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一般産業・工作機械器具設備部門における付加製造 (AM) の市場機会:2020-2029年

Market Opportunities for Additive Manufacturing in the General Industry and Tooling Sector: 2020-2029

出版日: | 発行: SmarTech Analysis | ページ情報: 英文 79 Pages | 納期: 即納可能 即納可能とは

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一般産業・工作機械器具設備部門における付加製造 (AM) の市場機会:2020-2029年
出版日: 2020年03月02日
発行: SmarTech Analysis
ページ情報: 英文 79 Pages
納期: 即納可能 即納可能とは
  • 全表示
  • 概要
  • 目次
概要

当レポートでは、一般産業・工作機械器具設備部門における付加製造 (AM) の市場を調査し、一般産業・工作機械器具設備部門のサプライチェーンとAMの参入機会、導入パターン、導入のメリット、導入事例、AMハードウェアおよび材料の種類と概要、ハードウェア・材料タイプ別の10カ年成長予測、AM部品による整備収益の10カ年成長予測、主要参入事業者のプロファイルなどをまとめています。

第1章 一般産業・工作機械器具設備部門における付加製造 (AM)の市場機会

  • 一般産業・工作機械器具設備部門のサプライチェーンとAMの参入機会
    • 一般産業・工作機械器具設備部門におけるAMの導入パターン
    • 一般産業・工作機械器具設備部門向けAM技術市場
    • 一般産業・工作機械器具設備部門におけるAMの主なメリット
    • 実際の導入事例
    • 10カ年予測
  • 予測手法
  • 本章の要点

第2章 一般産業・工作機械器具設備部門の革新を推進するAM技術・材料

  • AM技術
    • 長期的に関連する可能性があるAM技術
    • 投資を推進するAMの主な技術的特徴
    • 10カ年予測:AMハードウェア
  • ポリマー系AM技術の最新の進歩
    • 最新動向:ポリマー系AMハードウェア技術
    • 10カ年予測:ポリマー系AMハードウェア
  • 金属AM技術
    • 粉末床溶融結合 (PBF) のリード
    • 大規模用途における指向性エネルギー堆積法 (DED) の成長
    • 金属結合 (バウンドメタル) プリンティング技術の有効性
    • 移行期のAM技術
    • 10カ年予測:金属AMハードウェア
  • 一般産業・工作機械器具設備部門向けAM材料
    • 材料開発
    • 10カ年予測:AM材料
  • ポリマー・複合材料
    • 主要サプライヤー
    • 10カ年予測
    • 熱可塑性押出成形技術の動向
    • フォトポリマーの市場機会
    • ポリマー粉末床溶融結合向け先進材料
  • 金属材料
    • 鋼鉄・合金鋼
    • チタニウム
    • ニッケル合金
    • コバルトクロム
    • その他
    • 10カ年予測
  • 本章の要点

第3章 AM部品による整備

  • 一般産業・工作機械器具設備部門向けの主なAM部品
    • 先進プロトタイピング&モデリング機器
    • 金型・鋳造パターン・治具・取付具
    • ドリルビット・切削工具・その他の工作機械部品
    • アームエンドツーリング
    • 工業用熱交換器・バーナー
    • コネクター・クランプ・マウント
    • 10カ年予測:AMサービス収益
  • AMの導入動向:用途別
    • 3Dプリンティング用金型
    • 重機向け3Dプリントスペアパーツ
    • 製造部門間の相互利用
    • 統合型サービスビューローの台頭
    • 3Dプリントポリマーエンドパーツの事例
    • 付加切削工具の事例
  • OEM企業・AMサービスのプロファイル
    • 近年の展開:OEM
    • 近年の展開:サプライヤー・ステークホルダー
  • 本章の要点

SmarTech Analysisについて

目次
Product Code: SMP-AMT-0220

Additive manufacturing (AM) has the potential to have a profound impact on the general industry and tooling sector, yet OEMs in the market are only now beginning to fully grasp the potential. This is the first report to fully characterize the market for AM in the general industry and tooling sector, quantifying the revenue opportunities and levels of AM adoption in the sector using AM hardware, materials, and services through 2029.

Based on interviews, secondary sources, a large database of industry-specific information, and a deep understanding of available AM technologies, materials and applications, SmarTech provides detailed sub-segment analysis of the current state of AM in one of the broadest manufacturing sectors, while also providing future projections for the industry as a whole. This includes the dynamics of industry-specific trends, such as those related to cutting tools, metallurgy equipment and heavy machinery.

We begin with an analysis of AM hardware adoption patterns and trajectories for the industry, examining polymer and metal systems, including the sub-segments related to key technologies within those categories, such as polymer powder bed fusion and bound metal deposition AM processes. We then track the state of AM materials, including those metals that represent the largest revenue opportunity for the sector. The report concludes with an analysis of AM services and profiles of and key stakeholders. Companies mentioned include: Carbon, EOS, HP, Xaar, Caterpillar, Volvo Construction Equipment, GE Additive, Siemens, Sandvik, Desktop Metal, Markforged, Parmatech, Kennametal, Phoenix Contact, Mapal, Guhring UK, GKN Additive, Kueppers Solutions, CNH Industrial, Cummins Inc., Wabtec, Emerson Electric, Xylem, Additive Industries, SMS Group

For each AM segment (hardware, materials, and services), ten-year forecasts are provided that further segment the market based on hardware technologies, material types and service types. Both revenue ($ Millions) and volume (units or kilograms/tons shipped) are considered in the forecasts.

Table of Contents

Chapter One: Market Opportunities for Additive Manufacturing in the General Industry and Tooling Sector

  • 1.1. Opportunities for AM to Enter the General Industry and Tooling Supply Chain
    • 1.1.1. General Industry and Tooling AM Adoption Pattern
    • 1.1.2. AM Technologies for the General Industry and Tooling Market
    • 1.1.3. Key Benefits of AM for General Industry and Tooling
    • 1.1.4. Examples of Practical Applications of AM in General Industry and Tooling
    • 1.1.5. Ten-year Forecast of Overall Market Opportunity for AM in General Industry and Tooling
  • 1.2. Forecast Methodology
  • 1.3. Key Points from this Chapter

Chapter Two: AM Technologies and Materials Driving General Industry and Tooling Sector Innovation

  • 2.1. AM Technologies for the General Industry and Tooling Sector Considered in This Report
    • 2.1.1. Other AM Technologies That Could Become Relevant Long Term
    • 2.1.2. Key AM Technological Features Driving Investments in the General Industry and Tooling Sector
    • 2.1.3. Ten-year Forecast for All AM Hardware in General Industry and Tooling
  • 2.2. Latest Evolutions of Polymer AM Technologies Used in General Industry and Tooling
    • 2.2.1. Latest Evolutionary Trends in Polymer AM Hardware Technologies for General Industry and Tooling Applications
    • 2.2.2. Ten-year Forecast for Polymer AM Hardware in General Industry and Tooling
  • 2.3. Metal AM Technologies Used in General Industry and Tooling
    • 2.3.1. Powder Bed Fusion Leads in Metals
    • 2.3.2. Fast Growth of DED for Large Format Applications
    • 2.3.3. Can New Bound Metal Printing Technologies Produce for General Industry and Tooling?
    • 2.3.4. Transitional AM Technologies
    • 2.3.5. Ten-year Forecast for Metal AM Hardware in General Industry and Tooling
  • 2.4. Overview of Materials Used for AM in the General Industry and Tooling Market
    • 2.4.1. Material Development to Enable Additive Manufacturing in General Industry and Tooling
    • 2.4.2. Ten-year Forecast for All Materials in General Industry and Tooling
  • 2.5. Polymer and Composite Materials in General Industry and Tooling
    • 2.5.1. Key Polymer Material Suppliers for General Industry and Tooling
    • 2.5.2. Ten-year Forecast for All Polymer Materials in General Industry and Tooling AM
    • 2.5.3. Trends for Thermoplastic Extrusion Technologies in General Industry and Tooling
    • 2.5.4. Opportunities for Photopolymers in General Industry and Tooling
    • 2.5.5. Advanced Materials for Polymer Powder Bed Fusion
  • 2.6. Metal Materials for General Industry and Tooling
    • 2.6.1. Steel and Steel Alloys
    • 2.6.2. Titanium
    • 2.6.3. Nickel Alloys
    • 2.6.4. Cobalt-Chromium
    • 2.6.5. Other Metals
    • 2.6.6. Ten-year Forecast for All Metal Materials in General Industry and Tooling AM
  • 2.7. Key Points from this Chapter

Chapter Three: Servicing the General Industry and Tooling Sector with AM Parts

  • 3.1. Analysis of Typical AM Parts for General Industry and Tooling
    • 3.1.1. Advanced Prototyping and Modelling
    • 3.1.2. Molds, Cast Patterns, Jigs and Fixtures
    • 3.1.3. Drill Bits, Cutting Tools and Other Machine Tool Components
    • 3.1.4. End of Arm Tooling
    • 3.1.5. Industrial Heat Exchangers and Burners
    • 3.1.6. Connectors, Clamps and Mounts
    • 3.1.7. Ten-year Forecast for Additive Manufacturing Service Revenues in the General Industry and Tooling Sector
  • 3.2. Application Trends in AM Adoption in General Industry and Tooling
    • 3.2.1. 3D Printing Molds and Dies
    • 3.2.2. 3D-printed Spare Parts for Heavy Machinery
    • 3.2.3. Cross-Pollination Across Manufacturing Divisions
    • 3.2.4. The Rise of Integrated Service Bureaus
    • 3.2.5. Unique Cases for 3D-printed Polymer End Parts
    • 3.2.6. The Case for Additive Cutting Tools
  • 3.3. OEM Companies and AM Services Profiles in the General Industry and Tooling Supply Chain
    • 3.3.1. Recent Activity in AM by General Industry and Tooling OEMs
    • 3.3.2. Recent Activity in AM by Key General Industry and Tooling Suppliers and Stakeholders
  • 3.4. Key Points from this Chapter

About SmarTech Analysis

About the Analyst Acronyms and Abbreviations Used In this Report

List of Exhibits

  • Exhibit 1-1: Overall AM Revenues in the General Industry and Tooling Market by Primary Segments 2020 - 2029
  • Exhibit 2-1: AM Technologies Considered for AM Hardware Forecast in this Report
  • Exhibit 2-2: Total AM Hardware Unit Sales by Type, 2020-2029
  • Exhibit 2-3: All AM Hardware Unit Sales
  • Exhibit 2-4: Total AM Revenues in the General Industry and Tooling Market By Segment.
  • Exhibit 2-5: All AM Hardware Revenues in General Industry and Tooling ($USM) 2020 - 2029
  • Exhibit 2-6: Metal AM Processes Used in General Industry and Tooling and System Manufacturers
  • Exhibit 2-7: Polymer AM Hardware Unit Sales 2020-2029
  • Exhibit 2-8: Polymer AM Hardware Revenues ($USM) 2020 - 2029
  • Exhibit 2-9: Metal AM Unit Sales by Technology 2020 - 2029
  • Exhibit 2-10: Metal AM Hardware Revenues ($USM) by Technology 2020 - 2029
  • Exhibit 2-11: Key Identified Metal AM Material Development Initiatives by Print Technology
  • Exhibit 2-12: Comparison of Polymer and Metal Materials Demand in General Industry and Tooling
  • Exhibit 2-13: Comparison of Polymer and Metal Materials Revenues ($US M) in General Industry and Tooling
  • Exhibit 2-14: Demand of Polymer Materials in General Industry and Tooling (Metric Tonnes) by AM Technology, 2020-2029
  • Exhibit 2-15: All Polymer Material Revenues in General Industry and Tooling ($USM) by AM Technology, 2020-2029
  • Exhibit 2-16: Demand of Metal Powders (Metric Tonnes) by Metal Type 2020-2029
  • Exhibit 2-17: Summary of Most Common Types of Steel Additive Manufacturing Powders and Processes
  • Exhibit 2-18: Metal Material Revenues in General Industry and Tooling ($USM) by AM Technology
  • Exhibit 2-19: Metal Powders Revenues ($USM) 2020 - 2029 in General Industry and Tooling
  • Exhibit 2-20: Expected YoY for Metal Powders 2020 - 2028
  • Exhibit 3-1: Service Bureau Revenues for General Industry and Tooling ($USM)
  • Exhibit 3-2: Integrated AM Service Bureaus
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