loading Decrease in Metallurgical Machines, Research Journal of Applied Sciences, Engineering and Technology. 8(12) (2014) 1461-1464
Artyukh, Effectiveness of Flexible Pin Type Couplings, International Journal of Engineering Science and Innovative Technology (IJESIT).
Artukh, Choice of Elastomeric Material for Buffer Devices of Metallurgical Equipment, Research Journal of Applied Sciences, Engineering and Technology. 4(11) (2012) 1585-1589
Online since: July 2014
Authors: Tong Tong Xie, Yu Jie Liu, Li Li Wang
With the development of science and technology and rapidly changing times, people have developed more new material on the basis of traditional materials.
The article made a main study to structural materials and functional materials.
New modeling structure material, have many kinds, such as a new type of metal materials, new high polymer material, new type of composite materials, a new type of glass material and so on.
Some new materials were introduced here.
(In Chinese) [5] Jianning Su, Heqi Li: Journal of Gansu University of Technology, (2003).
The article made a main study to structural materials and functional materials.
New modeling structure material, have many kinds, such as a new type of metal materials, new high polymer material, new type of composite materials, a new type of glass material and so on.
Some new materials were introduced here.
(In Chinese) [5] Jianning Su, Heqi Li: Journal of Gansu University of Technology, (2003).
Online since: May 2011
Authors: Shi Qun Guo, Zhen Yang
Fundamental solutions of a normal force in semi-infinite coating materials.
In common, main failure of coating materials is delamination.
Nix: Journal of Materials Research, Vol. 14(1999): p. 2196-2203 [3] T.Y.
Nix: Journal of Materials Research, Vol. 14(1999): p. 2204-2209 [4] H.
Fischer-Cripps: Journal of Materials Science, Vol. 32(1997): p. 5653-5659 [6] J.F.
In common, main failure of coating materials is delamination.
Nix: Journal of Materials Research, Vol. 14(1999): p. 2196-2203 [3] T.Y.
Nix: Journal of Materials Research, Vol. 14(1999): p. 2204-2209 [4] H.
Fischer-Cripps: Journal of Materials Science, Vol. 32(1997): p. 5653-5659 [6] J.F.
Online since: September 2011
Authors: Ming Tian Li, Jun Lian He
Actually, quasi-brittle materials are heterogeneous.
Lattice cellular automata can be used to study the heterogeneity of quasi-brittle materials.
To divide materials into equivalent lattice model. 2.
Quasi-brittle materials such as rock, concrete and so on are usually in compression.
Zhou: International Journal of Rock Mechanics and Mining Sciences, Vol.41(2004), p. 452 [8] B.Q.
Lattice cellular automata can be used to study the heterogeneity of quasi-brittle materials.
To divide materials into equivalent lattice model. 2.
Quasi-brittle materials such as rock, concrete and so on are usually in compression.
Zhou: International Journal of Rock Mechanics and Mining Sciences, Vol.41(2004), p. 452 [8] B.Q.
Online since: February 2014
Authors: Nikol Žižková, Jitka Hroudová, Jiří Zach
Insulation materials based on natural fibers represent a good alternative for current standardly used insulation materials like foamed plastic materials and mineral wool.
Input materials for such industrial insulation materials are particularly crude oil and non-renewable natural resources (moreover, manufacture of these insulation materials consumes high amount of energy).
To compare behavior of thermo insulating materials in the ETICS system, classic thermo-insulating materials were used (EPS, Multipor) as well as alternative materials - hemp boards, flax boards, straw boards.
Indian Journal of Fibre & Textile Research [online], Vol. 34, p. 377 – 379. (2009).
Journal of Sol-gel Science and Technology [online], Vol. 58, Issue 1, p. 18-23. (2011) Information on: http://link.springer.com/article/10.1007%2Fs10971-010-2349-8?
Input materials for such industrial insulation materials are particularly crude oil and non-renewable natural resources (moreover, manufacture of these insulation materials consumes high amount of energy).
To compare behavior of thermo insulating materials in the ETICS system, classic thermo-insulating materials were used (EPS, Multipor) as well as alternative materials - hemp boards, flax boards, straw boards.
Indian Journal of Fibre & Textile Research [online], Vol. 34, p. 377 – 379. (2009).
Journal of Sol-gel Science and Technology [online], Vol. 58, Issue 1, p. 18-23. (2011) Information on: http://link.springer.com/article/10.1007%2Fs10971-010-2349-8?
Online since: October 2014
Authors: E.G. Gazenaur, A.P. Rodzevich, G.M. Belokurov
THE TECHNOLOGY OF PRODUCTION AND TREATMENT OF MATERIALS IN THE ELECTRIC FIELD
A.P.
The technical result of the method of production and treatment of materials in the weak constant electric current suggested in the given paper is the opportunity of regulating the physical and technical properties of materials.
Journal of Crystal Growth, 88, (1), 1-15
On a mechanizm of an electric field influence on physicotecnical specifications of materials, Applied Mechanics and Materials, 379 (2013) 154-160
The method for regulating the explosive sensitiveness of energetic materials.
The technical result of the method of production and treatment of materials in the weak constant electric current suggested in the given paper is the opportunity of regulating the physical and technical properties of materials.
Journal of Crystal Growth, 88, (1), 1-15
On a mechanizm of an electric field influence on physicotecnical specifications of materials, Applied Mechanics and Materials, 379 (2013) 154-160
The method for regulating the explosive sensitiveness of energetic materials.