ON-BOARD RADIOELECTRONIC EQUIPMENT
Authors:
1.
Voronezh State University of Forestry and Technologies named after G.F. Morozov
2.
Voronezh State University of Forestry and Technologies named after G.F. Morozov
Russian Federation
Russian Federation
3.
Voronezh State University of Forestry and Technologies named after G.F. Morozov
Russian Federation
Russian Federation
Type:
Сonference article
Pages:
from 466
to 476
Published:
15.01.2026
Subject area:
UDC 004
Language:
Russian
Keywords:
High-strength materials, aircraft structures, composite materials, metal alloys, polymers for aviation, nanomaterials, energy efficiency, import substitution, environmental safety, Russian aviation industry, innovative technologies
Abstract (English):
This article presents an analytical review of the structure, evolution, and current status of high-strength materials for aircraft structures. It examines the main groups of materials used, including metallic, polymer, and composite, as well as current trends toward nanostructured and intelligent composites. Particular attention is paid to the technological aspects of increasing strength and heat resistance, reducing structural weight, and meeting environmental standards. It describes the prospects for the introduction of domestic materials, implemented through import substitution programs, as well as the challenges of energy efficiency, resource conservation, and environmental safety in the aviation industry. The impact of innovative technical solutions on the reliability, durability, safety, and r\educed operating costs of aircraft is analyzed.
This article presents an analytical review of the structure, evolution, and current status of high-strength materials for aircraft structures. It examines the main groups of materials used, including metallic, polymer, and composite, as well as current trends toward nanostructured and intelligent composites. Particular attention is paid to the technological aspects of increasing strength and heat resistance, reducing structural weight, and meeting environmental standards. It describes the prospects for the introduction of domestic materials, implemented through import substitution programs, as well as the challenges of energy efficiency, resource conservation, and environmental safety in the aviation industry. The impact of innovative technical solutions on the reliability, durability, safety, and r\educed operating costs of aircraft is analyzed.
Keywords:
High-strength materials, aircraft structures, composite materials, metal alloys, polymers for aviation, nanomaterials, energy efficiency, import substitution, environmental safety, Russian aviation industry, innovative technologies
High-strength materials, aircraft structures, composite materials, metal alloys, polymers for aviation, nanomaterials, energy efficiency, import substitution, environmental safety, Russian aviation industry, innovative technologies
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