Study on Impact Damage of a High Temperature Resistant Composite Material

Carbon nanotube/expanded graphite composite material was prepared by expanding the mixture of multi-walled carbon nanotubes and expansible graphite under the condition of high temperature. The microstructure and composition was studied by using SEM and XRD. The study shows that the tubular structure of carbon nanotubes in the composite material is changed by high temperature expanding process, and the microstructure is different with different expanding temperature. When the expanding temperature was 900°C, carbon nanotubes transformed, then attached to the surface of expanded graphite flake, so carbon nanotubes and expanding graphite combined strongly; globular carbon nanotubes attached to the surface of expanded graphite flake at the temperature of 700°C, both were combined much more strongly; carbon nanotubes retained the tube structure at the temperature of 500°C, combination was looser due to the simple physical adsorption. The result shows that the choice of expanding temperature has an important effect on microstructure of carbon nanotube/expanded graphite composite material.

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Europium monoxide as a basis for creating a high-temperature spin injector in the semiconductor spintronics

Modern Electronic Materials ◽

10.3897/j.moem.6.54583 ◽

2020 ◽

Vol 6 (3) ◽

pp. 113-123

Author(s):

Arnold S. Borukhovich

Keyword(s):

Magnetic Field ◽

Solid Solution ◽

Composite Material ◽

High Temperature ◽

External Magnetic Field ◽

Room Temperature ◽

Spin Electronics ◽

Wide Range ◽

Semiconductor Spintronics ◽

Europium Monoxide

The results of the creation of a high-temperature spin injector based on EuO: Fe composite material are discussed. Their magnetic, electrical, structural and resonance parameters are given in a wide range of temperatures and an external magnetic field. A model calculation of the electronic spectrum of the solid solution Eu–Fe–O, responsible for the manifestation of the outstanding properties of the composite, is performed. The possibility of creating semiconductor spin electronics devices capable of operating at room temperature is shown.

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Graphical Assessment of the Linear Contact Steel on Composite Material at High Temperature and Pressure: A Recent Study

New Approaches in Engineering Research Vol. 8 ◽

10.9734/bpi/naer/v8/10345d ◽

2021 ◽

pp. 26-37

Author(s):

Dorin Rus ◽

Virgil Florescu ◽

Florin Bausic ◽

Robert Ursache ◽

Anca Sasu

Keyword(s):

Composite Material ◽

High Temperature ◽

High Temperature And Pressure ◽

Temperature And Pressure

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Examination of Microstructure of Cement Composite Material for Renovation of Horizontal Structures

Key Engineering Materials ◽

10.4028/www.scientific.net/kem.808.103 ◽

2019 ◽

Vol 808 ◽

pp. 103-108

Author(s):

Lenka Mészárosová ◽

Vít Černý ◽

Rostislav Drochytka ◽

Winfried Malorny

Keyword(s):

Thermal Conductivity ◽

Composite Material ◽

High Temperature ◽

Surface Temperature ◽

Cement Composite ◽

Volume Weight ◽

Coefficient Of Thermal Conductivity ◽

New Material ◽

Properties Of Materials ◽

Low Volume

Development of new material is focused on modification of properties of materials with silicate binder so that these could be used for renovation of horizontal structures of high-temperature devices and at the same time contribute to reduction of heat transportation of constructions with higher surface temperature (in this case 200 and 500 °C). Main requirements for this material is low volume weight and low coefficient of thermal conductivity. This paper assesses influence of exposition to higher temperatures on microstructure.

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Composite material for high‐temperature thermochemical energy storage using calcium hydroxide and ceramic foam

Energy Storage ◽

10.1002/est2.53 ◽

2019 ◽

Vol 1 (2) ◽

pp. e53 ◽

Cited By ~ 6

Author(s):

Shigehiko Funayama ◽

Hiroki Takasu ◽

Massimiliano Zamengo ◽

Jun Kariya ◽

Seon Tae Kim ◽

...

Keyword(s):

Composite Material ◽

High Temperature ◽

Energy Storage ◽

Calcium Hydroxide ◽

Ceramic Foam

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Microstructure and Mechanical Properties of Mg-Based Composites Reinforced with TiB2 Particles

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.900.141 ◽

2014 ◽

Vol 900 ◽

pp. 141-145 ◽

Cited By ~ 1

Author(s):

Can Feng Fang ◽

Guang Xu Liu ◽

Ling Gang Meng ◽

Xing Guo Zhang

Keyword(s):

Mechanical Properties ◽

Tensile Strength ◽

Composite Material ◽

High Temperature ◽

The Self ◽

Al Alloy ◽

Temperature Synthesis ◽

Microstructure And Mechanical Properties ◽

High Temperature Synthesis

The effects of in-situ TiB2 particle fabricated from Al-Ti-B system via the self-propagating high-temperature synthesis (SHS) reaction technology on microstructure and mechanical properties of Mg-Sn-Zn-Al alloy were investigated. The results indicate that the size of the Mg2Sn and α-Mg+Mg32(Al,Zn)49 phase becomes coarser with the increasing content of Al-Ti-B preform, meanwhile the amount of eutectic α-Mg+Mg32(Al,Zn)49 phase increases too. The addition of Al-Ti-B is favorable toward promoting the strength of composites, but deteriorates elongation. The resulting as-extruded composite material with 4 wt.% Al-Ti-B preform exhibits good overall mechanical properties with an ultimate tensile strength of 291 MPa and an elongation over 2 %.

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A simple and green synthesis method for Ca-adamantanecarboxylate: a novel precursor for high temperature CO2 capture sorbent materials

Sustainable Energy & Fuels ◽

10.1039/c9se00451c ◽

2019 ◽

Vol 3 (12) ◽

pp. 3318-3323 ◽

Cited By ~ 1

Author(s):

G. V. Manohara ◽

Mercedes Maroto-Valer ◽

Susana Garcia

Keyword(s):

Composite Material ◽

High Temperature ◽

Green Synthesis ◽

Co2 Capture ◽

Synthesis Method ◽

Sorbent Materials ◽

Synthesis Protocol ◽

Inorganic Composite

A simple and green synthesis protocol has been employed to get Ca-ada (calcium-adamantanecarboxylate), the precursor to a hybrid organic–inorganic composite material for high temperature CO2 capture applications.

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Investigation of a High-Temperature Nb-Based Composite Material Mechanically Doped with Si

Inorganic Materials Applied Research ◽

10.1134/s2075113319050290 ◽

2019 ◽

Vol 10 (5) ◽

pp. 1033-1038

Author(s):

B. V. Shchetanov ◽

D. V. Graschenkov ◽

I. U. Efimochkin ◽

S. V. Paegle ◽

R. M. Dvoretskov

Keyword(s):

Composite Material ◽

High Temperature

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