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市場調查報告書
商品編碼
1687827
選擇性雷射燒結:市場佔有率分析、產業趨勢與統計、成長預測(2025-2030)Selective Laser Sintering - Market Share Analysis, Industry Trends & Statistics, Growth Forecasts (2025 - 2030) |
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簡介目錄
選擇性雷射燒結市場規模預計在 2025 年為 48.1 億美元,預計到 2030 年將達到 132.5 億美元,預測期內(2025-2030 年)的複合年成長率為 22.46%。
選擇性雷射燒結 (SLS) 是一種積層製造(AM) 技術,其是將高功率雷射光束照射到粉末材料床(通常是尼龍或聚醯胺)上以燒結所需物體層的過程。一旦該層完成,物體就會被一層新的粉末覆蓋,然後再燒結另一層。
主要亮點
- 由於已開發國家擁有研發設施,預計 SLS 設備市場的需求將持續成長。用於製造原型模型和零件的非金屬粉末的隨時可用推動了雷射燒結印表機的採用。雷射燒結印表機在列印金屬零件時也是最精確的。
- 選擇性雷射燒結 (SLS) 被認為是最受歡迎的技術之一,因為它比印刷應用中使用的其他技術具有多種優勢,預計在預測期內將出現強勁成長。
- SLS利用尼龍粉末作為原料來替代光固化成形法中使用的感光樹脂。世界各地的公司和研究機構都在使用這種材料和技術來解決樹脂在陽光下變脆等問題。此外,SLS 已被證明是成本和材料友好的,因為它在列印後不需要專門的支撐結構。此外,SLS 生產的零件耐用且性能與功能性零件和原型一樣好。
- SLS 也可廣泛應用於航太、國防和汽車等各個垂直領域。隨著航太發展模式轉移,越來越多的國家準備發射人造衛星,對 SLS 列印的需求預計會成長。
- 各航太公司正在採用這項技術來促進高效生產。例如,在航太航太領域,美國國家航空暨太空總署和私人公司正在努力製造零件更少的火箭引擎(或者,在 Relativity Space 的案例中,是整個火箭)。這是 3D 列印的關鍵功能,也是減少製造時間和成本的一種方法。該部件是使用選擇性雷射燒結以及金屬粉末(例如,可承受高溫的 Inconel 銅高溫合金粉末)的鋪設和熔化逐層構建的。 SLS 技術具有多種優勢:例如,只需幾天時間就可以將多個部件列印成一個統一的部件。如果火箭在測試期間發生故障,可以對 3D 建模軟體進行更改以建立新火箭並快速設定另一次測試。
- 此外,2021 年 12 月,積層製造零件製造商 Primaeaam Solutions Pvt Ltd 在印度清奈開設了新的積層製造客戶體驗中心和醫療保健創新孵化中心。該中心佔地 10,000 平方英尺,將使該公司成為領先的積層製造服務機構,擁有電子束熔化 (EBM)、選擇性雷射光固化成形法(SLM)、熔融熔融沉積建模(FDM)、立體光刻 (SLA)、多噴射熔合 (MJF) 和主要企業纖維長絲製造 (CFF) 等技術。
- COVID-19 疫情為世界各地的大、中、小型企業帶來了經濟混亂。這是因為製造業很大一部分涉及工廠車間工作,人們在車間密切接觸以提高生產力。
選擇性雷射燒結 (SLS) 市場趨勢
航太和國防工業預計將佔據主要市場佔有率
- 航太業是大多數當代科技的早期採用者。飛機和引擎製造商都依賴 3D 列印技術來開發輕量化零件以提高效率。
- 幾十年來,美國國家航空暨太空總署(NASA) 一直使用 3D 列印技術進行原型製作、製造功能零件,最近還用於為月球和火星建造施工系統。
- 貝爾德事隆公司是首批嘗試積層製造的航太公司之一。 SLS 的最初用途是快速製作模具和實驗部件的原型。然而,隨著積層製造業的發展,該公司意識到自己需要成熟。自公司開始積層製造之旅以來,貝爾德事隆僅使用 SLS 技術就已經生產了遍布其產品的 550 多個零件。雖然生產的零件大部分都是實驗性的,但值得注意的是,在 550 個零件中,有超過 200 個是用於生產用途的。
- 此外,GKN Aerospace 於 2022 年 7 月在其位於英國的全球技術中心安裝了 RenAM 500 Flex,擴大了其金屬積層製造機器的範圍。 RenAM 500Q Flex 是一款四雷射積層製造機,預計將最佳化航太應用的積層製造。
- 此外,根據美國人口普查局的數據,到 2024 年,美國航太產品和零件製造收益預計將達到約 2,644 億美元。此外,到 2024 年,加拿大航太產品和零件製造銷售額預計將達到約 193 億美元。這些發展預計將積極推動市場成長。
- 根據斯德哥爾摩國際和平研究所(SIPRI)統計,2021年美國位居世界軍費最高國家榜首,軍費開支達8,010億美元,佔全球軍事支出2.1兆美元的38%。
預計北美將佔據主要市場佔有率
- 北美是許多開發、採用和投資積層製造的公司的所在地。該地區對原型製作的需求正在成長,這極大地推動了該地區市場的發展。此外,北美對 SLS 的需求受到各行業對研發和測試日益重視的推動。
- 根據加拿大統計局的數據,加拿大企業計劃在 2021 年投入 219 億美元用於內部工業研發,並預計在 2022 年投入 224 億美元。預計研發支出的成長將推動北美選擇性雷射燒結市場的發展。
- 該地區的公司正在建立策略聯盟,為更廣泛的客戶提供解決方案。例如,2022年5月,美國Essentium Inc.與藍色雷射解決方案供應商Nuburu合作開發基於藍色雷射的金屬積層製造平台。
- 預計該成果將使製造商能夠製造出具有高解析度和快速吞吐量的生產級金屬零件。此外,作為協議的一部分,Nuburu 將授權其積層製造應用專利。
- 3D 列印等新技術的日益普及也有望推動該地區 SLS 市場的發展。例如,根據世界經濟論壇預測,到2022年,47%接受調查的美國公司預計將使用3D列印技術。
選擇性雷射燒結 (SLS) 產業概覽
選擇性雷射燒結市場主要由全球營運的現有企業和少數在整合的市場空間中爭奪關注的區域性企業組成。 3D Systems Inc.、EOS GmbH Electro Optical Systems、Ricoh Company Ltd. 和 Fathom Manufacturing 等多家在該領域擁有豐富專業知識的公司的存在預計將進一步加劇競爭對手之間的競爭。
- 2022 年 6 月 - 3D Systems 和 EMS GRILTECH 宣佈建立策略合作夥伴關係,以加強積層製造材料的開發。兩家公司推出了 Duraform PAx Natural,這是一種新型尼龍共聚物,專為商用選擇性雷射燒結 (SLS) 印表機而設計。
- 2021 年 11 月-贏創工業股份公司宣布提供更廣泛的 RESOMER PrintPowder 聚合物,以實現個人化植入式醫療設備的 3D 列印。這種新型粉末可在全球範圍內用於選擇性雷射燒結 (SLS) 3D 列印。新型粉末具有多種可自訂的機械性能和劣化速率,使其能夠用於更複雜和客製化的醫療設備,包括各種整形外科、牙科和軟組織應用。
- 2021 年 2 月 - 3D Systems 宣布其位於南卡羅來納州羅克希爾的工廠的擴建計劃,為其現有的總部園區增加 100,000 平方英尺的面積。透過此次擴張,公司將整合材料製造、品質和物流業務,並建造和擴大材料開發實驗室,從而提高業務效率,加快解決方案開發並縮短產品上市時間。
其他福利:
- Excel 格式的市場預測 (ME) 表
- 3個月的分析師支持
目錄
第1章 引言
- 研究假設和市場定義
- 研究範圍
第2章調查方法
第3章執行摘要
第4章 市場洞察
- 市場概覽
- 產業吸引力-波特五力分析
- 供應商的議價能力
- 買家的議價能力
- 新進入者的威脅
- 替代品的威脅
- 競爭對手之間的競爭強度
- COVID-19 市場影響評估
- 3D列印技術分析(FDM、SLA、SLS;材料與技術的定性分析;桌上型工業SLS與傳統工業SLS列印機的比較)
第5章市場動態
- 市場促進因素
- 縮短最終產品的上市時間
- 加強各地區政府工作
- 市場挑戰
- 額外的資本支出和量產限制
第6章市場區隔
- 按材質
- 金屬
- 塑膠
- 按零件
- 硬體
- 軟體
- 服務
- 按最終用戶產業
- 車
- 航太與國防
- 衛生保健
- 電子產品
- 其他最終用戶產業
- 按地區
- 北美洲
- 歐洲
- 亞太地區
- 世界其他地區
第7章競爭格局
- 公司簡介
- 3D Systems Inc.
- EOS GmbH Electro Optical Systems
- Farsoon Technologies
- Prodways Group
- Formlabs Inc.
- Ricoh Company Ltd
- Concept Laser GmbH(General Electric)
- Renishaw PLC
- Sinterit Sp. Zoo
- Sintratec AG
- Sharebot SRL
- Red Rock SLS
第8章投資分析
第9章:市場的未來
簡介目錄
Product Code: 66372
The Selective Laser Sintering Market size is estimated at USD 4.81 billion in 2025, and is expected to reach USD 13.25 billion by 2030, at a CAGR of 22.46% during the forecast period (2025-2030).
Selective Laser Sintering (SLS), an additive manufacturing (AM) technique, is a process in which a high-powered laser beam is aimed into powdered material (typically nylon or polyamide) bed to sinter a layer of the desired object. Following the completion of that layer, the object is covered with a new layer of powder, and another layer is sintered.
Key Highlights
- The market for SLS equipment is anticipated to be driven by the rising demand from developed countries, owing to the presence of research and development facilities in the countries. The adoption of laser sintering printers has increased due to the ease of availability of non-metal powders to create prototype models and parts. Also, laser sintering printers are the most precise when printing metal parts.
- Selective Laser Sintering (SLS) has been identified as one of the most-preferred technology and is expected to witness robust growth during the forecast period, owing to its various benefits over other technologies used for printing applications.
- SLS utilizes nylon powder as raw material as a substitute for the photosensitive resin used in Stereolithography. Companies and research organizations across the globe have been identified to take advantage of this material and technology to tackle concerns, such as the brittle nature of the resin when exposed to sunlight. In addition, SLS has also been proven to be cost and material friendly, as it does not require any dedicated support structure post-printing. In addition, SLS provides enhanced durability and can perform as well as either functional parts or prototypes.
- SLS further finds a wide array of applications across various verticals, such as aerospace, defense, and automotive, among others. With space exploration witnessing a paradigm shift, the demand for SLS printing is expected to mount, with an increasing number of countries gearing up to launch satellites.
- Various aerospace companies are adopting the technology to foster efficient production. For instance, in the space flight branch of aerospace, NASA and private companies are working to build rocket engines (and even entire rockets in the case of Relativity Space) with fewer parts, which is a crucial capability of 3D printing and a way to reduce production time and costs. Using selective laser sintering and the laying down and melting of metal powder (for example, Inconel copper super alloy power that can withstand high temperatures), parts are built up layer by layer. The SLS technique offers several benefits, like multiple parts can be printed as one unified part in just days; the rocket's weight can be reduced with fewer nuts, bolts, and welds. If the rocket proves faulty during a test, changes can be made to the 3D modeling software for a new rocket, and another test can be quickly set up.
- Further, in December 2021, Primaeam Solutions Pvt Ltd, an additive parts manufacturing company, inaugurated its new Additive Manufacturing Customer Experience Centre, Innovation & Incubation Centre for Healthcare, in Chennai, India. The 10,000 sq. ft. center would allow the company to develop its position as a prominent player in the additive manufacturing service bureau with technologies such as Electron Beam Melting (EBM), Selective Laser Sintering (SLM), Fused Deposition Modelling (FDM), Stereolithography (SLA), Multi Jet Fusion (MJF), and Continuous Filament Fabrication with Fiber reinforcement (CFF).
- The COVID-19 pandemic outbreak has created economic turmoil for small, medium, and large-scale industries worldwide. Adding to the woes, country-wise lockdown inflicted by the governments across the globe (to minimize the spread of the virus) has further resulted in industries taking a hit and disruption in supply chain and manufacturing operations across the world, as a large part of manufacturing includes work on the factory floor, where people are in close contact as they collaborate to boost the productivity.
Selective Laser Sintering (SLS) Market Trends
Aerospace and Defense Industry is Expected to Hold Significant Market Share
- The aerospace industry has an early rate of adoption of most of the technologies in the current generation. Both aircraft and engine manufacturers have been relying on 3D printing technology in order to develop lightweight parts to gain efficiency.
- 3D printing has been used by the National Aeronautics and Space Administration (NASA) for decades for the purposes of prototyping and creating functional parts and, most recently, for building construction systems for the Moon and Mars.
- Bell Textron Inc. was one of the first aerospace companies to experiment with additive manufacturing. The first use of SLS was for quick prototypes of tooling and experimental parts. However, as the additive manufacturing industry progressed, the company understood the need to allow the additive manufacturing industry to mature. Since the start of additive efforts, Bell Textron has produced over 550 parts widely spread among its products with just SLS. While a majority of parts produced are experimental, it is to be noted that over 200 of those 550 parts are for production purposes.
- Moreover, in July 2022, GKN Aerospace expanded its range of metal additive manufacturing machines at the company's global technology center in the United Kingdom by installing RenAM 500 Flex. The RenAM 500Q Flex is a four-laser Additive Manufacturing machine that is expected to optimize Additive Manufacturing for aerospace applications.
- Furthermore, according to the US Census Bureau, it is expected that the revenue of aerospace products and parts manufacturing in the United States will amount to about USD 264.4 billion by 2024. Moreover, It is likely that the revenue of aerospace products and parts manufacturing in Canada will amount to approximately USD 19.3 billion by 2024. Such developments would drive the market's growth positively.
- According to Stockholm International Peace Research Institute (SIPRI), the United States led the ranking of countries with maximum military spending in 2021, with 801 USD billion dedicated to the military, which was 38 percent of the global military expenditure of USD 2.1 trillion.
North America is Expected to Hold Major Market Share
- North America is home to many companies developing, adopting, or investing in additive manufacturing. There has been a growth in the demand for prototyping in the region which has been majorly driving the market in the region. Further, the demand for SLS in North America is driven by a higher focus on research and development and increased testing in various industries.
- According to Statistics Canada, Canadian businesses intend to spend USD 21.9 billion on in-house industrial research and development in 2021, while USD 22.4 billion is expected to be spent in 2022. Such growth in research and development is expected to push the market for Selective Laser Sintering in North America.
- Companies in the region are doing strategic collaborations to provide their solutions to a broader customer base. For instance, in May 2022, Essentium Inc, a US-based company, partnered with Nuburu, a blue laser solution provider, to develop a blue laser-based metal Additive Manufacturing platform.
- The resulting machine is hoped to enable manufacturers to create production-grade metal parts with high resolution and fast throughput. Further, as a part of the contract, Nuburu will license its additive manufacturing application patents.
- The increase in the usage of new technologies, such as 3D printing, is also expected to drive the market of SLS in the region. For instance, according to World Economic Forum, it is expected that by 2022, 47% of the surveyed companies in the United States will use 3D printing technology.
Selective Laser Sintering (SLS) Industry Overview
The Selective Laser Sintering Market majorly comprises incumbents operating globally, along with a few regional players vying for attention in a consolidated market space. The presence of several players, such as 3D Systems Inc., EOS GmbH Electro Optical Systems, Ricoh Company Ltd., and Fathom Manufacturing, among others with considerable expertise in the field, is expected to intensify the competitive rivalry further.
- June 2022 - 3D Systems and EMS GRILTECH announced the strategic partnership to enhance additive manufacturing materials development. Both companies will introduce a novel nylon copolymer - DuraForm PAx Natural- designed to be used with any commercially-available selective laser sintering (SLS) printer.
- November 2021 - Evonik Industries AG announced that it offers a broader range of RESOMER PrintPowder polymers to enable the 3D printing of personalized implantable medical devices. The new powders are available globally for 3D printing through selective laser sintering (SLS). Due to a broader range of customizable mechanical properties and degradation rates, the new powders could be used for more complex and tailored medical devices, including diverse orthopedic, dental, or soft tissue applications.
- February 2021 - 3D Systems announced the expansion plan of its Rock Hill, South Carolina, location, adding 100,000 square feet to its existing headquarters campus. This expansion will enable the company to consolidate its materials manufacturing, quality, and logistics operations, with new and expanded materials development laboratories to improve operational efficiencies, accelerate solution development, and reduce time to market.
Additional Benefits:
- The market estimate (ME) sheet in Excel format
- 3 months of analyst support
TABLE OF CONTENTS
1 INTRODUCTION
- 1.1 Study Assumptions and Market Definition
- 1.2 Scope of the Study
2 RESEARCH METHODOLOGY
3 EXECUTIVE SUMMARY
4 MARKET INSIGHTS
- 4.1 Market Overview
- 4.2 Industry Attractiveness - Porters Five Forces Analysis
- 4.2.1 Bargaining Power of Suppliers
- 4.2.2 Bargaining Power of Buyers
- 4.2.3 Threat of New Entrants
- 4.2.4 Threat of Substitutes
- 4.2.5 Intensity of Competitive Rivalry
- 4.3 Assessment of Impact of COVID-19 on the Market
- 4.4 Analysis of 3D Printing Technologies (FDM, SLA, SLS; Qualitative Analysis on Materials and Technologies; Benchtop Industrial SLS Vs Traditional Industrial SLS Printers)
5 MARKET DYNAMICS
- 5.1 Market Drivers
- 5.1.1 Reduced Time for the End Product to Reach the Market
- 5.1.2 Increased Government Initiatives Across Various Regions
- 5.2 Market Challenges
- 5.2.1 Additional Capital Expenditure and Restrictions in Mass Production
6 MARKET SEGMENTATION
- 6.1 By Material
- 6.1.1 Metal
- 6.1.2 Plastic
- 6.2 By Component
- 6.2.1 Hardware
- 6.2.2 Software
- 6.2.3 Services
- 6.3 By End-user Industry
- 6.3.1 Automotive
- 6.3.2 Aerospace and Defense
- 6.3.3 Healthcare
- 6.3.4 Electronics
- 6.3.5 Other End-user Industries
- 6.4 By Geography
- 6.4.1 North America
- 6.4.2 Europe
- 6.4.3 Asia Pacific
- 6.4.4 Rest of the World
7 COMPETITIVE LANDSCAPE
- 7.1 Company Profiles
- 7.1.1 3D Systems Inc.
- 7.1.2 EOS GmbH Electro Optical Systems
- 7.1.3 Farsoon Technologies
- 7.1.4 Prodways Group
- 7.1.5 Formlabs Inc.
- 7.1.6 Ricoh Company Ltd
- 7.1.7 Concept Laser GmbH (General Electric)
- 7.1.8 Renishaw PLC
- 7.1.9 Sinterit Sp. Zoo
- 7.1.10 Sintratec AG
- 7.1.11 Sharebot SRL
- 7.1.12 Red Rock SLS
8 INVESTMENT ANALYSIS
9 FUTURE OF THE MARKET
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