封面
市場調查報告書
商品編碼
2070309

無人機系統積層製造機會(2026):無人機市場分析與預測

Additive Manufacturing Opportunities in Unmanned Aerial Systems 2026: Drones Market Analysis and Forecast

出版日期: | 出版商: Additive Manufacturing Research | 英文 47 Pages | 訂單完成後即時交付

價格
簡介目錄

本報告及時總結了無人機系統市場積層製造(AM)領域的最新趨勢和發展。隨附的市場資料庫和預測報告從材料、細分市場、應用、地區和供應商等方面分析了積層製造無人機市場。

本報告探討了積層製造無人駕駛航空器系統(通常稱為「無人機」)的快速發展。由於多種市場因素的共同作用,該領域在過去三年中迅速崛起。積層製造技術正被應用於該領域,充分發揮其克服傳統製造限制的獨特優勢。尤其值得一提的是,積層製造無人機已成為全球利用低成本3D列印機製造生產零件的最廣泛應用。

目錄

第1章:無人機系統市場簡介及背景

  • 本報告的調查方法和資料庫
    • 預測無人機積層製造(AM)市場規模的假設
  • 無人機市場區隔及術語
    • 軍事和國防部門—戰術無人機和戰略無人機
    • 民用基礎設施、採礦、能源
    • 公共安全與服務
    • 農業和野生動物調查
  • 軍用積層製造無人機的採用將從根本上改變無人機市場。
  • 影響美國及其他國家民用無人機市場的趨勢
    • 美國私人無人機市場正走向監管的最終決戰。
    • 積層製造技術可以幫助填補西方市場禁止中國企業進入後留下的空白。
    • 無人機服務業務正在推動無人機市場的整體規模成長,從而實現與 AM(採購和製造)的垂直整合。
    • 印度的無人機產業正在經歷顯著成長,超過了美國和中國。

第2章:積層製造無人機系統市場的細分

  • 積層製造技術如何推動無人機系統的創新
  • 無人機金屬積層製造技術綜述
    • 金屬積層製造在無人機的應用
  • 非金屬積層製造在無人機系統應用領域的綜述-聚合物與複合材料
    • 對於聚合物積層製造(AM)製造商而言,無人機市場的競爭正在加劇。
    • 聚合物積層製造將成為從事無人機系統(UAS)的軍事相關新創企業的核心驅動力。
    • 添加劑在無人機系統中的滲透以及不同技術之間的競爭力

第3章:無人機積層製造技術市場預測

  • 積層製造無人機系統(UAS)的商業機會整體情況
  • 無人機系統中的積層製造硬體機遇
  • 無人機系統中的印表機會
  • 無人機系統(UAS)列印服務的市場機遇

第4章:無人機市場中積層製造的策略市場考量

  • 積層製造無人機系統的未來應用與市場變化
  • 積層製造(AM)技術在其他自主車輛領域(陸地和海洋)的應用

關於積層製造研究

關於分析師

展品清單

  • 圖 1-1:以海關分類的無人機運輸量預測 - 2025 年
  • 圖 1-2:按材料和無人機分類分類的積層製造無人機組件總潛在市場規模
  • 圖 1-3:按無人機分類分類的金屬和非金屬無人機零件總表(潛在積層製造市場規模),全球整體,2025 年與 2030 年預測
  • 圖 1-4:戰術和戰略軍事無人機領域的應用重點
  • 圖 2-1:利用積層製造技術實現分散式無人機製造
  • 圖 2-2:積層製造技術提升無人機製造商的生產柔軟性
  • 圖 2-3:2020-2035 年按無人機組分類的金屬積層製造無人機零件年度總產量預測 (f)
  • 圖 2-4:全球 AM UAS 非金屬零件預測(按列印技術分類),2020–2035 年(f)
  • 圖 2-5:2020-2035 年全球積層製造無人機(僅限商業/消費)非金屬零件預測(按列印技術分類)(f)
  • 圖 2-6:無人機中非金屬積層製造技術的預測採用率(依分類)。
  • 圖 2-7:2020-2035 年按無人機分類分類的非金屬積層製造無人機零件產量預測(f)
  • 圖 3-1:2020-2034 年全球積層製造無人機系統市場規模(美元),按細分市場分類(f)
  • 圖 3-2:積層製造無人機系統市場規模(美元),按地區、所有細分市場分類,2020-2034 年(f)
  • 圖 3-3:2020-2034 年全球積層製造無人機系統硬體總收入(按積層製造技術細分市場分類)(預測)
  • 圖 3-4:2020-2034 年全球聚合物 PBF AM 系統銷售量(依無人機細分市場分類)(f)
  • 圖 3-5:2020-2034 年全球低成本非金屬擠壓積層製造系統銷售(依無人機細分市場分類)(f)
  • 圖 3-6:2020-2034 年全球商用非金屬擠壓積層製造系統銷售(依無人機細分市場分類)(f)
  • 圖 3-7:2020-2034 年全球光聚合固化技術材製造系統銷售量(依無人機細分市場分類)(f)
  • 圖 3-8:2020-2034 年全球金屬 PBF AM 系統銷售量(依無人機區隔市場分類)(f)
  • 圖 3-9:2020-2034 年全球積層製造無人機系統市場積層製造列印材料銷售額(美元),依材料分類(f)
  • 圖 3-10:按材料系列分類的全球積層製造無人機列印服務收入
簡介目錄
Product Code: AMR-AM-DRONES-0626

This highly topical report represents the latest findings and trends in Additive Manufacturing (AM) for the Unmanned Aerial Systems market. The accompanying market database and forecasts reflect the AM Drones market by material, segment, application, geography, and vendor.

This report explores the rapid evolution of the additive unmanned aerial systems, referred to more generally as aerial drones, which has been thrust into prominence over the last three years thanks to a variety of converging market forces. AM technologies are being leveraged in this area for their unique capabilities relative to traditional manufacturing constraints, with AM drones the number one worldwide application for low-cost 3D printer utilization to create production parts.

Table of Contents

Chapter One: Introduction and UAS Market Background

  • 1.1 Methodology of this Report and Database
    • 1.1.1 Total Addressable Market Modeling Assumptions for AM in Aerial Drones
  • 1.2 Drone Market Subsegments and Terminology
    • 1.2.1 Military & Defense–Tactical versus Strategic Drones
    • 1.2.2 Civil Infrastructure, Mining, and Energy
    • 1.2.3 Public Safety and Services
    • 1.2.4 Agriculture and Wildlife Surveying
  • 1.3 Military Adoption of Additive Drones Fundamentally Altering the Drone Market
  • 1.4 Trends Shaping the Civil Drone Market in the U.S. and Other Countries
    • 1.4.1 U.S. Civil Drone Market in Regulatory Final Showdown
    • 1.4.2 Additive Manufacturing Could Help Fill Void Left by Banned Chinese Providers in Western Markets
    • 1.4.3 Drone Services Businesses Drive the Overall Drone Market Size and Can Vertically Integrate with AM
    • 1.4.4 More than the U.S. and China – India’s Drone Industry Sees Major Growth

Chapter Two: Segmentation of the Additive UAS Market

  • 2.1 How Additive Technologies are Driving UAS Innovation
  • 2.2 Review of Metal Additive Manufacturing for UAS
    • 2.2.1 Metal AM Applications in Aerial Drones
  • 2.3 Review of Nonmetal AM for UAS – Polymers and Composites
    • 2.3.1 Drone Market Competition Heating Up for Polymer AM Players
      • 2.3.1.1 HP Inc.
      • 2.3.1.2 EOS
      • 2.3.1.3 Stratasys
    • 2.3.2 Polymer Additive Manufacturing as a Core Enabler for UAS Military Startups
    • 2.3.3 Additive Penetration Into UAS and Cross-Technology Competitiveness

Chapter Three: Market Forecasts for AM Technologies in Drone

  • 3.1 Total Scope of Additive UAS Opportunity
  • 3.2 AM Hardware Opportunities in UAS
  • 3.3 Print Material Opportunities in UAS
  • 3.4 UAS Print Services Market Opportunity

Chapter Four: Strategic Market Considerations for AM in the Drone Market

  • 4.1 Future Applications and Market Changes for Additive UAS
  • 4.2 Leveraging AM Capabilities in Other Autonomous Vehicle Segments (Land and Sea)

About Additive Manufacturing Research

About the Analyst

List of Exhibits

  • Exhibit 1-1: Estimated Drone Volumes by Custom Classification–2025
  • Exhibit 1-2: Total Addressable Market for AM Drone Parts by Material and Drone Classification
  • Exhibit 1-3: Summary of Metal and Nonmetal Drone Parts by Drone Classification (Total Addressable Market for AM), Worldwide, 2025 vs. 2030 Forecast
  • Exhibit 1-4: Application Focus for Tactical versus Strategic Military Drone Segment
  • Exhibit 2-1: AM Enables Decentralized Drone Manufacturing
  • Exhibit 2-2: Production Flexibility Benefits of Additive Technologies for Drone Makers
  • Exhibit 2-3: Total Metal AM Drone Parts Per Year Forecast, 2020-2035(f), by Drone Group Classification
  • Exhibit 2-4: Projected AM UAS Nonmetal Parts by Print Tech, Global 2020-2035(f)
  • Exhibit 2-5: Projected AM UAS (Commercial/Civil only) Nonmetal Parts by Print Tech, Global 2020-2035(f)
  • Exhibit 2-6: Projected Additive Nonmetal Technology Penetration Rate into Drones by Classification
  • Exhibit 2-7: Projected Nonmetal AM Drone Part Production Forecast, by Drone Classification, 2020-2035(f)
  • Exhibit 3-1: Total Global Additive UAS Market Size ($USM), by Segment, 2020-2034(f)
  • Exhibit 3-2: Regional Additive UAS Market Size ($USM), by Region, all Segments, 2020-2034(f)
  • Exhibit 3-3: Total Global Additive UAS Hardware Revenue, by AM Tech segment, 2020-2034(f)
  • Exhibit 3-4: Unit Sales of Polymer PBF AM Systems Worldwide by Drone Subsegment, 2020-2034(f)
  • Exhibit 3-5: Unit Sales of Low Cost Nonmetal Extrusion AM Systems Worldwide by Drone Subsegment, 2020-2034(f)
  • Exhibit 3-6: Unit Sales of Professional Grade Nonmetal Extrusion AM Systems Worldwide by Drone Subsegment, 2020-2034(f)
  • Exhibit 3-7: Unit Sales of Vat Photopolymerization AM Systems Worldwide by Drone Subsegment, 2020-2034(f)
  • Exhibit 3-8: Unit Sales of Metal PBF AM Systems Worldwide by Drone Subsegment, 2020-2034(f)
  • Exhibit 3-9: Global AM Print Material Revenues ($USM) from Additive UAS Market, by Material Classification 2020-2034(f)
  • Exhibit 3-10: Global Additive UAS Print Services Revenues by Material Family