市場調查報告書
商品編碼
1422641
太空製造市場 - 按產品、按使用點(太空、地面)、最終用戶(商業、政府和軍事)和預測,2024 年至 2032 年In Space Manufacturing Market - By Product, By Point of Use (Space, Terrestrial), By End User (Commercial, Government & Military) & Forecast, 2024 - 2032 |
在技術進步、衛星部署需求不斷成長以及蓬勃發展的太空旅遊產業的推動下,太空製造市場預計在2024年至2032年期間將出現20%的強勁成長率。
根據《地理空間世界》2022年的一篇文章,截至聯合國外太空事務辦公室(UNOOSA)的最新更新,地球軌道上目前有8,261顆衛星,較2021年4月增加了11.84%。2022 年,共有12,293個物體發射到太空。對專用於通訊、地球觀測和導航目的的衛星的需求不斷成長,已成為該行業的驅動力。值得注意的是,3D列印技術的整合為空間製造過程增添了革命性的維度。 3D列印的靈活性和效率不僅有助於降低成本,還可以加快生產週期,為整個產業的成長提供強大動力。
全球航太製造市場根據產品、使用點、最終用途和地區進行分類。
在創新、先進材料整合和收入流多元化的推動下,地面使用點細分市場將在預測期內實現穩定成長。在地球上利用太空製造的產品具有促進技術進步和提高能力的雙重優勢。此外,未來的探索預計將增強地面太空製造。
由於電磁超材料天線 (EMA) 在通訊、資料傳輸和遙感應用中的作用,其市場預計到 2032 年將實現良好成長。 EMA 提高天基通訊性能和效率的能力是一個主要優勢。此外,隨著策略夥伴關係的不斷發展,對 EMA 的需求將會增加。
亞太地區的航太製造業將在研究期間展示持續成長,這與新興的航太計畫、技術實力和戰略夥伴關係有關。中國、印度、日本等國正在大力投資太空探索、衛星部署和太空研究,為航太製造市場的擴張做出了巨大貢獻。此外,研發的增加預計將成為需求激增的催化劑。
In space manufacturing market is expected to witness robust growth rate of 20% during 2024-2032, driven by technological advancements, the increasing demand for satellite deployment, and the burgeoning space tourism industry.
According to an article by Geospatial World in 2022, as of the latest update from the United Nations Office for Outer Space Affairs (UNOOSA), the Earth's orbit is now home to 8,261 individual satellites, marking an 11.84% increase from April 2021. By January 2022, a total of 12,293 objects were launched into space. The increasing demand for satellites dedicated to communication, Earth observation, and navigation purposes has become a driving force within the industry. Notably, the integration of 3D printing technology has added a revolutionary dimension to space manufacturing processes. The flexibility and efficiency of 3D printing not only contribute to cost reduction but also accelerate production cycles, providing a powerful impetus to overall industry growth.
The global space manufacturing market is classified based on product, point of use, end-use, and region.
The terrestrial point of use segment is set for steady growth during the forecast period, driven by the innovations, advanced material integration, and diversification of revenue streams. The utilization of space-manufactured products on Earth presents a dual advantage of contribution to technological advancements and improved capabilities. Moreover, future explorations are expected to enhance terrestrial in space manufacturing.
The electromagnetic metamaterials antennas (EMA) segment is set for decent growth through 2032, owing to their role in communication, data transfer, and remote sensing applications. The ability of EMA to enhance performance and efficiency of in space-based communications is a major advantage. Moreover, as strategic partnerships continue to evolve, the demand for EMA will bolster.
Asia Pacific in space manufacturing industry is poised to showcase sustained growth during the study period, pertaining to the burgeoning space programs, technological prowess, and strategic partnerships. Countries like China, India, and Japan are investing heavily in space exploration, satellite deployment, and space research, contributing significantly to the expansion of the space manufacturing market. Moreover, increased R&D is expected to serve as a catalyst for demand surge.