Fabrication Technologies of a Dispersion-Reinforced Metallic Composite Material Based on an Aluminum Alloy-Review

被引：2

作者：

Shavnev, A. A. ^{[1
]}

Kurbatkina, E. I. ^{[1
]}

Nyafkin, A. N. ^{[1
]}

Kosolapov, D. V. ^{[1
]}

机构：

[1] All Russian Sci Res Inst Aviat Mat VIAM, Moscow 105005, Russia

来源：

INORGANIC MATERIALS-APPLIED RESEARCH | 2023年 / 14卷 / 01期

关键词：

composite material; aluminum; refractory particles; powder technology; liquid-phase technology;

D O I：

10.1134/S2075113323010331

中图分类号：

T [工业技术];

学科分类号：

08 ;

摘要：

A scientific and technical literature review in the field of composite materials (CMs) based on aluminum matrices reinforced with refractory particles is presented. We consider the liquid-phase and powder technologies of the fabrication of CMs based on aluminum alloys reinforced with different volume contents of refractory particles. The main structural features and mechanical characteristics of these composites are briefly described.

引用

页码：76 / 80

页数：5

共 18 条

[1] Fabrication Technologies of a Dispersion-Reinforced Metallic Composite Material Based on an Aluminum Alloy—Review
A. A. Shavnev
E. I. Kurbatkina
A. N. Nyafkin
D. V. Kosolapov
Inorganic Materials: Applied Research, 2023, 14 : 76 - 80
[2] Mechanical properties of a metallic composite material based on an aluminum alloy reinforced by dispersed silicon carbide particles
Berezovskii V.V.
Solyaev Y.O.
Lur’e S.A.
Babaitsev A.V.
Shavnev A.A.
Kurganova Y.A.
Russian Metallurgy (Metally), 2015, 2015 (10) : 790 - 794
[3] Production of Highly Reinforced Dispersion-Strengthened Composite Material Based on Aluminum by Internal Oxidation
Chernyshov, E. A.
Romanov, A. D.
Romanova, E. A.
METALLURGIST, 2018, 62 (7-8) : 815 - 819
[4] Production of Highly Reinforced Dispersion-Strengthened Composite Material Based on Aluminum by Internal Oxidation
E. A. Chernyshov
A. D. Romanov
E. A. Romanova
Metallurgist, 2018, 62 : 815 - 819
[5] Fabrication of particle-reinforced aluminum alloy composite: role of casting and rolling
Li, Zhide
Zhang, Yun
Xiong, Hanqing
Kong, Charlie
Yu, Hailiang
MATERIALS AND MANUFACTURING PROCESSES, 2022, 37 (01) : 90 - 98
[6] Wear under Conditions of Dry Friction of a Composite Material Based on an Aluminum Alloy Reinforced with Nanocrystalline Graphite
Aborkin, A. V.
Elkin, A. I.
Sytschev, A. E.
Alymov, M. I.
JOURNAL OF FRICTION AND WEAR, 2020, 41 (03) : 236 - 241
[7] Wear under Conditions of Dry Friction of a Composite Material Based on an Aluminum Alloy Reinforced with Nanocrystalline Graphite
A.V. Aborkin
A. I. Elkin
A. E. Sytschev
M. I. Alymov
Journal of Friction and Wear, 2020, 41 : 236 - 241
[8] Composite Material Based on Intermetallic Alloy of VKNA Type Reinforced with Oxide Particles
O. A. Bazyleva
I. Yu. Efimochkin
E. G. Arginbaeva
R. S. Kuptsov
M. M. Karashaev
Inorganic Materials: Applied Research, 2021, 12 : 307 - 312
[9] Composite Material Based on Intermetallic Alloy of VKNA Type Reinforced with Oxide Particles
Bazyleva, O. A.
Efimochkin, I. Yu.
Arginbaeva, E. G.
Kuptsov, R. S.
Karashaev, M. M.
INORGANIC MATERIALS-APPLIED RESEARCH, 2021, 12 (02) : 307 - 312
[10] Thermomechanical Behavior of a Composite Material Reinforced with Wire of Alloy Based on Titanium Nickelide
Gusev, D. E.
Kollerov, M. Yu.
Lukina, E. A.
Vinogradov, R. E.
INORGANIC MATERIALS-APPLIED RESEARCH, 2023, 14 (01) : 144 - 152

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