2026 年至 2032 年航太材料市场（按材料类型、飞机类型和地区划分）

航太材料市场评估-2026-2032

由于航太工业对更轻、更坚固、更耐用的材料的需求不断增加，航太材料市场正在扩大。随着业界努力提高经济性和性能，对能够减轻飞机重量同时保持结构完整性的创新材料的需求强劲。碳纤维复合材料、钛合金和先进铝合金等轻量材料正在帮助实现这一目标，使该行业的销售额在 2024 年超过 420.5 亿美元，并在 2032 年达到约 785.2 亿美元的估值。

由于航空旅客数量的增加以及民用和军用飞机的扩张，航空业的需求正在快速成长。此次扩建将涉及新飞机的建造，这将增加对航太材料的需求。下一代飞机和太空船的建造也需要先进的材料，特别是用于太空探勘和防御的材料。这些材料必须承受极高的温度、辐射和太空旅行的压力，使市场在 2026 年至 2032 年期间的复合年增长率达到 8.12%。

航太材料市场定义/概述

航太材料是用于飞机和太空船设计和建造的专用材料。之所以选择这些材料，是因为它们具有特殊的品质，使它们能够承受航太环境的恶劣条件，包括高空、快速的温度变化、高速和巨大的力量。金属，包括铝、钛和钢合金，是重要的飞机材料。

航太材料的另一个重要应用是太空船再入和高速飞行的热保护系统（TPS）。使用磁砖、烧蚀材料和热感毯来处理重返地球大气层时以及高速飞行时遇到大气摩擦时产生的高热。瓷砖耐热，可为太空船的表面提供隔热材料。

对更轻、更坚固、更有效率的材料的需求可能会推动未来飞机材料的重大发展。铝、钛和复合材料等航太材料由于其强度高、重量轻和使用寿命长而现在被广泛使用。展望未来，我们的重点将放在开发具有更高性能特征的新材料上。

新兴国家和廉价航空公司日益增长的航空旅行需求是否会推动航太材料市场的发展？

新兴国家和低成本航空公司对航空的需求不断增长预计将成为航太材料行业的主要推动力。随着新兴国家经济强劲成长、中阶人口不断扩大，航空旅行需求将会大幅增加。中国、印度和巴西的国内和国际航空运输量均强劲成长。根据国际航空运输协会（IATA）的预测，到2037年，亚太地区的航空旅客数量将达到39亿人次，占全球航空旅客数量的一半以上。这种扩张推动了对新飞机的需求增加，进而推动了对航太材料的需求。

随着飞机製造商寻求新的、更轻的、更耐用的材料来提高燃油效率并降低营运成本，航空航天材料市场将受益于不断增长的需求。根据美国联邦航空管理局 (FAA) 的数据，全球民航机持有预计将从 2019 年的 25,900 架成长到 2039 年的 48,400 架。这项扩张将需要采用复合材料、钛合金和高性能聚合物等先进材料。例如，波音 787 梦幻飞机等现代飞机的重量中复合材料所占比例高达 50%，碳纤维增强聚合物 (CFRP) 在飞机结构中的使用正在增加。根据欧洲航空安全局 (EASA) 的数据，与典型的铝製框架相比，这些材料可以节省 20% 的燃料。

技术挑战会阻碍航太材料市场吗？

儘管技术挑战可能会给航太材料产业带来一些障碍，但预计不会显着阻碍其整体成长轨迹。航太工业不断突破材料科学的极限，以满足飞机和太空船日益严格的性能要求。随着新材料和製造技术的创造和改进，这种对创新的追求可能会造成暂时的瓶颈。

根据美国商务部国际贸易管理局发布的报告，预计到2028年，全球航太材料市场规模将达到258亿美元，2021年至2028年的复合年增长率为6.8%。儘管技术障碍持续存在，但预计仍将实现扩张，这反映了该行业的韧性和适应性。

美国太空总署航空研究任务理事会已经确定了材料改进的许多关键领域，包括用于高超音速飞行的高温材料、用于提高燃油效率的轻质复合材料以及用于延长使用寿命的自修復材料。这些尖端材料的开发虽然在技术上具有挑战性，但它也刺激了技术创新并开闢了新的商业前景。例如，据欧洲太空总署（ESA）称，先进陶瓷和金属基复合材料的研究已经改进了太空船的热防护系统，为太空探勘和卫星技术开闢了新的途径。

目录

第一章 引言

• 市场定义
• 市场区隔
• 调查方法

第二章执行摘要

• 主要发现
• 市场概览
• 市集亮点

第三章市场概述

• 市场规模和成长潜力
• 市场趋势
• 市场驱动因素
• 市场限制
• 市场机会
• 波特五力分析

第四章航太材料市场（依材料类型）

• 铝合金
• 钛合金
• 钢合金
• 复合材料
• 其他的

第五章航太材料市场（依飞机类型）

• 民航机
• 通用商务航空
• 军用机
• 直升机
• 其他飞机类型

第七章区域分析

• 北美洲
• 美国
• 加拿大
• 墨西哥
• 欧洲
• 英国
• 德国
• 法国
• 义大利
• 亚太地区
• 中国
• 日本
• 印度
• 澳洲
• 拉丁美洲
• 巴西
• 阿根廷
• 智利
• 中东和非洲
• 南非
• 沙乌地阿拉伯
• 阿拉伯聯合大公国

第七章市场动态

• 市场驱动因素
• 市场限制
• 市场机会
• COVID-19 市场影响

第八章 竞争态势

• 主要企业
• 市场占有率分析

第九章 公司简介

• Alcoa Corporation
• Aleris Corporation
• Allegheny Technologies Incorporated
• AMETEK, Inc.
• AMG Advanced Metallurgical Group
• ArcelorMittal
• Arconic, Inc.
• ATI Metals.
• Constellium NV
• Cytec Solvay group
• Doncasters Group Ltd
• DuPont de Nemours, Inc.
• Global Titanium, Inc.
• Hexcel Corporation
• Incorporated
• Kaiser Aluminum
• Kobe Steel Ltd
• Mitsubishi Chemical Holdings

第十章 市场展望与机会

• 新兴技术
• 未来市场趋势
• 投资机会

第十一章 市场展望 附录

• 简称列表
• 来源和参考文献

Aerospace Materials Market Valuation - 2026-2032

The aerospace materials market is expanding due to rising demand for lighter, stronger, and more durable materials in the aerospace industry. As the industry works for improved economy and performance, there is a strong demand for innovative materials that can reduce aircraft weight while maintaining structural integrity. Lightweight materials such as carbon fiber composites, titanium alloys, and sophisticated aluminum alloys aid in reaching this goal by enabling the market to surpass a revenue of USD 42.05 Billion valued in 2024 and reach a valuation of around USD 78.52 Billion by 2032.

The aircraft sector is seeing a boom in demand as the number of air travelers increases and commercial and military fleets expand. This expansion involves the construction of new aircraft which increases the need for aerospace materials. Advanced materials are also required for the construction of next-generation aircraft and spacecraft particularly those employed in space exploration and defense. These materials must survive tremendous temperatures, radiation, and the strains of space travel by enabling the market to grow at a CAGR of 8.12% from 2026 to 2032.

Aerospace Materials Market: Definition/ Overview

Aerospace materials are specialized materials used in the design and manufacture of airplanes and spacecraft. These materials are chosen because of their specific qualities which allow them to endure the harsh circumstances of aerospace environments like high altitudes, rapid temperature fluctuations, and exposure to high speeds and forces. Metals including aluminum, titanium, and steel alloys are an important type of aircraft material.

Another important application of aerospace materials is thermal protection systems (TPS) for spacecraft re-entry and high-speed flight. Ceramic tiles, ablative materials, and thermal blankets are used to handle the intense heat generated upon re-entry into the Earth's atmosphere or when experiencing atmospheric friction while flying at high speeds. Ceramic tiles are heat resistant and provide thermal insulation to spacecraft surfaces which is critical for guarding against temperatures of thousands of degrees Celsius.

The requirement for lighter, stronger, and more efficient materials will drive considerable developments in aircraft materials in the future. Aerospace materials such as aluminum, titanium, and composites are now commonly employed due to their high strength-to-weight ratio and longevity. Looking ahead, there is a rising emphasis on developing new materials with even higher performance characteristics.

Will the Increasing Demand for Aviation from Developing Countries and Budget Airlines Drive the Aerospace Materials Market?

The rising demand for aviation from developing countries and inexpensive carriers is likely to be a major driver of the aerospace materials industry. As emerging economies see strong economic growth and expanding middle-class populations, air travel demand surges. China, India, and Brazil are experiencing significant growth in domestic and international aviation traffic. According to the International Air Transport Association (IATA), the Asia-Pacific region is forecast to witness the greatest increase in air passengers reaching 3.9 billion by 2037 accounting for more than half of worldwide air travel. This expansion is increasing the demand for new aircraft which in turn drives demand for aerospace materials.

The aircraft materials market is set to profit from growing demand, as manufacturers seek novel, lightweight, and long-lasting materials to improve fuel efficiency and lower operational costs. According to the US Federal Aviation Administration (FAA), the global commercial aircraft fleet is predicted to increase from 25,900 in 2019 to 48,400 by 2039. This expansion necessitates the employment of sophisticated materials including composites, titanium alloys, and high-performance polymers. For example, the usage of carbon fiber reinforced polymers (CFRPs) in aircraft constructions has increased with modern aircraft such as the Boeing 787 Dreamliner containing up to 50% composite materials by weight. According to the European Union Aviation Safety Agency (EASA), these materials save 20% more fuel than typical aluminum frames.

Will Technological Challenges Hamper the Aerospace Materials Market?

Technological issues may present some barriers for the aerospace materials industry but they are unlikely to significantly impede its overall growth trajectory. The aerospace industry is always pushing the boundaries of material science to fulfill the increasingly stringent performance requirements for aircraft and spacecraft. This quest for innovation may cause temporary roadblocks when new materials and manufacturing techniques are created and improved.

According to a report released by the US Department of Commerce's International Trade Administration, the global aerospace materials market is expected to reach $25.8 billion by 2028, rising at a 6.8% CAGR from 2021 to 2028. This expansion is anticipated despite continued technological obstacles reflecting the industry's endurance and adaptability.

The NASA Aeronautics Research Mission Directorate identifies many critical areas for material improvements including high-temperature materials for hypersonic flight, lightweight composites for higher fuel efficiency, and self-healing materials for increased longevity. While developing these cutting-edge materials is technically challenging, it also fosters innovation and opens up new business prospects. For example, the European Space Agency (ESA) says that research into advanced ceramics and metal matrix composites has resulted in improvements in thermal protection systems for spacecraft opening up new avenues for space exploration and satellite technologies.

Category-Wise Acumens

Will the Strength-to-Weight Ratio Drive the Material Type Segment?

Aluminum alloys continue to dominate the aerospace materials market. This dominance stems mostly from aluminum's superior strength-to-weight ratio which is critical for aircraft performance. Aluminum alloys are widely utilized to make aircraft wings, fuselages, and other structural components. Aluminum's primary advantage is its ability to be lightweight while still providing great strength which has a direct impact on fuel efficiency and overall aircraft performance. Given the strict criteria for aircraft weight reduction to improve fuel efficiency and lower operating costs, aluminum alloys reach the ideal mix of weight and strength making them important in the aerospace sector.

Aluminum alloys are less expensive than other high-performance materials such as titanium and composites. Titanium alloys and composites have higher strength and high-temperature resistance but they are substantially more expensive to manufacture and process. This cost issue makes aluminum alloys a more economically viable choice for large-scale commercial aircraft manufacture. Furthermore, aluminum's simplicity of manufacturing and availability reinforce its status as the material of choice for aerospace producers.

Will the Expanding E-Commerce Sectors Drive the Aircraft Type Segment?

Commercial airplanes are the most significant segment. Commercial aviation's dominance stems mostly from its sheer volume and scale as compared to other categories such as business aviation, military aircraft, helicopters, and other specialized aerospace vehicles. The commercial aircraft market includes passenger planes and freight carriers which are the foundation of global air travel and operations. Commercial aircraft demand remains constantly high driven by increased global connectivity, rising passenger traffic, and expanding e-commerce sectors. This segment's emphasis on improving fuel efficiency and lowering operational costs encourages ongoing innovation and acceptance of innovative lightweight materials including aluminum alloys and composites. These materials reduce aircraft weight resulting in much lower fuel consumption and emissions addressing both economic and environmental issues.

The commercial aircraft segment dominates the aerospace materials market due to its massive size, ongoing demand for efficiency improvements, and considerable impact on global air travel and cargo transit. This segment's emphasis on lightweight, durable materials such as aluminum alloys and composites promotes innovation and establishes material use patterns throughout the aerospace industry. This supremacy is maintained by continual breakthroughs in material science and manufacturing techniques which ensure commercial aviation's position at the forefront of aerospace material uses.

Country/Region-wise Acumens

Will Advanced Technologies for Aerospace Material Production Drive the Market in the North America?

The aerospace materials market in North America is expected to increase significantly owing to better material production processes. These revolutionary technologies are transforming the way aerospace materials are conceived, manufactured, and applied resulting in improved performance, durability, and cost-effectiveness in airplane and spacecraft components. According to a report by the US Department of Commerce's International Trade Administration, the United States is the world's top aerospace producer with civil and military aircraft, engines, and components sales totaling USD 217 Billion in 2019. This sizable market size lays a solid platform for the implementation of innovative material production processes. The Federal Aviation Administration (FAA) has also supported these improvements with projects such as the Advanced Materials Research Program targeted at producing superior materials for aerospace.

The North American aerospace materials market is likely to benefit significantly from the integration of new technologies such as additive manufacturing, nanotechnology, and smart materials. For example, NASA has been aggressively studying and developing new materials for aerospace purposes such as high-temperature composites and lightweight metals. NASA highlighted its work on ceramic matrix composites (CMCs) that can resist temperatures up to 2700°F in a 2021 study with the potential to revolutionize jet engine design and efficiency. Furthermore, the US Air Force Research Laboratory has been investing in the development of advanced carbon nanotube materials which could result in significant weight savings in aircraft structures.

Will the Availability of Raw Material Drive the Market in the Asia Pacific Region?

The availability of raw materials is a primary driver of the Asia Pacific aerospace materials market. This region is rich in resources necessary for aircraft manufacturing such as aluminum, titanium, and composite materials. Countries such as China, Japan, and India have large reserves of these resources giving them a cost advantage and increase in supply chain efficiency. According to the US Geological Survey, China is the world's top aluminum producer accounting for approximately 57% of worldwide production in 2020. This availability of raw materials enables more cost-effective production of aerospace components luring both domestic and international businesses to establish operations in the region.

The increasing investment in advanced material research and development in this region is expected to improve the quality and performance of locally obtained raw materials. According to Asian Development Bank research, R&D expenditure in East Asia and the Pacific has continuously increased reaching 2.5% of GDP in 2018 exceeding the global average. This funding is driving material science advancements such as the creation of high-performance alloys and composites for aerospace applications. The Asia Pacific region is emerging as a major participant in the worldwide aerospace materials market thanks to the availability of raw materials and increasing technological improvements.

Competitive Landscape

The aerospace materials market is a dynamic and competitive space, characterized by a diverse range of players vying for market share. These players are on the run for solidifying their presence through the adoption of strategic plans such as collaborations, mergers, acquisitions, and political support. The organizations are focusing on innovating their product line to serve the vast population in diverse regions.

Some of the prominent players operating in the aerospace materials market include:

Alcoa Corporation

Aleris Corporation

Allegheny Technologies Incorporated

AMETEK, Inc.

AMG Advanced Metallurgical Group

ArcelorMittal

Arconic, Inc.

ATI Metals.

Constellium N.V

Cytec Solvay group

Doncasters Group Ltd

DuPont de Nemours, Inc.

Global Titanium, Inc.

Hexcel Corporation

Incorporated

Kaiser Aluminum

Kobe Steel Ltd

Mitsubishi Chemical Holdings

Latest Developments

In July 2022, Hexcel established a cooperation with Dassault to supply carbon fiber prepreg for the Falcon 10X program, which incorporates high-performance advanced carbon fiber composites in the manufacture of aircraft wings.

In October 2022, Toray Composite Materials America and Speciality Materials, a boron fiber manufacturer, formed a partnership to create innovative next-generation aerospace materials with functional qualities. This move will improve Toray's position in the aerospace materials market.

Aerospace Materials Market, By Category

• Material Type:
• Aluminum Alloys
• Titanium Alloys
• Steel Alloys
• Composites
• Others
• Aircraft Type:
• Commercial Aircraft
• Business & General Aviation
• Military Aircraft
• Helicopters
• Others
• Region:
• North America
• Europe
• Asia-Pacific
• South America
• Middle East & Africa

TABLE OF CONTENTS

1. Introduction

• Market Definition
• Market Segmentation
• Research Methodology

2. Executive Summary

• Key Findings
• Market Overview
• Market Highlights

3. Market Overview

• Market Size and Growth Potential
• Market Trends
• Market Drivers
• Market Restraints
• Market Opportunities
• Porter's Five Forces Analysis

4. Aerospace Materials Market, By Material Type

• Aluminum Alloys
• Titanium Alloys
• Steel Alloys
• Composites
• Other Materials

5. Aerospace Materials Market, By Aircraft Type

• Commercial Aircraft
• Business & General Aviation
• Military Aircraft
• Helicopters
• Other Aircraft Types

7. Regional Analysis

• North America
• United States
• Canada
• Mexico
• Europe
• United Kingdom
• Germany
• France
• Italy
• Asia-Pacific
• China
• Japan
• India
• Australia
• Latin America
• Brazil
• Argentina
• Chile
• Middle East and Africa
• South Africa
• Saudi Arabia
• UAE

7. Market Dynamics

• Market Drivers
• Market Restraints
• Market Opportunities
• Impact of COVID-19 on the Market

8. Competitive Landscape

• Key Players
• Market Share Analysis

9. Company Profiles

• Alcoa Corporation
• Aleris Corporation
• Allegheny Technologies Incorporated
• AMETEK, Inc.
• AMG Advanced Metallurgical Group
• ArcelorMittal
• Arconic, Inc.
• ATI Metals.
• Constellium N.V
• Cytec Solvay group
• Doncasters Group Ltd
• DuPont de Nemours, Inc.
• Global Titanium, Inc.
• Hexcel Corporation
• Incorporated
• Kaiser Aluminum
• Kobe Steel Ltd
• Mitsubishi Chemical Holdings

10. Market Outlook and Opportunities

• Emerging Technologies
• Future Market Trends
• Investment Opportunities

11. Appendix

• List of Abbreviations
• Sources and References