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指向性エネルギー堆積 (DED) 方式製造の市場機会

Market Opportunities for Directed Energy Deposition Manufacturing

発行 SmarTech Analysis 商品コード 912314
出版日 ページ情報 英文 37 Pages
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指向性エネルギー堆積 (DED) 方式製造の市場機会 Market Opportunities for Directed Energy Deposition Manufacturing
出版日: 2019年09月18日 ページ情報: 英文 37 Pages
概要

当レポートでは、指向性エネルギー堆積 (DED) 技術とその変異形 (LMD、LENSおよびWAAM) が提供する機会について特定し、DED製造機械にとってのアドレッサブル市場、その他の積層造形 (AM) プロセスと比較したAMビジネスへの適合領域、DED市場における価格戦略、および主要サプライヤーなどについて分析しています。

第1章 DED技術

  • DEDはAM市場へどのように適合するか?
  • DEDプリンティング:コアプロセス
  • DEDマシン向けマテリアルの検討事項

第2章 アプリケーション・予測

  • 現在、DEDマシンが使用されている場所・方法
  • 国別のDEDマシン市場:インストールベース、出荷高および市場額の10ヵ年予測
  • DEDマシンによって消費される粉末材料の10ヵ年予測
  • 粉末マシンvs. ワイヤーベースマシンの10ヵ年予測
  • ハイブリッドDEDマシンの10ヵ年予測

第3章 DEDプリンターのサプライヤー

  • DEDプリンターの供給構造
  • 3D Hybrid Solutions (米国)
  • Additec (米国)
  • BeAM/AddUp (フランス)
  • DM3D (米国)
  • DMG MORI (ドイツ)
  • ELB-Schliff (ドイツ)
  • Evobeam (ドイツ)
  • Formalloy (米国)
  • Hybrid Manufacturing Technologies (英国)
  • InnsTek (韓国)
  • Lincoln Electric (米国)
  • ヤマザキマザック (日本)
  • Norsk Titanium (ノルウェー)
  • オクマ (日本)
  • Optomec (米国)
  • OR Laser/Coherent (ドイツ)
  • Prima Additive (イタリア)
  • Prodways (フランス)
  • Sciaky (米国)
  • Trumpf (ドイツ)

SmarTech の分析について

目次

This report identifies the opportunities presented by Directed Energy Deposition manufacturing (DED) technology and its variants such as LMD, LENS, and WAAM. DED is an additive manufacturing technology designed to build large parts. The DED process is rapid but rough cut and requires significant post processing.

In this report we show where the addressable markets for Directed Energy Deposition Manufacturing machines are to be found - and where they fit into the AM business as a whole relative to other AM processes. The report also explains the pricing strategies in the DED sector. It takes a look at both powder-based and wire-based DED and also DED-based hybrids. In addition, it examines the evolution of DED technology in terms heat sources, print speeds, processing chambers and power supplies.

The main part of report provides a very highly granular ten-year forecast of all DED-related market segments. These include the machines themselves as well as the materials broken out by material type. We also have breakouts of machines by end-user industry, wire versus powder, and hybrid versus “pure” DED.

Both volume and value projections are included for all the forecasts. Finally, this report includes profiles of the DED strategies of 22 companies.

Table of Contents

Chapter One: DED Technology

  • 1.1. How DED Fits into the AM Sector
    • 1.1.1. Price and the Economics of DED
    • 1.1.2. Wire- and Powder-based DED
  • 1.2. DED Printing: The Core Process
    • 1.2.1. Heat Sources and their Implications
    • 1.2.2. Print Speed
    • 1.2.3. Processing Environment Considerations
    • 1.2.4. Power Supplies
    • 1.2.5. Extended Build Sizes for DED
  • 1.3. Materials Considerations for DED Machines
    • 1.3.1. Sources of DED Materials and Materials Information

Chapter Two: Applications and Forecasts

  • 2.1. Where and How DED Machines are Being Used Today
    • 2.1.1. DED Machine Market by End User Industry: Install Base, Shipments and Market Value - Ten-Year Forecasts
    • 2.1.2. Repair and Feature Addition Applications for DED
    • 2.1.3. DED vs. Traditional Manufacturing: Near-net-shape Parts
    • 2.1.4. DED and Hybrid Machines
  • 2.2. DED Machine Market by Country: Install Base, Shipments and Market Value Ten-year Forecasts
  • 2.3. Ten-year Forecasts of Powder Materials Consumed by DED Machines
  • 2.4. Ten-year Forecasts of Powder Machines versus Wire-Based Machines
  • 2.5. Ten-year Forecasts of Hybrid DED Machines

Chapter Three DED Printer Suppliers

  • 3.1. DED Printer Supply Structure
  • 3.2. 3D Hybrid Solutions (United States)
  • 3.3. Additec (United States)
  • 3.4. BeAM/AddUp (France)
  • 3.5. DM3D (United States)
  • 3.6. DMG MORI (Germany)
  • 3.7. ELB-Schliff (Germany)
  • 3.8. Evobeam (Germany)
  • 3.9. Formalloy (United States)
  • 3.10. Hybrid Manufacturing Technologies (U.K.)
  • 3.11. InnsTek (South Korea)
  • 3.12. Lincoln Electric (United States)
  • 3.13. Mazak Corporation (Japan)
  • 3.14. Norsk Titanium (Norway)
  • 3.15. Okuma (Japan)
  • 3.16. Optomec (United States)
  • 3.17. OR Laser/Coherent (Germany)
  • 3.18. Prima Additive (Italy)
  • 3.19. Prodways (France)
  • 3.20. Sciaky (United States)
  • 3.21. Trumpf (Germany)
  • About SmarTech Analysis
    • About the Analyst
    • Acronyms and Abbreviations Used In this Report

List of Exhibits

  • Exhibit 1-1: DED Manufacturing: Primary Characteristics
  • Exhibit 2-1: Ten-year Forecasts of DED Machine Shipments and Install Base: by Industry (Units)
  • Exhibit 2-2: Ten-year Forecasts of DED Machine Market by Industry ($ Millions)
  • Exhibit 2-3: Ten-year Forecasts of DED Machine Shipments and Install Base: by Country/Region (Units)
  • Exhibit 2-4: Ten-year Forecasts of DED Machine Market ($ Millions): by Country/Region
  • Exhibit 2-5: Ten-year Forecasts of DED Material Shipments: by Volume (Kg)
  • Exhibit 2-6: Ten-year Forecasts of DED Material Shipments: by Value ($ Millions)
  • Exhibit 2-7: Ten-year Forecasts of DED Machines by Powder versus Wire
  • Exhibit 2-8: Ten-year Forecasts of DED Machines by Powder versus Wire
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