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市場調查報告書
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1042631

3D列印硬體設備 2022-2032年:技術和市場展望

3D Printing Hardware 2022-2032: Technology and Market Outlook

出版日期: | 出版商: IDTechEx Ltd. | 英文 183 Slides | 商品交期: 最快1-2個工作天內

價格
  • 全貌
  • 簡介
  • 目錄
簡介

標題
3D列印硬件 2022-2032年:技術和市場展望
詳細的市場預測、基於訪談的公司簡介、技術故障和基準研究以及市場前景。

“3D 打印硬件將在十年內達到 99 億美元的峰值。”

3D 打印硬件:增材製造行業的基礎

在 3D 打印行業成立以來的三十年裡,無數的打印技術被發明、專利和商業化——從熔絲製造到數字光處理、選擇性激光熔化到粘合劑噴射、材料噴射到片材層壓,以及介於兩者之間的每一種獨特的印刷技術。隨著每一項新技術的出現,增材製造市場的能力都會增強,從而擴展到新的應用、最終用戶和行業。從這個角度來看,3D打印機可以被認為是近年來增材製造行業增長的核心基礎。因此,要了解增材製造的未來進展和前景,學習和了解3D打印技術和硬件就變得至關重要。

IDTechEx 的 3D 打印硬件:2022-2032 報告旨在解釋和分析 3D 打印硬件技術和銷售的增長;它適用於 3D 打印供應鏈中的任何公司:材料製造商、打印機製造商、服務提供商、最終用戶等。本報告將市場細分為 17 個技術細分市場,為每個細分市場創建 17 條 COVID-19 調整後的預測線。這些預測提供了 3D 打印機安裝基數、新安裝、更換單元銷售和 3D 打印機銷售收入的十年展望,全部細分為 17 條預測線。

按 17 個技術細分市場劃分的 2021 年技術市場份額 - 來源 IDTechEx

3D 打印硬件故障:技術分析和公正的技術基準測試

在這份報告中,IDTechEx 根據優勢、劣勢、機會和威脅分別分析了 30 多種打印技術。此外,還提供了有關硬件製造商、技術準備水平和每種技術的關鍵行業的信息,以便從技術和應用角度全面了解每個打印過程。這 30 種打印技術按四個材料類別分類,從而為每個增材製造子專業提供關鍵技術見解:聚合物、金屬、陶瓷和復合材料。

此外,IDTechEx 還在每個材料子專業內進行了基準研究,以按關鍵參數比較技術:構建體積、構建速度、分辨率、價格等。這些比較是通過 IDTechEx 在過去七年的 3D 打印報導中收集的打印機型號和技術細節的廣泛數據庫構建的。通過這種公正的基準測試,IDTechEx 將為其最終用戶突出每種技術的優缺點。

最後,IDTechEx 將展示其在 2020 年和 2021 年進行的研究,以提供其對 3D 打印硬件市場現狀的看法。這包括按收入確定主要 3D 打印機製造商、按市場份額對主要技術領域的排名以及新興技術亮點。為進一步了解 3D 打印硬件市場,IDTechEx 將廣泛討論 COVID-19 大流行對 2020 年和 2021 年 3D 打印市場的影響,這是通過對 3D 打印公司的多次採訪和公共收入數據的定量分析來研究的. 通過本次分析,讀者將了解疫情對增材製造市場造成的不利影響,以及該行業未來十年的複蘇情況。

3D 打印硬件市場預測

IDTechEx 通過廣泛的一手和二手研究,為 3D 打印硬件市場構建了詳細的 10 年市場預測。這些預測按安裝基數、技術類型和單位銷售類型細分市場。該分析表明,3D 打印硬件的市場規模將在十年內達到 99 億美元的峰值。

補充預測的是對主要 3D 打印機製造商的全面採訪,這些製造商從 Stratasys 和 3D Systems 等行業巨頭到 Markforged 和 Desktop 等主要顛覆者,再到 Inkbit 和 9T Labs 等新興初創公司。這些簡介讓您深入了解行業領先的公司、它們在競爭對手中的地位,以及它們未來面臨的機遇和挑戰。

本報告回答的關鍵問題:

  • 不同材料專業中當前和新興的打印機技術類型有哪些?
  • 價格、構建速度、構建體積和精度等指標如何因打印機類型和材料類別而異?
  • 不同 3D 打印技術的優缺點是什麼?
  • 哪些打印機支持不同的材料類別?
  • 目前 3D 打印機的安裝基數是多少?
  • 誰是主要參與者?
  • 活躍在市場上的人的市場份額是多少?
  • 從 2022 年到 2032 年,不同打印機類型的銷量將如何演變?

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目錄

1。執行摘要

  • 1.1. 七種不同類型的 3D 打印工藝
  • 1.2. 材料-工藝關係
  • 1.3. 3D 打印增長的驅動因素和製約因素
  • 1.4. COVID-19 的影響:公司觀點總結
  • 1.5。COVID-19 對 2020 年收入的影響
  • 1.6. 前三季度收入:2019-2021
  • 1.7. 2021 年 3D 打印投資概覽
  • 1.8. 2021 年按公司類型劃分的 3D 打印私人資金
  • 1.9. 各公司硬件市場份額
  • 1.10。按公司分列的印刷工藝市場份額
  • 1.11。按地區劃分的 3D 打印硬件收入
  • 1.12。技術細分
  • 1.13。技術細分
  • 1.14. 當前技術市場份額
  • 1.15。按技術劃分的 3D 打印硬件市場
  • 1.16。按技術劃分的 3D 打印硬件市場 (2)
  • 1.17. 按單位銷售類型劃分的 3D 打印硬件市場
  • 1.18. 按技術劃分的 3D 打印安裝基礎
  • 1.19。2032年技術市場份額
  • 1.20。結論
  • 1.21。公司簡介

2。簡介

  • 2.1. 詞彙表:常用縮寫詞供參考
  • 2.2. 報告範圍
  • 2.3. 七種不同類型的 3D 打印工藝
  • 2.4. 材料-工藝關係
  • 2.5. 為什麼採用 3D 打印?
  • 2.6. 3D 打印的歷史:愛好者的崛起
  • 2.7. 3D 打印金屬的歷史
  • 2.8. 陶瓷3D打印公司的歷史
  • 2.9. 商業模式:確保未來收入
  • 2.10。消費者VS專業消費者VS專業人士
  • 2.11. 使用模式和市場細分
  • 2.12. 桌面 3D 打印機爆炸式增長
  • 2.13. 3D 打印增長的驅動因素和製約因素

3。聚合物印刷工藝

  • 3.1. 擠出:熱塑性長絲
  • 3.2. 擠出:熱塑性顆粒
  • 3.3. 粉末床融合:選擇性激光燒結 (SLS)
  • 3.4. 粉末床融合:多射流融合
  • 3.5. 大桶光聚合:立體平版印刷術 (SLA)
  • 3.6. 大桶光聚合:數字光處理 (DLP)
  • 3.7. 材料噴射:光聚合物

4。聚合物打印機:基準測試

  • 4.1. 聚合物和金屬:印刷工藝的機器價格
  • 4.2. 聚合物和金屬:通過印刷工藝構建體積
  • 4.3. 聚合物和金屬:印刷工藝的精度
  • 4.4. 聚合物和金屬:價格與速度
  • 4.5。聚合物和金屬:價格與精度
  • 4.6. 聚合物和金屬:價格與製造量
  • 4.7. 聚合物和金屬:構建體積與速度

5。金屬印刷工藝

  • 5.1. 粉末床熔合:直接金屬激光燒結 (DMLS)
  • 5.2. 粉末床融合:電子束熔化 (EBM)
  • 5.3. 定向能量沉積:吹粉
  • 5.4. 定向能量沉積:線
  • 5.5。粘合劑噴射:金屬粘合劑噴射
  • 5.6。粘合劑噴射:砂粘合劑噴射
  • 5.7. 片材層壓:超聲波增材製造 (UAM)

6。新的金屬印刷工藝

  • 6.1. 新興金屬印刷工藝 - 概述
  • 6.2. 擠出:金屬+聚合物長絲(MPFE)
  • 6.3. 大桶光聚合:數字光處理 (DLP)
  • 6.4. 材料噴射:納米粒子噴射 (NJP)
  • 6.5。擠壓:磁流體動力學沉積
  • 6.6. 材料噴射:電化學沉積
  • 6.7. 材料噴射:冷噴塗

7。金屬打印機:基準測試

  • 7.1. 金屬:價格與精度
  • 7.2. 金屬:價格與速度
  • 7.3. 金屬:價格與構建量
  • 7.4. 金屬:速度與構建量
  • 7.5。金屬:速度與精度
  • 7.6. 金屬:精度與體積

8。陶瓷印刷工藝

  • 8.1. 3D打印陶瓷技術概述
  • 8.2. 擠壓:粘貼
  • 8.3. 擠出:陶瓷聚合物長絲
  • 8.4. 擠出:陶瓷聚合物顆粒
  • 8.5。大桶光聚合:立體平版印刷術 (SLA)
  • 8.6. 大桶光聚合:數字光處理 (DLP)
  • 8.7. 材料噴射:納米粒子噴射 (NPJ)
  • 8.8. 粘合劑噴射:陶瓷粘合劑噴射
  • 8.9。為什麼沒有商用 SLS 陶瓷打印機?
  • 8.10。為什麼沒有商用 SLM 陶瓷打印機?

9。陶瓷打印機:基準測試

  • 9.1. 陶瓷:按打印機製造商構建卷
  • 9.2. 陶瓷:打印機製造商的最小 Z 分辨率
  • 9.3. 陶瓷基準測試:Z 分辨率與構建體積
  • 9.4. 陶瓷:打印機製造商的最小 XY 分辨率
  • 9.5。陶瓷:按技術類型劃分的構建速度
  • 9.6。陶瓷基準測試:構建量與價格
  • 9.7. 陶瓷基準測試:Z 分辨率與價格
  • 9.8。陶瓷3D打印技術評估

10. 複合印刷工藝

  • 10.1. 聚合物複合材料 - 概述
  • 10.2. 短切纖維熱塑性長絲擠出
  • 10.3. 連續纖維熱塑性長絲擠出
  • 10.4. 連續纖維熱塑性帶擠出
  • 10.5。片材層壓
  • 10.6. 粉末床融合:選擇性激光燒結 (SLS)
  • 10.7. 連續纖維熱固性擠出

11. 複合擠壓打印機:主要型號

  • 11.1. 複合擠出打印機的 5 種商業類別
  • 11.2. 關鍵熱塑性擠出複合打印機:工業用短纖維
  • 11.3. 關鍵熱塑性擠出複合打印機:帶連續纖維的桌面
  • 11.4. 關鍵熱塑性擠出複合打印機:工業用連續纖維
  • 11.5。關鍵熱塑性擠出複合打印機:大型連續纖維

12. 新興的打印機工藝

  • 12.1. 歐盟增材製造發展路線圖
  • 12.2. 超音速金屬粉末噴射
  • 12.3. 多光子光刻
  • 12.4. LCD立體光刻3D打印
  • 12.5. 雜交光合作用
  • 12.6. 熱光刻
  • 12.7. 高速旋轉AM
  • 12.8. NeuBeam
  • 12.9. 多材料印刷的興起
  • 12.10。多材料印刷的興起
  • 12.11。多材料噴射

13. 市場分析

  • 13.1. COVID-19 的影響:公司觀點總結
  • 13.2. COVID-19 的影響:公司觀點
  • 13.3. COVID-19 的影響:公司觀點
  • 13.4. COVID-19 對 2020 年收入的影響
  • 13.5. 季度收入 - 傳統 3D 打印機製造商
  • 13.6. 季度收入 - 粘合劑噴射
  • 13.7. 季度收入 - 金屬粉末床融合
  • 13.8. 季度收入 - Prodways
  • 13.9. 季度收入 - 服務提供商
  • 13.10。季度收入 - 新上市公司
  • 13.11。2020 年和 2021 年從 COVID-19 中恢復的收入
  • 13.12。前三季度收入:2019-2021
  • 13.13。COVID-19 和 3D 打印:要點
  • 13.14。2021 年 3D 打印投資概覽
  • 13.15。2021 年的重大收購
  • 13.16。收購聚焦:桌面金屬
  • 13.17。按公司類型劃分的 2021 年上市公司
  • 13.18。打印機公司將於 2021 年上市(按材料)
  • 13.19。2021 年上市公司:SPAC 與 IPO
  • 13.20。SPAC 合併時的估值與收入
  • 13.21。股票表現 - Markforged 和桌面金屬
  • 13.22。按國家/地區劃分的 2021 年上市公司
  • 13.23。2021 年上市公司:總結
  • 13.24。2021 年按公司類型劃分的 3D 打印私人資金
  • 13.25。按地區分列的 2021 年 3D 打印私人資金
  • 13.26。按地區分列的 2021 年 3D 打印私人資金
  • 13.27。2021 年前 10 輪融資
  • 13.28。3D打印硬件收入歷史性增長
  • 13.29。7 種印刷工藝的市場份額演變
  • 13.30。各公司硬件市場份額
  • 13.31。按公司分列的印刷工藝市場份額
  • 13.32。按地區劃分的 3D 打印硬件收入
  • 13.33。技術細分
  • 13.34。技術細分
  • 13.35。當前技術市場份額

14. 市場預測

  • 14.1. 預測方法和結果的呈現
  • 14.2. 3D打印硬件市場預測
  • 14.3. 按技術劃分的 3D 打印硬件市場
  • 14.4. 按技術劃分的 3D 打印硬件市場 (2)
  • 14.5. 按材料分類的 3D 打印硬件市場
  • 14.6. 按單位銷售類型劃分的 3D 打印硬件市場
  • 14.7. 按技術劃分的 3D 打印硬件單位銷售額
  • 14.8. 按技術劃分的 3D 打印安裝基礎
  • 14.9. 2032年技術市場份額

15。結論

16. 附錄

  • 16.1. 3D打印硬件市場預測
  • 16.2. 按技術劃分的 3D 打印硬件市場
  • 16.3. 按材料分類的 3D 打印硬件市場
  • 16.4. 按單位銷售類型劃分的 3D 打印硬件市場
  • 16.5. 按技術劃分的 3D 打印硬件單位銷售額
  • 16.6. 按技術劃分的 3D 打印安裝基礎

17. 訪問 55 個 IDTECHEX 公司簡介

目錄
Product Code: ISBN 9781913899851

Title:
3D Printing Hardware 2022-2032: Technology and Market Outlook
Granular market forecasts, interview-based company profiles, technology breakdowns and benchmarking studies, and market outlook.

"3D printing hardware will peak at $9.9 billion within the decade."

3D Printing Hardware: The Foundation of the Additive Manufacturing Industry

In the thirty years since the founding of the 3D printing industry, countless printing technologies have been invented, patented, and commercialized - from fused filament fabrication to digital light processing, selective laser melting to binder jetting, material jetting to sheet lamination, and every unique printing technology in between. With every new technology, the additive manufacturing market grows its ability to expand into new applications, end-users, and industries. From this perspective, 3D printers can be considered the core foundation underlying the additive manufacturing industry's growth in recent years. Therefore, to understand the future progress and outlook of additive manufacturing, it becomes essential to learn and understand 3D printing technologies and hardware.

IDTechEx's 3D Printing Hardware: 2022-2032 report is designed to explain and analyze the growth of 3D printing hardware technologies and sales; it is made to be useful for any company in the 3D printing supply chain: materials makers, printer manufacturers, service providers, end-users, and more. This report breaks down the market into 17 technology segments to create 17 COVID-19 adjusted forecast lines for each individual segment. The forecasts provide a ten-year outlook for 3D printer installation base, new installations, replacement unit sales, and revenue from 3D printer sales, all broken down into 17 forecast lines.

Technology Market Share in 2021 Categorized by Seventeen Technology Segments - Source IDTechEx

3D Printing Hardware Breakdowns: Technology Analyses and Impartial Technical Benchmarking

Within this report, IDTechEx individually analyzes over 30 printing technologies by their strengths, weaknesses, opportunities, and threats. In addition, information on hardware manufacturers, technology readiness levels, and key industries for each technology are provided to offer a full picture of each printing process from a technical and application perspective. These 30 printing technologies are categorized by four material classes, thus providing key technical insights into each additive manufacturing subspeciality: polymer, metal, ceramic, and composite.

Additionally, IDTechEx has conducted benchmarking studies within each material subspeciality to compare technologies by key parameters: build volume, build speed, resolution, price, and more. These comparisons were constructed through the extensive database of printer models and technical details collected by IDTechEx over the past seven years of 3D printing coverage. Through this impartial benchmarking, IDTechEx will highlight the advantages and disadvantages of each technology for its end-users.

Lastly, IDTechEx will present its research conducted over 2020 and 2021 to offer its perspective on the current status of the 3D printing hardware market. This includes identification of the key 3D printer manufacturers by revenue, rankings of the dominant technology segments by market share, and emerging technology highlights. To provide further context on the 3D printing hardware market, IDTechEx will extensively discuss the effects of the COVID-19 pandemic on the 3D printing market in 2020 and 2021, which was studied through many interviews with 3D printing companies and quantitative analysis of public revenue data. Through this analysis, readers will understand how much the pandemic adversely affected the additive manufacturing market and what the industry's recovery will look like in the next ten years.

Market Forecasts for 3D Printing Hardware

Using extensive primary and secondary research, IDTechEx has constructed a detailed 10-year market forecast for the 3D printing hardware market. These forecasts break the market down by install base, technology type, and unit sale type. This analysis reveals that 3D printing hardware will peak at a market size of $9.9 billion within the decade.

Supplementing the forecasts are full profile interviews of the major 3D printer manufacturers, which range from industry giants like Stratasys and 3D Systems to major disrupters like Markforged and Desktop to rising startups like Inkbit and 9T Labs. These profiles give insight into the companies leading the industry, their position amongst their competitors, and the opportunities and challenges they face in the future.

Key questions that are answered in this report:

  • What are the current and emerging printer technology types within different material specialties?
  • How do metrics such as price, build speed, build volume and precision vary by printer type and material class?
  • What are the strengths and weaknesses of different 3D printing technologies?
  • Which printers support different material classes?
  • What is the current installed base of 3D printers?
  • Who are the main players?
  • What are the market shares of those active in the market?
  • How will sales of different printer types evolve from 2022 to 2032?

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TABLE OF CONTENTS

1. EXECUTIVE SUMMARY

  • 1.1. The Seven Different Types of 3D Printing Processes
  • 1.2. Material-Process Relationships
  • 1.3. Drivers and Restraints of Growth for 3D Printing
  • 1.4. Impact of COVID-19: Summary of Company Perspectives
  • 1.5. Impact of COVID-19 on Revenue in 2020
  • 1.6. Revenues for First 3 Quarters: 2019-2021
  • 1.7. 3D Printing Investment Overview for 2021
  • 1.8. 3D Printing Private Funding in 2021 by Company Type
  • 1.9. Hardware Market Share by Company
  • 1.10. Market Share for Printing Processes by Company
  • 1.11. 3D Printing Hardware Revenue by Region
  • 1.12. Technology Segmentation
  • 1.13. Technology Segmentation
  • 1.14. Current Technology Market Share
  • 1.15. 3D Printing Hardware Market by Technology
  • 1.16. 3D Printing Hardware Market by Technology (2)
  • 1.17. 3D Printing Hardware Market by Unit Sale Type
  • 1.18. 3D Printing Install Base by Technology
  • 1.19. Technology Market Share in 2032
  • 1.20. Conclusion
  • 1.21. Company Profiles

2. INTRODUCTION

  • 2.1. Glossary: common acronyms for reference
  • 2.2. Scope of Report
  • 2.3. The Seven Different Types of 3D Printing Processes
  • 2.4. Material-Process Relationships
  • 2.5. Why Adopt 3D Printing?
  • 2.6. History of 3D Printing: The Rise of The Hobbyist
  • 2.7. History of 3D Printing Metals
  • 2.8. History of Ceramic 3D Printing Companies
  • 2.9. Business Models: Securing Future Revenues
  • 2.10. Consumer vs Prosumer vs Professional
  • 2.11. Use Patterns and Market Segmentation
  • 2.12. The Desktop 3D Printer Explosion
  • 2.13. Drivers and Restraints of Growth for 3D Printing

3. POLYMER PRINTING PROCESSES

  • 3.1. Extrusion: Thermoplastic Filament
  • 3.2. Extrusion: Thermoplastic Pellet
  • 3.3. Powder Bed Fusion: Selective Laser Sintering (SLS)
  • 3.4. Powder Bed Fusion: Multi-Jet Fusion
  • 3.5. Vat Photopolymerisation: Stereolithography (SLA)
  • 3.6. Vat Photopolymerisation: Digital Light Processing (DLP)
  • 3.7. Material Jetting: Photopolymer

4. POLYMER PRINTERS: BENCHMARKING

  • 4.1. Polymer & Metal: Machine Prices by Printing Process
  • 4.2. Polymer & Metal: Build Volumes by Printing Process
  • 4.3. Polymer & Metal: Precision by Printing Process
  • 4.4. Polymer & Metal: Price vs Speed
  • 4.5. Polymer & Metal: Price vs Precision
  • 4.6. Polymer & Metal: Price vs Build Volume
  • 4.7. Polymer & Metal: Build Volume vs Speed

5. METAL PRINTING PROCESSES

  • 5.1. Powder Bed Fusion: Direct Metal Laser Sintering (DMLS)
  • 5.2. Powder Bed Fusion: Electron Beam Melting (EBM)
  • 5.3. Directed Energy Deposition: Blown Powder
  • 5.4. Directed Energy Deposition: Wire
  • 5.5. Binder Jetting: Metal Binder Jetting
  • 5.6. Binder Jetting: Sand Binder Jetting
  • 5.7. Sheet Lamination: Ultrasonic Additive Manufacturing (UAM)

6. NEW METAL PRINTING PROCESSES

  • 6.1. Emerging Metal Printing Processes - Overview
  • 6.2. Extrusion: Metal + Polymer Filament (MPFE)
  • 6.3. Vat Photopolymerisation: Digital Light Processing (DLP)
  • 6.4. Material Jetting: Nanoparticle Jetting (NJP)
  • 6.5. Extrusion: Magnetohydrodynamic Deposition
  • 6.6. Material Jetting: Electrochemical Deposition
  • 6.7. Material Jetting: Cold Spray

7. METAL PRINTERS: BENCHMARKING

  • 7.1. Metal: Price vs Precision
  • 7.2. Metal: Price vs Speed
  • 7.3. Metal: Price vs Build Volume
  • 7.4. Metal: Speed vs Build Volume
  • 7.5. Metal: Speed vs Precision
  • 7.6. Metal: Precision vs Volume

8. CERAMIC PRINTING PROCESSES

  • 8.1. 3D Printing Ceramics Technology Overview
  • 8.2. Extrusion: Paste
  • 8.3. Extrusion: Ceramic-Polymer Filament
  • 8.4. Extrusion: Ceramic-Polymer Pellet
  • 8.5. Vat Photopolymerisation: Stereolithography (SLA)
  • 8.6. Vat Photopolymerisation: Digital Light Processing (DLP)
  • 8.7. Material Jetting: Nanoparticle Jetting (NPJ)
  • 8.8. Binder Jetting: Ceramic Binder Jetting
  • 8.9. Why are there no commercial SLS ceramic printers?
  • 8.10. Why are there no commercial SLM ceramic printers?

9. CERAMIC PRINTERS: BENCHMARKING

  • 9.1. Ceramic: Build Volumes by Printer Manufacturer
  • 9.2. Ceramic: Minimum Z Resolution by Printer Manufacturer
  • 9.3. Ceramic Benchmarking: Z Resolution vs Build Volume
  • 9.4. Ceramic: Minimum XY Resolution by Printer Manufacturer
  • 9.5. Ceramic: Build Speed by Technology Type
  • 9.6. Ceramic Benchmarking: Build Volume vs Price
  • 9.7. Ceramic Benchmarking: Z Resolution vs Price
  • 9.8. Evaluation of Ceramic 3D Printing Technologies

10. COMPOSITE PRINTING PROCESSES

  • 10.1. Polymer Composites - Overview
  • 10.2. Chopped Fibre Thermoplastic Filament Extrusion
  • 10.3. Continuous Fibre Thermoplastic Filament Extrusion
  • 10.4. Continuous Fibre Thermoplastic Tape Extrusion
  • 10.5. Sheet Lamination
  • 10.6. Powder Bed Fusion: Selective Laser Sintering (SLS)
  • 10.7. Continuous Fibre Thermoset Extrusion

11. COMPOSITE EXTRUSION PRINTERS: KEY MODELS

  • 11.1. 5 Commercial Categories of Composite Extrusion Printers
  • 11.2. Key Thermoplastic Extrusion Composite Printers: Industrial with Short Fiber
  • 11.3. Key Thermoplastic Extrusion Composite printers: Desktop with Continuous Fiber
  • 11.4. Key Thermoplastic Extrusion Composite Printers: Industrial with Continuous Fiber
  • 11.5. Key Thermoplastic Extrusion Composite Printers: Large-Scale with Continuous Fibers

12. EMERGING PRINTER PROCESSES

  • 12.1. EU Roadmap for AM Development
  • 12.2. Supersonic Metal Powder Jetting
  • 12.3. Multiphoton Lithography
  • 12.4. LCD Stereolithography 3D Printing
  • 12.5. Hybrid Photosynthesis
  • 12.6. Hot Lithography
  • 12.7. High Speed Rotative AM
  • 12.8. NeuBeam
  • 12.9. Rise of Multi-material Printing
  • 12.10. Rise of Multi-Material Printing
  • 12.11. Multi-Material Jetting

13. MARKET ANALYSIS

  • 13.1. Impact of COVID-19: Summary of Company Perspectives
  • 13.2. Impact of COVID-19: Company Perspectives
  • 13.3. Impact of COVID-19: Company Perspectives
  • 13.4. Impact of COVID-19 on Revenue in 2020
  • 13.5. Quarterly Revenues - Legacy 3D Printer Manufacturers
  • 13.6. Quarterly Revenues - Binder Jetting
  • 13.7. Quarterly Revenues - Metal Powder Bed Fusion
  • 13.8. Quarterly Revenues - Prodways
  • 13.9. Quarterly Revenues - Service Providers
  • 13.10. Quarterly Revenues - Newly Public Companies
  • 13.11. Revenue Recovery from COVID-19 in 2020 and 2021
  • 13.12. Revenues for First 3 Quarters: 2019-2021
  • 13.13. COVID-19 and 3D Printing: Takeaways
  • 13.14. 3D Printing Investment Overview for 2021
  • 13.15. Notable Acquisitions in 2021
  • 13.16. Acquisition Spotlight: Desktop Metal
  • 13.17. Companies Going Public in 2021 by Company Type
  • 13.18. Printer Companies Going Public in 2021 by Material
  • 13.19. Companies Going Public in 2021: SPAC vs IPO
  • 13.20. Valuations vs Revenues at time of SPAC Merger
  • 13.21. Stock Performance - Markforged and Desktop Metal
  • 13.22. Companies Going Public in 2021 by Country
  • 13.23. Companies Going Public in 2021: Summary
  • 13.24. 3D Printing Private Funding in 2021 by Company Type
  • 13.25. 3D Printing Private Funding in 2021 by Region
  • 13.26. 3D Printing Private Funding in 2021 by Region
  • 13.27. Top 10 Fundraising Rounds in 2021
  • 13.28. 3D Printing Hardware Historic Revenue Growth
  • 13.29. Evolution of Market Shares for 7 Printing Processes
  • 13.30. Hardware Market Share by Company
  • 13.31. Market Share for Printing Processes by Company
  • 13.32. 3D Printing Hardware Revenue by Region
  • 13.33. Technology Segmentation
  • 13.34. Technology Segmentation
  • 13.35. Current Technology Market Share

14. MARKET FORECAST

  • 14.1. Forecast Methodology and Presentation of Findings
  • 14.2. 3D Printing Hardware Market Forecast
  • 14.3. 3D Printing Hardware Market by Technology
  • 14.4. 3D Printing Hardware Market by Technology (2)
  • 14.5. 3D Printing Hardware Market by Material Class
  • 14.6. 3D Printing Hardware Market by Unit Sale Type
  • 14.7. 3D Printing Hardware Unit Sales by Technology
  • 14.8. 3D Printing Install Base by Technology
  • 14.9. Technology Market Share in 2032

15. CONCLUSIONS

16. APPENDIX

  • 16.1. 3D Printing Hardware Market Forecast
  • 16.2. 3D Printing Hardware Market by Technology
  • 16.3. 3D Printing Hardware Market by Material Class
  • 16.4. 3D Printing Hardware Market by Unit Sale Type
  • 16.5. 3D Printing Hardware Unit Sales by Technology
  • 16.6. 3D Printing Install Base by Technology

17. ACCESS TO 55 IDTECHEX COMPANY PROFILES