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小型産業用金属3Dプリンター:マネージャーへのガイド

Manager's Guide to Compact Industrial Metal 3D Printers

発行 SmarTech Analysis 商品コード 889765
出版日 ページ情報 英文 56 Pages
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小型産業用金属3Dプリンター:マネージャーへのガイド Manager's Guide to Compact Industrial Metal 3D Printers
出版日: 2019年06月04日 ページ情報: 英文 56 Pages
概要

当レポートでは、小型産業用金属3Dプリンター市場について調査し、小型産業用金属3Dプリンターの定義、ハードウェア技術の概要と各メリット・デメリットの考察、多様な用途、CNCマシニングと小型産業用金属3Dプリントの比較、現在の主要な小型産業用金属3Dプリンターのレビュー、および所有コストなどにつてまとめています。

第1章 イントロダクション

第2章 プリンター技術

  • 粉末床溶融結合法 (PBF)
  • 材料押出法 (ME)
  • 指向性エネルギー堆積法 (DED)
  • サマリー

第3章 小型産業用金属3Dプリンターの用途

  • 製品ライフサイクルにおける用途
    • イノベーション段階
    • 成長段階
    • 製造段階
    • 下降段階
  • 用途:垂直産業別
    • 自動車
    • 航空宇宙
    • 医療・歯科
    • 一般工業

第4章 小型産業用金属プリンター vs. CNCマシニング

  • 物理的検討事項
  • 経済的検討事項
  • サマリー

第5章 主要な小型産業用金属プリンターのメーカー

  • Additec
  • Aurora Labs
  • Desktop Metal
  • Markforged
  • OR Laser / Coherent
  • Pollen AM
  • Xact Metal
  • その他
  • サマリー

第6章 所有コスト

  • ハードウェアコスト
  • マテリアルコスト
  • ポストプロセッシング

SmarTech Analysisについて

目次
Product Code: SMP-MG-CMP

With the metal additive manufacturing market experiencing a stage of high-growth, Machine shops are starting to look into Compact Industrial Metal 3D printer as a necessary addition to existing CNC machining, and are investigating how to bring this capability in-house.

Until recently, most of the focus in metal additive manufacturing has been on large-scale, highly complicated, and expensive printer hardware. As a result, the conversation is often directed towards throughput rather than accessibility. But, investing in $1M+ printer hardware that requires a dedicated space might not be feasible. Aside from the high capital, operation and maintenance costs, most industrial metal 3D printers also require a large footprint, not to mention a large learning curve. However, there are still options for companies unable to spend seven figures and build a dedicated space.

This relatively new sub-segment of Compact Industrial Metal 3D printers (or metal “Desktop” printers) offer a more accessible price-point and shorter learning curve, while still offering industrial-level production and quality. SmarTech has identified Machine Shops as one of the primary customers investigating this market and have developed a Manager's Guide to help facilitate the journey.

This Manager's Guide Will Include:

  • The definition and requirements for Compact Industrial Metal 3D printers.
  • An overview of the hardware technologies, with things to consider and the pros and cons of each.
  • An in-depth discussion on the various applications within automotive, aerospace, medical / dental, and general manufacturing.
  • A critical comparison of CNC machining vs. Compact Industrial Metal 3D printing.
  • A detailed review of each of the current notable Compact Industrial Metal 3D printers on or about to enter the market.
  • A discussion on cost of ownership of the various technologies and notable Compact Industrial Metal 3D printers.

This report is directed toward the end user market, the companies who are active users of additive manufacturing or considering its adoption. While suppliers of additive manufacturing may find the report useful this study differs from our related study, ‘Compact Industrial Metal AM Printer Market Opportunities 2019’ which provides broader analysis and forecasting of the addressable market for the supply chain.

Table of Contents

Chapter One: Introduction

  • 1.1. Background and Objective
  • 1.2. Definition and Requirements
    • 1.2.1. Accessibility
    • 1.2.2. Speed and Quality
    • 1.2.3. Applicability
    • 1.2.4. Cost
    • 1.2.5. Summary and Comparison of Compact Industrial vs. High-end and Maker/Prosumer Printers

Chapter Two: Printer Technologies

  • 2.1. Powder Bed Fusion (PBF)
  • 2.2. Material Extrusion (ME)
  • 2.3. Directed Energy Deposition (DED)
  • 2.4. Summary

Chapter Three: Applications of Compact Industrial Metal 3D Printers

  • 3.1. Applications in a Product's Lifecycle
    • 3.1.1. Applications in the Innovation Stage
    • 3.1.2. Applications in the Growth Stage
    • 3.1.3. Applications in the Production Stage
    • 3.1.4. Applications in the Decline Stage
  • 3.2. Applications by Vertical
    • 3.2.1. Applications within Automotive
    • 3.2.2. Applications within Aerospace
    • 3.2.3. Applications within Medical and Dental
    • 3.2.4. Application within General Industrial Manufacturing

Chapter Four: Compact Industrial Metal Printers vs. CNC Machining

  • 4.1. Physical Considerations of 3D Printing vs. CNC Machining
  • 4.2. Economic Considerations of 3D Printing vs. CNC Machining
  • 4.3. Summary of 3D Printing vs. CNC Machining

Chapter Five: Notable Compact Industrial Metal Printer Manufacturers

  • 5.1. Additec
  • 5.2. Aurora Labs
  • 5.3. Desktop Metal
  • 5.4. Markforged
  • 5.5. OR Laser / Coherent
  • 5.6. Pollen AM
  • 5.7. Xact Metal
  • 5.8. Others
  • 5.9. Summary

Chapter Six: Cost of Ownership

  • 6.1. Hardware Costs
  • 6.2. Material Costs
  • 6.3. Post Processing

About SmarTech Analysis

  • About the Analyst
  • Acronyms and Abbreviations Used In this Report

List of Exhibits

  • Exhibit 1-1: Evaluation Criteria for Compact Industrial Metal Printers
  • Exhibit 1-2: Typical Characteristics of Maker, Prosumer, Compact Industrial Metal and High-end 3D Printing Solutions
  • Exhibit 1-3: Speed and Quality vs. Ease of Use for the Various Categories of Metal 3D Printers
  • Exhibit 1-4: Cost vs. Application/Customer-Base for the Various Categories of Metal 3D Printers
  • Exhibit 2-1: The Complete Materials Extrusion Process Utilized by Markforged and Desktop Metal
  • Exhibit 2-2: Benefits and Limitations of Technologies Implemented for Compact Industrial Metal 3D Printers
  • Exhibit 3-1: Applications for Compact Industrial Metal 3D Printers within Each Stage of a Product's Lifecycle
  • Exhibit 3-2: Considerations for Applications by Printer Technology
  • Exhibit 3-3: Market Adoption Statistics for Metal Additively Manufactured Implants
  • Exhibit 4-1: A Comparison of Compact Industrial Metal (CIM) 3D Printing vs. CNC Machining
  • Exhibit 5-1: A Comparison within the Materials Extrusion (ME) Sub-Segment of Solutions
  • Exhibit 5-2: A Comparison within the Powder Bed Fusion (PBF) Sub-segment of Solutions
  • Exhibit 5-3: A Summary of the Build Volumes and Spatial Requirements for the Notable Compact Industrial Metal 3D Printers (Color sorted by printer technology)
  • Exhibit 5-4: A Summary of the Resolution and Laser Power for the Notable Compact Industrial Metal 3D Printers (Color sorted by printer technology)
  • Exhibit 6-1: A Summary of the Pricing for the Notable Compact Industrial Metal 3D Printers (Color sorted by printer technology)
  • Exhibit 6-2: Estimated Costs for 17-4 PH Stainless Steel for use in Compact Industrial Metal 3D Printers
  • Exhibit 6-3: Estimated Costs for 17-4 PH Stainless Steel Feedstock for PBF, ME and DED Compact Industrial Metal Printers, as a Function of the Metal-Contained.
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