첨단 항공우주 재료 시장

The global market for advanced aerospace materials was valued at $32.6 billion in 2025 and is estimated to reach $51.2 billion by 2031, at a compound annual growth rate (CAGR) of 8.5% from 2026 through 2031.

The North American market for advanced aerospace materials was valued at $15.4 billion in 2025 and is estimated to reach $24.7 billion by 2031, at a CAGR of 8.9% from 2026 through 2031.

The Asia-Pacific market for advanced aerospace materials was valued at $5.1 billion in 2025 and is estimated to reach $9 billion by 2031, at a CAGR of 10.5% from 2026 through 2031.

Report Scope

This report provides a detailed global market analysis of advanced aerospace materials, reflecting the latest data, trends, and market projections. Advanced aerospace materials refer to a class of high-performance metallic and non-metallic materials engineered to meet the extreme mechanical, thermal, chemical, and fatigue demands of civil, defense, and space aviation platforms. These materials are designed to optimize strength-to-weight ratio, high-temperature resistance, corrosion and oxidation stability, fracture toughness, and long-term durability under cyclic loading and harsh atmospheric conditions. Unlike conventional industrial materials, aerospace-grade variants undergo rigorous certification, traceability, and performance validation processes, significantly elevating their technical and economic value.

The report focuses on the material type, aircraft type, application, and end use aspects of advanced aerospace materials. The base year for the study is 2025, with estimates and forecasts for 2026 through 2031. Market estimates are valued in U.S. dollars (millions). Forecast growth rates are based on expected industry capacity additions, feedback from industry leaders, revenue reported by major companies, and anticipated regulatory updates. Data from major aerospace materials associations-such as the Aerospace Industries Association, Society of Indian Aerospace Technologies and Industries, International Aerospace Quality Group, General Aviation Manufacturers Association, Royal Aeronautical Society, International Trade Administration, Aerospace Industries Association of Brazil, and American Composites Manufacturers Association were used to anticipate market dynamics and to further measure market size.

For this analysis, the global market for advanced aerospace materials is segmented as follows:

• Material Type: Advanced aluminum alloys, advanced composites, titanium alloys, ceramic-matrix composites, superalloys, advanced steel alloys, and advanced adhesives.
• Aircraft Type:Commercial aircraft, military aircraft, general aviation, and helicopters.
• Commercial Aircraft Subsegments: Passenger aircraft, transport aircraft, and space aircraft.
• Application: Primary structures, engines, secondary structures and interiors, systems and nacelles, landing gear and braking.
• End Use: Private sector and public sector.
• Region: North America, Europe, Asia-Pacific, South America, and the Middle East and Africa.

Report Includes

• 132 data tables and 49 additional tables
• An overview of the global market for advanced aerospace materials
• In-depth analysis of the global markets for advanced aerospace materials, including forecasts for its growth from 2026 to 2031
• Estimates of the current market size and revenue prospects for the global market, along with analysis of key market trends and growth drivers influencing the advanced aerospace materials industry
• Analysis of the global advanced aerospace materials market by material type, application, end-use industry and region
• Coverage of key material types including advanced aluminum alloys, advanced composites, titanium alloys, ceramic-matrix composites, superalloys, advanced steel alloys and advanced adhesives
• Evaluation of major applications including commercial aircraft, military aircraft, general aviation and helicopters
• Discussion of emerging technologies, market dynamics, demand-driving strategies and the competitive environment in the advanced aerospace materials market
• Company profiles of major players within the industry, including Toray Industries Inc., Hexcel Corp., Syensqo, Teijin Ltd., and Mitsubishi Chemical Group Corp.

Table of Contents

Chapter 1 Executive Summary

• Market Outlook
• Scope of Report
• Market Summary
• Market Dynamics and Drivers
• Trends and Future Developments
• Segmental Analysis
• Regional Insights and Emerging Markets
• Conclusion

Chapter 2 Market Overview

• Overview
• Technology Background
• Criteria for Selecting Materials
• Strength-to-Weight Ratio
• Mechanical Performance
• Thermal Resistance and High-Temperature Stability
• Corrosion and Environmental Resistance
• Manufacturability and Production Scalability
• Lifecycle Economics
• Sustainability and Recyclability
• Certification, Safety, and Regulatory Compliance
• Value Chain Analysis
• Raw Material Extraction
• Material Processing
• Semi-Finished Products
• Component and Subsystem Manufacturing
• OEM Integration and Final Assembly
• Distribution, MRO, and Aftermarket Services
• Recycling and Circular Economy
• Regulatory Landscape
• U.S.-Israel Versus Iran Conflict Impact on the Global Market for Advanced Aerospace Materials

Chapter 3 Market Dynamics

• Market Dynamics Snapshot
• Market Drivers
• Surge in Defense Spending Driven by Global Conflicts
• Surge in Global Air Traffic Demand
• Fuel Efficiency and Decarbonization Pressures
• Growing Prevalence of Digital Material Engineering
• Market Restraints
• Supply Chain Risks
• Certification and Qualification Bottlenecks
• Market Opportunities
• Growth of Space Economy and Commercial Spaceflight
• Advanced Air Mobility and Electric Vertical Take-off and Landing Revolution
• Market Challenges
• Manufacturing Complexity and Scalability Barriers
• End-of-Life Recycling Challenges

Chapter 4 Emerging Technologies and Developments

• Overview
• Emerging Technologies
• Additive Manufacturing
• Automated Fiber Placement
• AI-Driven Materials Design and Process Optimization
• Advanced Powder Metallurgy and Hot Isostatic Pressing
• Out-of-Autoclave and Resin Transfer Molding
• Plasma-Assisted Surface Engineering
• Key Developments

Chapter 5 Market Segmentation Analysis

• Segmentation Breakdown
• Market Analysis by Material Type
• Key Takeaways
• Advanced Aluminum Alloys
• Advanced Composites
• Titanium Alloys
• Ceramic-Matrix Composites
• Superalloys
• Advanced Steel Alloys
• Advanced Adhesives
• Market Analysis by Aircraft Type
• Key Takeaways
• Commercial Aircraft
• Military Aircraft
• General Aviation
• Helicopters
• Market Analysis by Application
• Key Takeaways
• Primary Structures
• Engines
• Secondary Structures and Interiors
• Systems and Nacelles
• Landing Gear and Braking
• Market Analysis by End Use
• Key Takeaways
• Private Sector
• Public Sector
• Geographic Breakdown
• Market Analysis by Region
• Key Takeaways
• North America
• Europe
• Asia-Pacific
• South America
• Middle East and Africa (MEA)

Chapter 6 Competitive Intelligence

• Industry Structure
• Company Market Share Analysis
• Toray Industries Inc.
• Hexcel Corp.
• Syensqo
• Teijin Ltd.
• Mitsubishi Chemical Group Corp.

Chapter 7 Appendix

• Methodology
• References
• Abbreviations
• Company Profiles
• ARCONIC
• ATI
• CARPENTER TECHNOLOGY CORP. (CRS HOLDINGS LLC)
• CONSTELLIUM
• DONCASTERS GROUP
• DUPONT
• HEXCEL CORP.
• HUNTSMAN INTERNATIONAL LLC
• MATERION CORP.
• MITSUBISHI CHEMICAL GROUP CORP.
• PRECISION CASTPARTS CORP.
• SGL CARBON
• SYENSQO
• TEIJIN LTD.
• TORAY INDUSTRIES INC.