全球航空航天和國防鋁需求（2023-2033）

全球航空航天和國防工業的鋁部件市場多年來經歷了顯著的增長和轉型。鋁以其輕質和多功能特性而聞名，已成為製造各種航空航天和國防部件的重要材料。鋁在航空航天領域的歷史可以追溯到 20 世紀初，當時鋁合金被納入飛機設計中。此後，冶金和加工技術的進步進一步提高了鋁的性能，鞏固了其作為航空航天和國防領域不可或缺的材料的地位。

鋁製零件的一大優點是耐腐蝕性能。航空航天和國防應用經常將組件暴露在惡劣的環境條件下，例如高濕度、溫度波動和接觸各種化學品。鋁的自然氧化膜具有固有的耐腐蝕性，可確保關鍵部件在這些惡劣條件下的使用壽命和可靠性。這一特性對於保持飛機和航天器在其整個使用壽命期間的結構完整性尤其重要。

成本效益也是促使鋁製零件廣泛採用的一個重要因素。與航空航天和國防領域常用的其他材料（例如鈦和復合材料）相比，鋁更容易獲得，而且製造起來通常更便宜。鋁製造成本低廉，可以為製造商節省成本，使他們能夠為其產品提供具有競爭力的價格。

易於加工是鋁的一個關鍵優勢，吸引了航空航天和國防製造商。鋁合金可以輕鬆成型為各種形狀，從而能夠生產現代飛機和航天器設計所需的複雜零件。這種製造靈活性使製造商能夠滿足嚴格的設計規範和性能要求，同時保持成本效益。

可持續性和環境考慮在航空航天和國防工業中變得越來越重要。在此背景下，鋁的可回收性是一個引人注目的因素。鋁回收過程所需的能源比初級生產少得多，使其成為環保的選擇。隨著可持續發展實踐的興起，航空航天和國防工業將越來越注重使用再生鋁來減少其對環境的影響。

航空航天和國防工業鋁部件的全球市場可以按應用進行細分。在飛機零件中，鋁廣泛用於機身、機翼和起落架的製造。由鋁合金製成的機身面板和擠壓件可提供必要的結構強度，同時最大限度地減輕重量。鋁材出色的強度重量比對於機翼也至關重要，可確保空氣動力效率和飛行穩定性。此外，起落架受益於鋁材能夠處理重負載，而不會給飛機增加過多的重量。

2024 鋁合金是航空航天領域使用的最著名的鋁合金之一。這種合金於 20 世紀 30 年代推出，因其高強度和抗疲勞性而成為航空航天工業的主力。機翼、機身和結構元件等部件通常採用 2024 鋁合金，因為它能夠承受航空航天應用的嚴格要求。另一種廣泛使用的合金是鋁合金 7075，以其卓越的強度和韌性而聞名。這種合金是高應力航空航天應用的首選，特別是飛機翼梁、艙壁和起落架部件等關鍵部件。7075 的使用提供了所需的強度，同時最大限度地減少了重量，有助於提高燃油效率和飛機的整體性能。鋁合金 6063 以其可擠壓性和可成型性而聞名，通常用於航空航天應用中生產各種擠壓零件。這包括飛機和航天器製造中使用的型材、框架和麵板，其中精密成型和定制至關重要。鋁合金 2014 因其優異的機械加工性能而受到認可，使其成為需要精密加工的航空航天應用的理想選擇。結構構件和配件（例如配件）通常使用 2014 合金，因為它具有可加工性，且不會犧牲強度或其他機械性能。鋁合金 2124 是合金 2024 的變體，添加了銅以提高斷裂韌性。這種合金在抗裂紋擴展至關重要的航空航天應用中具有特殊價值。該合金用於關鍵部件，防止裂紋擴展對於飛機的整體結構完整性至關重要。鋁合金的新發展之一是鋁合金2025。2025 合金旨在提供改進的機械性能和增強的抗損傷能力，正在考慮用於未來的航空航天應用。其增強的性能旨在滿足現代航空航天技術不斷發展的需求，為設計人員提供更多選擇來優化零件性能。

國防工業也是全球鋁需求的主要貢獻者，用途範圍從軍用飛機到海軍艦艇和地面設備。戰鬥機、運輸機和無人機 (UAV) 等軍用飛機嚴重依賴鋁的高強度和結構完整性。鋁的輕質特性使軍用飛機能夠攜帶更多的有效載荷和燃料，從而增加作戰範圍和任務能力。鋁在導彈、彈藥和其他防禦系統製造中的作用也至關重要，它提供有效部署所必需的能量吸收和穩定性。

在海軍應用中，鋁在軍艦、艦艇和潛艇的建造中發揮著重要作用。其耐腐蝕性能在船舶暴露於惡劣海水環境的海洋環境中尤為有利。此外，鋁的輕質特性有助於提高船舶的整體浮力，從而增加有效載荷並提高燃油效率。

鋁由於其高強度重量比而廣泛用於國防地面車輛和裝甲系統。在裝甲車和個人防護裝備的製造中，鋁增強了對士兵和裝備的保護，使其成為現代防禦系統的關鍵材料。

鋁經常用於製造導彈的各種結構部件（機身、機身、有效載荷艙等）。它提供了強度和重量的良好平衡，使其成為輕型、高機動性導彈設計的理想材料。鋁通常用於導彈推進系統，特別是固體火箭發動機。固體火箭推進劑通常含有鋁粉作為燃料成分，因為它們在燃燒時提供高能量輸出。鋁基推進劑燃燒產生大量熱量和氣體，為導彈提供推力和推進力。鋁的高導熱性和高效散熱能力使其適用於導彈隔熱罩和散熱器。這些組件有助於保護敏感電子系統免受導彈飛行和重返大氣層期間產生的極端熱量的影響。

航空航天和國防工業中的鋁部件市場遍布各個地區，主要集中在北美、歐洲和亞太地區。隨著航空航天和國防領域的不斷擴張，東南亞和拉丁美洲等新興市場也有望發揮更重要的作用。隨著技術的不斷進步和對可持續性的關注，鋁仍然是航空航天和國防工業的重要材料，確保了這個重要且充滿活力的行業的安全、效率和成本效益。

目錄

航空航天與國防鋁零部件市場：分析定義

航空航天與國防鋁零部件市場細分

• 按零件
• 按最終用戶
• 按地區

航空航天和國防工業鋁零部件市場分析（未來10年）

航空航天和國防工業鋁部件市場的市場技術

全球航空航天和國防鋁零部件市場預測

航空航天和國防鋁零部件市場：按地區劃分的趨勢和預測

北美

• 促進因素/限制因素、挑戰
• PEST分析
• 市場預測和情景分析
• 大公司
• 供應商層次結構
• 企業標桿
• 歐洲
• 中東
• 亞太地區
• 南美洲

航空航天和國防鋁零部件市場：國家分析

我們

• 防禦計劃
• 最新趨勢
• 專利
• 該市場當前的技術成熟度水平
• 市場預測和情景分析
• 加拿大
• 意大利
• 法國
• 德國
• 荷蘭
• 比利時
• 西班牙
• 瑞典
• 希臘
• 澳大利亞
• 南非
• 印度
• 中國
• 俄羅斯
• 韓國
• 日本
• 馬來西亞
• 新加坡
• 巴西

航空航天與國防鋁零部件市場：市場機會矩陣

航空航天和國防鋁零部件市場：專家分析觀點

結論

• 關於航空和國防市場報告

The global market for aluminum components in the aerospace and defense industry has experienced remarkable growth and transformation over the years. Aluminum, renowned for its lightweight and versatile properties, has become a crucial material in manufacturing various aerospace and defense components. Its history in the aerospace sector dates back to the early 20th century, with the incorporation of aluminum alloys into aircraft design. Subsequent advancements in metallurgy and fabrication techniques have further improved aluminum's performance, solidifying its position as an indispensable material in the aerospace and defense sector.

One of the significant advantages of aluminum components is their corrosion resistance. Aerospace and defense applications often subject components to challenging environmental conditions, including high humidity, temperature fluctuations, and exposure to various chemicals. Aluminum's natural oxide layer provides inherent corrosion resistance, ensuring the longevity and reliability of critical components under these harsh conditions. This property is particularly vital for maintaining the structural integrity of aircraft and spacecraft throughout their operational lifetimes.

Cost-effectiveness is another crucial factor contributing to the widespread use of aluminum components. Compared to other materials commonly used in aerospace and defense, such as titanium or composites, aluminum is more readily available and generally less expensive to produce. The lower production costs of aluminum translate into cost savings for manufacturers, allowing them to offer competitive pricing for their products.

The ease of fabrication is a key advantage of aluminum that appeals to aerospace and defense manufacturers. Aluminum alloys can be easily formed into various shapes, allowing the production of complex components required in modern aircraft and spacecraft designs. This flexibility in fabrication enables manufacturers to meet stringent design specifications and performance requirements while maintaining cost efficiency.

Sustainability and environmental considerations have become increasingly important in the aerospace and defense industry. Aluminum's recyclability is a compelling factor in this context. The recycling process for aluminum requires significantly less energy compared to primary production, making it an environmentally responsible choice. As sustainability practices gain prominence, the aerospace and defense industry is likely to emphasize the use of recycled aluminum to reduce its environmental impact.

The global market for aluminum components in the aerospace and defense industry can be segmented based on their applications. In the context of aircraft components, aluminum is extensively used in the construction of fuselages, wings, and landing gears. Fuselage panels and extrusions made from aluminum alloys provide the necessary structural strength while keeping weight at a minimum. Aluminum's excellent strength-to-weight ratio is also critical for wings, ensuring aerodynamic efficiency and stability during flight. Additionally, landing gears benefit from aluminum's ability to handle heavy loads without adding excessive weight to the aircraft.

Among the most prominent aluminum alloys used in aerospace is Aluminum Alloy 2024. This alloy, introduced in the 1930s, has since become a workhorse in the industry due to its high strength and fatigue resistance. Components like wings, fuselages, and structural elements often utilize 2024 aluminum alloy due to its ability to withstand the rigorous demands of aerospace applications. Another widely used alloy is Aluminum Alloy 7075, renowned for its exceptional strength and toughness. This alloy is favored for high-stress aerospace applications, particularly in critical components like aircraft wing spars, bulkheads, and landing gear parts. The use of 7075 ensures the necessary strength while keeping weight at a minimum, contributing to fuel efficiency and overall aircraft performance. Aluminum Alloy 6063, renowned for its extrudability and formability, is commonly used in aerospace applications for producing various extruded components. These include profiles, frames, and panels used in aircraft and spacecraft construction, where precise shaping and customization are essential. Aluminum Alloy 2014 is valued for its excellent machinability, making it an ideal choice for aerospace applications requiring precise machining. Components such as structural elements and fittings often use 2014 alloy, taking advantage of its machinability without compromising on strength or other mechanical properties. Aluminum Alloy 2124 is a variation of Alloy 2024 with added copper to improve fracture toughness. It is particularly valuable in aerospace applications where resistance to crack propagation is essential. This alloy is used in critical components where the prevention of crack growth is critical for the overall structural integrity of the aircraft. Among the newer developments in aluminum alloys is Aluminum Alloy 2025. Designed to offer improved mechanical properties and increased damage tolerance, Alloy 2025 is being explored for use in future aerospace applications. Its enhanced characteristics aim to meet the evolving demands of modern aerospace technology, providing designers with more options for optimizing component performance.

The defense industry is another significant contributor to global aluminum demand, where its applications range from military aircraft to naval vessels and ground-based equipment. Military aircraft, including fighter jets, transport planes, and unmanned aerial vehicles (UAVs), heavily rely on aluminum's high strength and structural integrity. The lightweight properties of aluminum allow military aircraft to carry more payload and fuel, enhancing their operational range and mission capabilities. Aluminum's role in the manufacturing of missiles, munitions, and other defense systems is also paramount, providing energy absorption and stability critical for their effective deployment.

In naval applications, aluminum plays a crucial role in constructing warships, naval vessels, and submarines. Its corrosion resistance is particularly advantageous in maritime environments, where vessels are exposed to harsh saltwater conditions. Additionally, aluminum's lightweight properties contribute to the overall buoyancy of naval vessels, allowing for increased payload capacity and fuel efficiency.

Ground vehicles and armor systems within the defense sector extensively employ aluminum due to its high strength-to-weight ratio. In the manufacturing of armored vehicles and personal protective gear, aluminum provides enhanced protection to soldiers and equipment, making it a key material for modern defense systems.

Aluminum is frequently employed in the construction of various structural components in missiles, including the airframe, fuselage, and payload compartments. It offers a favorable balance between strength and weight, making it an ideal material for lightweight and maneuverable missile designs. Aluminum is commonly used in missile propulsion systems, particularly in solid rocket motors. Solid rocket propellants often contain aluminum powder as a fuel component, as it provides a high energy output upon combustion. The combustion of aluminum-based propellants generates a significant amount of heat and gas, resulting in thrust and propulsion of the missile. Aluminum's high thermal conductivity and ability to dissipate heat efficiently make it suitable for use in heat shields and radiators in missiles. These components help protect sensitive electronic systems from the extreme heat generated during missile flight and re-entry.

The market for aluminum components in the aerospace and defense industry spans across different regions, with North America, Europe, and Asia-Pacific being significant players. Emerging markets, such as Southeast Asia and Latin America, are also expected to play a more significant role as their aerospace and defense sectors continue to expand. Ongoing technological advancements and the focus on sustainability will continue to make aluminum a vital material in the aerospace and defense industry, ensuring safety, efficiency, and cost-effectiveness in this critical and dynamic sector.

Table of Contents

Global Aluminium Component In Aerospace and Defense Market Report Definition

Global Aluminium Component In Aerospace and Defense Market Segmentation

• By Component
• By End Users
• By Region

Global Aluminium Component In Aerospace and Defense Market Analysis for next 10 Years

• The 10-year Global Aluminium Component In Aerospace and Defense market analysis would give a detailed overview of Global Aluminium Component In Aerospace and Defense market growth, changing dynamics, technology adoption overviews and the overall market attractiveness is covered in this chapter.

Market Technologies of Global Aluminium Component In Aerospace and Defense Market

• This segment covers the top 10 technologies that is expected to impact this market and the possible implications these technologies would have on the overall market.

Global Global Aluminium Component In Aerospace and Defense Market Forecast

• The 10-year Global Aluminium Component In Aerospace and Defense market forecast of this market is covered in detailed across the segments which are mentioned above.

Regional Global Aluminium Component In Aerospace and Defense Market Trends & Forecast

• The regional Global Aluminium Component In Aerospace and Defense market trends, drivers, restraints and Challenges of this market, the Political, Economic, Social and Technology aspects are covered in this segment. The market forecast and scenario analysis across regions are also covered in detailed in this segment. The last part of the regional analysis includes profiling of the key companies, supplier landscape and company benchmarking. The current market size is estimated based on the normal scenario.

North America

• Drivers, Restraints and Challenges
• PEST
• Market Forecast & Scenario Analysis
• Key Companies
• Supplier Tier Landscape
• Company Benchmarking

• Europe
• Middle East
• APAC
• South America

Country Analysis of Global Aluminium Component In Aerospace and Defense Market

• This chapter deals with the key defense programs in this market, it also covers the latest news and patents which have been filed in this market. Country level 10 year market forecast and scenario analysis are also covered in this chapter.

US

• Defense Programs
• Latest News
• Patents
• Current levels of technology maturation in this market
• Market Forecast & Scenario Analysis

• Canada
• Italy
• France
• Germany
• Netherlands
• Belgium
• Spain
• Sweden
• Greece
• Australia
• South Africa
• India
• China
• Russia
• South Korea
• Japan
• Malaysia
• Singapore
• Brazil

Opportunity Matrix for Global Aluminium Component In Aerospace and Defense Market

• The opportunity matrix helps the readers understand the high opportunity segments in this market.

Expert Opinions on Global Aluminium Component In Aerospace and Defense Market Report

• Hear from our experts their opinion of the possible analysis for this market.

Conclusions

• About Aviation and Defense Market Reports

List of Tables

• Table 1: 10 Year Market Outlook, 2023-2033
• Table 2: Drivers, Impact Analysis, North America
• Table 3: Restraints, Impact Analysis, North America
• Table 4: Challenges, Impact Analysis, North America
• Table 5: Drivers, Impact Analysis, Europe
• Table 6: Restraints, Impact Analysis, Europe
• Table 7: Challenges, Impact Analysis, Europe
• Table 8: Drivers, Impact Analysis, Middle East
• Table 9: Restraints, Impact Analysis, Middle East
• Table 10: Challenges, Impact Analysis, Middle East
• Table 11: Drivers, Impact Analysis, APAC
• Table 12: Restraints, Impact Analysis, APAC
• Table 13: Challenges, Impact Analysis, APAC
• Table 14: Drivers, Impact Analysis, South America
• Table 15: Restraints, Impact Analysis, South America
• Table 16: Challenges, Impact Analysis, South America
• Table 17: Scenario Analysis, Scenario 1, By Region, 2023-2033
• Table 18: Scenario Analysis, Scenario 1, By Component, 2023-2033
• Table 19: Scenario Analysis, Scenario 1, By End Users, 2023-2033
• Table 20: Scenario Analysis, Scenario 2, By Region, 2023-2033
• Table 21: Scenario Analysis, Scenario 2, By Component, 2023-2033
• Table 22: Scenario Analysis, Scenario 2, By End Users, 2023-2033

List of Figures

• Figure 1: Global Aluminum demand in Aerospace & Defense Industry Market Forecast, 2023-2033
• Figure 2: Global Aluminum demand in Aerospace & Defense Industry Market Forecast, By Region, 2023-2033
• Figure 3: Global Aluminum demand in Aerospace & Defense Industry Market Forecast, By Component, 2023-2033
• Figure 4: Global Aluminum demand in Aerospace & Defense Industry Market Forecast, By End Users, 2023-2033
• Figure 5: North America, Aluminum demand in Aerospace & Defense Industry Market, Market Forecast, 2023-2033
• Figure 6: Europe, Aluminum demand in Aerospace & Defense Industry Market, Market Forecast, 2023-2033
• Figure 7: Middle East, Aluminum demand in Aerospace & Defense Industry Market, Market Forecast, 2023-2033
• Figure 8: APAC, Aluminum demand in Aerospace & Defense Industry Market, Market Forecast, 2023-2033
• Figure 9: South America, Aluminum demand in Aerospace & Defense Industry Market, Market Forecast, 2023-2033
• Figure 10: United States, Aluminum demand in Aerospace & Defense Industry Market, Technology Maturation, 2023-2033
• Figure 11: United States, Aluminum demand in Aerospace & Defense Industry Market, Market Forecast, 2023-2033
• Figure 12: Canada, Aluminum demand in Aerospace & Defense Industry Market, Technology Maturation, 2023-2033
• Figure 13: Canada, Aluminum demand in Aerospace & Defense Industry Market, Market Forecast, 2023-2033
• Figure 14: Italy, Aluminum demand in Aerospace & Defense Industry Market, Technology Maturation, 2023-2033
• Figure 15: Italy, Aluminum demand in Aerospace & Defense Industry Market, Market Forecast, 2023-2033
• Figure 16: France, Aluminum demand in Aerospace & Defense Industry Market, Technology Maturation, 2023-2033
• Figure 17: France, Aluminum demand in Aerospace & Defense Industry Market, Market Forecast, 2023-2033
• Figure 18: Germany, Aluminum demand in Aerospace & Defense Industry Market, Technology Maturation, 2023-2033
• Figure 19: Germany, Aluminum demand in Aerospace & Defense Industry Market, Market Forecast, 2023-2033
• Figure 20: Netherlands, Aluminum demand in Aerospace & Defense Industry Market, Technology Maturation, 2023-2033
• Figure 21: Netherlands, Aluminum demand in Aerospace & Defense Industry Market, Market Forecast, 2023-2033
• Figure 22: Belgium, Aluminum demand in Aerospace & Defense Industry Market, Technology Maturation, 2023-2033
• Figure 23: Belgium, Aluminum demand in Aerospace & Defense Industry Market, Market Forecast, 2023-2033
• Figure 24: Spain, Aluminum demand in Aerospace & Defense Industry Market, Technology Maturation, 2023-2033
• Figure 25: Spain, Aluminum demand in Aerospace & Defense Industry Market, Market Forecast, 2023-2033
• Figure 26: Sweden, Aluminum demand in Aerospace & Defense Industry Market, Technology Maturation, 2023-2033
• Figure 27: Sweden, Aluminum demand in Aerospace & Defense Industry Market, Market Forecast, 2023-2033
• Figure 28: Brazil, Aluminum demand in Aerospace & Defense Industry Market, Technology Maturation, 2023-2033
• Figure 29: Brazil, Aluminum demand in Aerospace & Defense Industry Market, Market Forecast, 2023-2033
• Figure 30: Australia, Aluminum demand in Aerospace & Defense Industry Market, Technology Maturation, 2023-2033
• Figure 31: Australia, Aluminum demand in Aerospace & Defense Industry Market, Market Forecast, 2023-2033
• Figure 32: India, Aluminum demand in Aerospace & Defense Industry Market, Technology Maturation, 2023-2033
• Figure 33: India, Aluminum demand in Aerospace & Defense Industry Market, Market Forecast, 2023-2033
• Figure 34: China, Aluminum demand in Aerospace & Defense Industry Market, Technology Maturation, 2023-2033
• Figure 35: China, Aluminum demand in Aerospace & Defense Industry Market, Market Forecast, 2023-2033
• Figure 36: Saudi Arabia, Aluminum demand in Aerospace & Defense Industry Market, Technology Maturation, 2023-2033
• Figure 37: Saudi Arabia, Aluminum demand in Aerospace & Defense Industry Market, Market Forecast, 2023-2033
• Figure 38: South Korea, Aluminum demand in Aerospace & Defense Industry Market, Technology Maturation, 2023-2033
• Figure 39: South Korea, Aluminum demand in Aerospace & Defense Industry Market, Market Forecast, 2023-2033
• Figure 40: Japan, Aluminum demand in Aerospace & Defense Industry Market, Technology Maturation, 2023-2033
• Figure 41: Japan, Aluminum demand in Aerospace & Defense Industry Market, Market Forecast, 2023-2033
• Figure 42: Malaysia, Aluminum demand in Aerospace & Defense Industry Market, Technology Maturation, 2023-2033
• Figure 43: Malaysia, Aluminum demand in Aerospace & Defense Industry Market, Market Forecast, 2023-2033
• Figure 44: Singapore, Aluminum demand in Aerospace & Defense Industry Market, Technology Maturation, 2023-2033
• Figure 45: Singapore, Aluminum demand in Aerospace & Defense Industry Market, Market Forecast, 2023-2033
• Figure 46: United Kingdom, Aluminum demand in Aerospace & Defense Industry Market, Technology Maturation, 2023-2033
• Figure 47: United Kingdom, Aluminum demand in Aerospace & Defense Industry Market, Market Forecast, 2023-2033
• Figure 48: Opportunity Analysis, Aluminum demand in Aerospace & Defense Industry Market, By Region (Cumulative Market), 2023-2033
• Figure 49: Opportunity Analysis, Aluminum demand in Aerospace & Defense Industry Market, By Region (CAGR), 2023-2033
• Figure 50: Opportunity Analysis, Aluminum demand in Aerospace & Defense Industry Market, By Component (Cumulative Market), 2023-2033
• Figure 51: Opportunity Analysis, Aluminum demand in Aerospace & Defense Industry Market, By Component (CAGR), 2023-2033
• Figure 52: Opportunity Analysis, Aluminum demand in Aerospace & Defense Industry Market, By End Users (Cumulative Market), 2023-2033
• Figure 53: Opportunity Analysis, Aluminum demand in Aerospace & Defense Industry Market, By End Users (CAGR), 2023-2033
• Figure 54: Scenario Analysis, Aluminum demand in Aerospace & Defense Industry Market, Cumulative Market, 2023-2033
• Figure 55: Scenario Analysis, Aluminum demand in Aerospace & Defense Industry Market, Global Market, 2023-2033
• Figure 56: Scenario 1, Aluminum demand in Aerospace & Defense Industry Market, Total Market, 2023-2033
• Figure 57: Scenario 1, Aluminum demand in Aerospace & Defense Industry Market, By Region, 2023-2033
• Figure 58: Scenario 1, Aluminum demand in Aerospace & Defense Industry Market, By Component, 2023-2033
• Figure 59: Scenario 1, Aluminum demand in Aerospace & Defense Industry Market, By End Users, 2023-2033
• Figure 60: Scenario 2, Aluminum demand in Aerospace & Defense Industry Market, Total Market, 2023-2033
• Figure 61: Scenario 2, Aluminum demand in Aerospace & Defense Industry Market, By Region, 2023-2033
• Figure 62: Scenario 2, Aluminum demand in Aerospace & Defense Industry Market, By Component, 2023-2033
• Figure 63: Scenario 2, Aluminum demand in Aerospace & Defense Industry Market, By End Users, 2023-2033
• Figure 64: Company Benchmark, Aluminum demand in Aerospace & Defense Industry Market, 2023-2033