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Barlow, in: Rubber Componding : Principles, Materials and Techniques.
Madufor: American Journal of Polymer Science, Vol. 2 (2012), p. 28-34
Sam: Applied Mechanics and Materials, Vol. 754-755 (2015), p. 115-119
El-Sebaie: Materials and Design, Vol. 30 (5) (2009), p. 1561-1568
El-Sebaie: Materials and Design, Vol. 30 (2009), p. 1785-1791

Unfortunately, as lacking of sufficient knowledge on UHTCs thermal protection materials, development and application of these materials have been limited.
Current research shows that the poor TSR of ceramic materials is because of their inherent brittleness, thermal shock is the important cause of catastrophic failure of ceramic materials [3,4].
Moreover, known from these four figures if some certain constraints are imposed upon the materials, the materials can withstand the more critical fracture temperature difference.
[5] Shixue Song, Xing Ai, Chuanzhen Huang: Journal of Ceramics Vol.23, No.4 (2002), p.233
[6] Tian Shi, ed. : Physical Properties of Materials.

Oladijo3 1Department of Chemical, Metallurgical and Materials Engineering, Tshwane University of Technology, P.M.B.
The molten materials were taken in a crucible and transferred to another crucible in the separate stirring arrangement.
International Conference on Recent Advancement in Mechanical Engineering &Technology (ICRAMET’ 15): Journal of Chemical and Pharmaceutical Sciences ISSN: 0974- 2115. (2015)
International Journal of Electrochemical Science, 8:5515 – 55. (2013)
International Journal of Engineering Science Invention ISSN (Online): 2319 – 6734, www.ijesi.org, Volume 6 Issue 10, PP. 12-19. (2017).

This article deals with a development of new filtration materials for respirators.
These materials can be used for example as wound dressing [1], materials for drug delivery system [2], blood vessel prosthesis [3], electrically conductive nanofibers [4], membranes for batteries [5], nanofibers composites [6,7] or highly efficient materials for filtration [8].
Filtration materials in respirators should remove contaminants and dust particles from an inhaled air and nanofibrous materials with their very small inter-fiber pores have a great potential to meet this goal.
Xu: Electrospinning and nanofibers, New frontiers in fiber science (2001) [8] S.
In Autex Research Journal (In press)

The primary coolant of High-Temperature Gas-cooled Reactor (HTGR) is expected to contain impurities that can make corrosion to structural metallic materials at elevated temperatures.
The impure helium presents new challenges to the properties of materials under very high temperatures.
Journal of Nuclear Materials, 140(2): 94-105 (1986)
Materials and Corrosion, 36(8): 141-150 (1985)
Materials & Corrosion, 36(8): 335-347 (1985)

Therefore, the chitosan-based materials have become a new generation of promising local hemostatic agents that are undergoing active development.
Figure 2 Coagulation time in vitro and in vivo: Dymatic clotting time in vitro（A）showed D1 and D2 possessed excellent hemostasis in vitro superior to other materials.
Journal of Applied Polymer Science, 2011,121(4):2239-2249 [8] Braun JL, Kadla JF.
Journal of Applied Polymer Science 2009,14 (5): 3303-3309
Journal of controlled release. 1990, 13:21-31 [11] Ong SY, Wu J, Moochhala SM, Tan MH, Lu J.

Experimental Materials.
Journal of Materials Science, 53 (2018), 13291-13303
Journal of Applied Polymer Science, (2015), 132
Journal of Applied Polymer Science, 133 (2016), n/a-n/a
Journal of Natural Gas Science & Engineering, 30 (2016), 268-275

Introduction The field of construction is constantly changing and improving, building materials professionals are constantly faced with the challenges of developing new materials as well as improving the functional properties of existing building materials, especially cement-based materials, widely used in load-bearing structures, coatings and finishes.
Series: Materials Science and Engineering. 1209 (2021) 1209
Semenova Properties of cement matrices with increased electrical conductivity, Construction Materials. 1-2 (2022) 11–20
Chung, Materials for Electromagnetic Interference Shielding, Journal of Materials Engineering and Performance. 9 (2000) 350-354
Bharadwaj, Comparative study of carbon nanotube dispersion using surfactants, Journal of colloid and interface science. 328 (2008) 421-428

We investigate the mechanical properties of nanoscale materials like carbon nanotubes (CNT), graphens and nanowires in comparison with those of corresponding bulk materials.
We will show that the thermodynamic and strength properties of the nanoscale materials are quite different from those of the corresponding bulk materials. 1.
We have found that the thermodynamic and electronic properties of nanoscale materials depend sensitively on their geometrical structures and different from those of the bulk materials.
[2] "Nanoscale Materials", ed.
Menon, International Journal of Fracture 125, (2006) 1

Characterization of Magnetic Materials done with non-destructive methods [3, 4].
Hristoforou, Non-destructive evaluation of magnetic metallic materials using Hall sensors, Journal of Materials Processing technology, 161, p. 359-362, 2005 [7] E.
Ktena, Magnetostriction and magnetostrictive materials for sensing applications, J.
Hristoforou, Investigation of magnetic, mechanical and microfailure behavior of ARMCO - type low carbon steel corroded in 3.5% NaCl - aqueous solution, Materials Science and Engineering A, MSEA-D-13-00774, accepted 2013 [16] A.
Wang, A review of three magnetic NDT technologies, Journal of Magnetism and Magnetic Materials, 324, p. 382–388, 2012 [18] D.C.