Additive Manufacturing in the Factory of the Future: Opportunities and Markets未来の工場における積層造形:機会と市場 Description Additive Manufacturing (AM) has been considered an essential part of the factory of the future since the concept first appeared. Until now, no publication has discussed preci... もっと見る
SummaryDescription Additive Manufacturing (AM) has been considered an essential part of the factory of the future since the concept first appeared. Until now, no publication has discussed precisely the role that AM will play in the factory of the future. SmarTech Analysis’ new report, “Automation, Additive Manufacturing and the Factory of the Future,” provides the necessary raw data and analysis for marketers, product planners, general management, investors and users to take AM to the automated future. For now, AM represents about one percent of the overall manufacturing and production landscape. Despite the well-publicized advantages of AM, there remain significant obstacles to AM’s adoption: slow processes involving multiple steps, high costs to scaling, shortage of skilled workforce, difficulty in controlling quality across the supply chain, and the immaturity of standards to facilitate regulatory conformity. All these challenges – and their resolution – are discussed in this new SmarTech Analysis report. This report also examines the AM supply chain and its digitalization in a number of critical industries including electronic instruments, medical devices, transportation, industrial machinery and process equipment. In addition, the report takes a look at the critical issue of automation both of local AM processes and distributed AM networks. And while the report acknowledges the problems that arise in the context of bringing AM into the factory of the future, it also shows how AM will lead to lower fixed costs and smaller manufacturing footprints than traditional manufacturing. Two other areas that the report examines are design automation and post processing. Table of ContentsTable of Contents—Factory of future Chapter One: Introduction 1.1 Introduction 1.2 Plan and Methodology
Chapter Two: Automating the AM Workflow 2.1 Automation Trends in the Broad Manufacturing Ecosystem 2.2 Current Limitations of the 3D Printing Workflow are Limiting Growth 2.2.1 Design and File Processing 2.2.2 Part Selection and Management 2.2.3 Build Simulation 2.2.3.1 Process Optimization 2.2.3.2 Support Structures 2.2.4 Build Monitoring 2.2.5 Build Management 2.2.6 Post Processing and Inspection 2.3 Automating the Generation of Part Designs 2.4 Managing Digital Data will Become Increasingly Challenging 2.4.1 Stability of the AM Process and Technologies 2.4.2 Costs for Implementing End-to-End Solutions 2.4.3 Workforce that can Build, Interact, and Leverage the Digital Thread 2.5 Production and Post Processing Need New and Augmented Solutions 2.7 Long-term Implications for Additive Manufacturing
Chapter Three: Acceleration of Factory of the Future 3.1 Overview 3.2 Current Supply Chain Structures 3.2.1 Complex Electronic Instruments and Medical Devices 3.2.2 Transportation Equipment and Industrial Machinery 3.2.3 Process Equipment 3.3 Factors Affecting Supply Chain Structure 3.4 Deployment of AM Across the Supply Chain and Its Digitization 3.5 Digitalization of AM Supply Chain 3.5.1 Advanced Planning and Scheduling Systems 3.5.2 Digital Procurement 3.5.3 Digital Twin – Virtual and Automated Verification and Validation
Chapter Four: Effects of Digitalization on AM Market Growth 4.1 Overview 4.2 Approach and Frameworks 4.2.1 Economic Growth Model 4.2.2 AM Digitalization Adoption Model 4.3 Productivity Improvements of AM Digitalization 4.3.1 Improvements from AM Network Digitalization 4.3.2 Improvements from AM Process Digitalization 4.4 Market Trends
Chapter Five: Automation in the Additive Manufacturing Sector – Company Overviews 5.1 Design and File Processing 5.1.1 Castor 5.1.2 nTopology 5.2 CAD Software Tools 5.2.1 Dassault Systemes (SolidWorks) 5.2.2 Onshape 5.2.3 PTC 5.2.4 Autodesk 5.2.5 Siemens NX 5.2.6 3YourMind 5.2.7 Authentise 5.2.8 Link3D 5.2.9 SAP 5.2.10 Materialise 5.2.11 Oqton 5.3 Build Simulation 5.3.1 ParaMatters 5.3.2 Ansys 5.4 Build Monitoring and Management 5.4.1 Additive Assurance 5.4.2 EOS 5.4.3 Renishaw 5.4.4 3D Systems 5.4.5 Addiguru 5.5 Quality Assurance 5.5.1 Senvol 5.5.2 Be Global Safety 5.5.3 Identify3D 5.5.4 Simba Chain 5.5.5 Granutools 5.6 Robotics and Post Processing 5.6.1 Aris Technology 5.6.2 PostProcess Technologies 5.6.3 DyeMansion 5.6.4 AMT 5.7 Equipment Manufacturers Using Automated Production 5.7.1 AREVO 5.7.2 Divergent 3D 5.7.3 EOS Shared Modules
About SmarTech Analysis About the Analyst Acronyms and Abbreviations Used In this Report
List of Exhibits Exhibit 2-1: Additive Manufacturing Automation Ecosystem Exhibit 2-2: Example Company Call Out – Granutools’ Specific Material Characterization for AM Exhibit 2-3: NIST AM Information Map Exhibit 3-1: Manufacturing Readiness Levels for New Technologies Exhibit 3-2: Major Factors Increasing Complexity in Electronics Industry Segment Exhibit 3-3: Current State of Medical Device Segment Exhibit 3-4: Current State of Transportation Segment Exhibit 3-5 Major Factors Increasing Complexity in Transportation Segment Exhibit 3-6: Current State of the Biopharmaceutical Segment Exhibit 3-7: Major Factors Increasing Complexity in Biopharma Segment Exhibit 3-8: Acquiring Resources for Emergent Manufacturing Technologies Exhibit 3-9: Resources Affecting Structure of Supply Chains Exhibit 3-10: Supply Chain Relationships for Contributed Resources Exhibit 3-11: Expected Performance of Supply Chain Relationships Exhibit 3-12: WACC for Industrials Exhibit 4-1: Potential Adoption Rates for AM Digitalization Technologies Exhibit 4-2: Productivity Improvements from AM Network Digitalization Exhibit 4-3: Breakdown of Cost Reductions from AM Process Digitalization Exhibit 4-4: Productivity Improvements from AM Process Digitalization Exhibit 4-5: AM Digitization Trends for the Number of Industrial Metal Systems Installed Exhibit 4-6: AM Digitization Trends for the Number of Industrial Polymer Systems Installed Exhibit 4-7: AM Digitization Trends for the Revenue of Contract Manufacturers Exhibit 5-1: Company Outline as Determined by Workflow Position
ご注文は、お電話またはWEBから承ります。お見積もりの作成もお気軽にご相談ください。本レポートと同分野(加工食品)の最新刊レポート
Additive Manufacturing Research(旧SmarTech Analysis)社の加工食品分野での最新刊レポート
本レポートと同じKEY WORD(additive)の最新刊レポート
よくあるご質問Additive Manufacturing Research(旧SmarTech Analysis)社はどのような調査会社ですか?※2023年12月に旧社名スマーテックアナリシスよりアディティブマニファクチャリングリサーチへ変更しました。 米国調査会社Aditive Manufacturing Researchの調査レポートは... もっと見る 調査レポートの納品までの日数はどの程度ですか?在庫のあるものは速納となりますが、平均的には 3-4日と見て下さい。
注文の手続きはどのようになっていますか?1)お客様からの御問い合わせをいただきます。
お支払方法の方法はどのようになっていますか?納品と同時にデータリソース社よりお客様へ請求書(必要に応じて納品書も)を発送いたします。
データリソース社はどのような会社ですか?当社は、世界各国の主要調査会社・レポート出版社と提携し、世界各国の市場調査レポートや技術動向レポートなどを日本国内の企業・公官庁及び教育研究機関に提供しております。
|
|