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市場調查報告書

汽車積層製造 (AM) 市場:機會分析與10年預測

ADDITIVE MANUFACTURING OPPORTUNITIES IN AUTOMOTIVE - 2016: AN OPPORTUNITY ANALYSIS AND TEN-YEAR FORECAST

出版商 SmarTech Markets Publishing LLC 商品編碼 317103
出版日期 內容資訊 英文 119 Pages
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汽車積層製造 (AM) 市場:機會分析與10年預測 ADDITIVE MANUFACTURING OPPORTUNITIES IN AUTOMOTIVE - 2016: AN OPPORTUNITY ANALYSIS AND TEN-YEAR FORECAST
出版日期: 2016年09月26日 內容資訊: 英文 119 Pages
簡介

本報告針對汽車產業3D列印、提供汽車生產3D列印的導入藍圖、主要機會、商業影響等系統情報。

第1章 汽車產業積層製造 (AM) 的進化

  • 變化的汽車產業
  • 汽車3D列印導入模式
  • 汽車3D列印市場活動12個月分析
  • 汽車3D列印預測與市場預測摘要

第2章 與汽車產業的連接

  • 填滿原型與生產零件的落差
  • 主要汽車產業的3D列印普及
  • 汽車製造3D列印相關商業策略
  • 產業說明與方法:使用塑膠與複合材料組成汽車
  • 重點

第3章 現有的AM技術與汽車應用

  • 汽車3D列印原型頻譜、價值提案、相關列印技術
  • 3D列印汽車組立工具、鑄造模式
  • 現有汽車應用的3D列印技術、材料分析
  • 影響擴大現有應用3D列印的相關課題
  • 列印汽車原型、工具零件數量預測
  • 重點

第4章 次世代AM技術與汽車應用

  • 汽車金屬AM可容易解決的問題
  • 使用金屬、聚合物生產零件的3D列印汽車應用
  • 汽車複合添加材料列印
  • 重點

第5章 汽車產業AM的10年預測

  • 調查方法
  • 汽車3D列印市場機會、矩陣10年預測
  • 汽車3D列印硬體出貨量、設備數量10年預測
  • 汽車應用消費3D列印材料的10年預測
  • 汽車3D列印服務、軟體10年預測
  • 3D列印製造商的汽車市場佔有率

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目錄
Product Code: SMP-AM-AUTO-0916

As the 3D printing industry at large continues to transition towards a manufacturing technology, one of the top targets for vertically-integrating print solutions developers is the automotive industry. With an enormous global manufacturing footprint, the automotive industry is both one of the most historically well established users of classic 3D printing technology for rapid prototyping, as well as one of the most ripe targets for additive innovation over the next decade. A flurry of potentially disruptive activity has taken place over the last two years, setting the stage for the automotive industry to become one of the biggest markets for 3D printing and additive manufacturing technology over the next decade.

In this report -the second edition of the first deep dive market research study to focus exclusively on 3DP in the auto industry --SmarTech Publishing lays out a roadmap for a divergent adoption path for 3D printing with an eye on automobile production, along the way identifying the major opportunities and resulting commercial implications.

This report is based on both an extensive insider interviewing program conducted by SmarTech Publishing with current and potential users of 3D printing technology in the automotive sector, as well as the application of SmarTech Publishing's latest standardized 3D printing opportunity forecasting methodology. Included in this comprehensive report are the following:

  • Ten-year 3D printing opportunity and market data forecasts in volume and value terms. These cover hardware, materials, software, and services
  • Competitive market shares for leading 3D printing entities in the automotive industry for hardware sales by technology and install bases
  • Identification and discussion of scenario-based outcomes for 3D printing adoption in the automotive industry, highlighted by an analysis of the future of the current market trajectory as well as a potentially disruptive and emerging divergent market trajectory
  • Identification and analysis of major automotive stakeholder implementation strategies for 3D printing technology
  • Discussion and analysis on the latest in 3D printing technology develop to support expanded composites manufacturing for automobile applications
  • Discussion of key automotive industry trends affecting the overall outlook for adoption of 3D printing technology, including macroeconomic factors, light weighting trends, automobile design evolution, and competition from traditional manufacturing technologies

Among the latest identified trends in the additive automotive sector considered in this report are:

  • Growth in demand for suitable composite manufacturing solutions for more mainstream automobiles, and response by the 3D printing community in terms of the latest approaches and potential of 3D printed carbon, glass, and natural fiber composites
  • Integration of road-ready 3D printed components in low volume consumer automobiles, and potential for expansion in these applications
  • Value assessment of metal 3D printed hard tooling for injection and compression molding using advanced geometry to improve traditional automobile manufacturing
  • Effects of increased access to 3D printing technologies in material extrusion and polymer powder bed fusion segments through lower cost printers in both desktop and production oriented hardware categories
  • Convergence of next generation automobile concepts such as driverless technologies, electrification, and the societal shift in perception of mobility with 3D printed automobile production

All in all this is the most extensive exploration of where the opportunities will be found in additive automotive solutions and products in the next decade. It will be regarded as essential reading for everyone in the value chain for 3D-printed automotive products.

Table of Contents

Chapter One: Evolution of Additive Manufacturing in the Automotive Industry (2015 to Present)

  • 1.1. A Changing Automobile Industry - What Does it Means for 3D Printing Adoption?
    • 1.1.1. Oil Prices Put Consumer Tastes at Odds With Fuel Efficiency Requirements
    • 1.1.2. Regional Automobile Market Growth and Challenges
    • 1.1.3. 3D Printing as an Enabler of Mass Reduction in Automobiles
    • 1.1.4. Additive Manufacture of Composites for Automobiles Making Strides
    • 1.1.5. 3D Printing and Next-Generation Vehicles
  • 1.2. The Automotive 3D Printing Adoption Model Revisited
  • 1.3. Trailing Twelve Month Automotive 3D Printing Market Activity Updates
    • 1.3.1. Automotive Stakeholders Continue to Find Innovative Value-Driven Applications for 3DP in the Long-term Quest for Additive Production Automotive Parts
    • 1.3.2. AM Technology Developers Pursue Vertical Integration Strategies, Application-Specific 3D Printing Solutions Targeted at the Auto Industry
  • 1.4. Summary of Automotive 3D Printing Forecasts and Market Outlook

Chapter Two: Interfacing With the Automotive Industry

  • 2.1. Bridging the Gap Between Prototype and Production Parts
  • 2.2. 3D Printing Penetration in Leading Automotive Entities
    • 2.2.1. Automotive OEMs
    • 2.2.2. Top-Tier Automotive Suppliers
  • 2.3. Relevant Business Strategies for 3DP in Automobile Manufacturing
    • 2.3.1. Scenario Analysis: 3D Printing in the Automotive Industry
  • 2.4. Industry Comments and Approaches to Integration of Plastics and Composites into Automobiles
  • 2.5. Key Points from This Chapter

Chapter Three: Established Additive Manufacturing Technologies and Applications for Automobiles

  • 3.1. The Automotive 3D Printed Prototype Spectrum, Value Proposition, and Associated Print Technologies
    • 3.1.1. 3D Printing's Value Proposition in Rapid Prototyping for Automobiles
    • 3.1.2. Parts and Part Groups Targeted for Printed Prototypes
  • 3.2. 3D Printed Automotive Assembly Tooling and Casting Patterns
    • 3.2.1. Printed Assembly Tools and Devices
    • 3.2.2. Printed Casting Patterns for Functional Prototypes
  • 3.3. Analysis of 3D Printing Technologies and Materials for Established Applications in Automotive
    • 3.3.1. Material Extrusion
    • 3.3.2. Photopolymerization and Material Jetting
    • 3.3.3. Polymer Powder Bed Fusion
    • 3.3.4. Metal Powder Bed Fusion
    • 3.3.5. Binder Jetting
  • 3.4. Challenges Associated with Expanding the Impact of 3D Printing in Established Applications
  • 3.5. Part Volume Forecasts for Printed Automobile Prototypes and Tools
  • 3.6. Key Points from This Chapter

Chapter Four: Next-Generation Additive Manufacturing Technologies and Applications for Automobiles

  • 4.1. Low Hanging Fruit for Metal AM in Automotive: Printed Tooling
    • 4.1.1. Using Directed Energy Deposition Technology for Repair of Existing Tooling
  • 4.2. Exploration of 3D Printing Automotive Applications in Production Parts Using Metal and Polymer
    • 4.2.1. Production Automobile Parts Produced via 3D Printing
    • 4.2.3. Next Generation Print Technologies to Support Next- Generation Automobile Applications
    • 4.2.4. Combating Outdated Perceptions of 3D Printing Technology to Expand Adoption of 3D Printed Production Automobile Parts
  • 4.3. Additive Composites Printing for Automobiles
    • 4.3.1. Notable Market Examples of Automobile Composite Integration Since 2015
    • 4.3.2. Analysis of Emerging Composite 3D Printing Processes for Automotive Applications
  • 4.4. Key Points from this Chapter

Chapter Five: Ten-Year Forecasts of Additive Manufacturing in the Automotive Industry

  • 5.1. Discussion of Methodology
    • 5.1.1. Important Methodology Changes versus Previous Studies
  • 5.2. Ten-Year Forecasts of Key Automotive 3D Printing Market Opportunities and Metrics
  • 5.3. Ten-Year Forecasts of Automotive 3D Printing Hardware Shipments and Installations
  • 5.4. Ten-Year Forecasts of 3D Printing Materials Consumed by Automotive Printing Applications
    • 5.4.1. Thermoplastic Filaments
    • 5.4.2. Thermoplastic Powders
    • 5.4.3. UV Curable Photopolymers
    • 5.4.4. Metal Powders
  • 5.5. Ten-Year Forecasts of Automotive 3D Printing Services and Software
    • 5.5.1. 3D Printing Software
  • 5.6. 3D Printer Manufacturers Automotive Market Shares

About SmarTech Publishing

About the Analyst

Acronyms and Abbreviations Used In this Report

List of Exhibits

  • Exhibit 1-1: Exploring 3D Printing in Automobile Technology Development Areas for Increasing Fuel Economy
  • Exhibit 1-2: Three Pillars of Additive Automobile Design Evolution
  • Exhibit 1-3: Potential Polymer and Thermoplastic Composite Applications for 3D Printing in Automobiles to Reduce Weight
  • Exhibit 1-4: Summary of Potentially Disruptive AM Composite Manufacturing Technologies for the Automotive Industry
  • Exhibit 1-5: Updated SmarTech Automotive 3D Printing Industry Adoption Model
  • Exhibit 1-6: Q2 2016 Auto Industry Adoption Representation by Segment
  • Exhibit 1-7: Total Projected Automotive 3D Printing Opportunities, by Category, 2014-2026
  • Exhibit 2-1: Hierarchy of 3D Printed Automotive Prototype Parts
  • Exhibit 2-2: Summary of Auto Industry Stakeholders and 3D Printing Penetration Analysis
  • Exhibit 2-3: Identified Integration Approaches for 3D Printing Technology in Automobile Manufacturing
  • Exhibit 2-4: Potential Future Adoption Scenarios and Drivers for Automotive 3D Printing
  • Exhibit 3-1: Summary of 3D Printed Prototype Applications and Parts for Automobiles
  • Exhibit 3-2: Tooling Applications for Different 3D Printing Processes
  • Exhibit 3-3: Technology Snapshot - Material Extrusion, Established Automotive Applications
  • Exhibit 3-4: Technology Snapshot - Photopolymerization/Material Jetting, Established Automotive Applications
  • Exhibit 3-5: Technology Snapshot - Polymer Powder Bed Fusion, Established Automotive Applications
  • Exhibit 3-6: Technology Snapshot - Metal Powder Bed Fusion, Established Automotive Applications
  • Exhibit 3-7: Technology Snapshot - Binder Jetting, Established Automotive Applications
  • Exhibit 3-8: Total Projected Annual Volume of 3D Printed Prototypes, by Material Category, 2014-2026
  • Exhibit 3-9: Total Projected Annual Volume of 3D Printed Polymer Tools, 2014-2026
  • Exhibit 4-1: Total Projected Annual Volume of Metal 3D Printed Tools (Automotive), 2014-2026
  • Exhibit 4-2: Total Projected 3D Printed Automotive Production Parts, by Material Category, 2014-2026
  • Exhibit 4-3: Summary of 3D Printed Production Automobile Parts to Date
  • Exhibit 4-4: Theory of Technology Acceptance
  • Exhibit 4-5: Summary of Opportunities for Composite Reinforcement Materials in the Automotive Industry
  • Exhibit 5-1: Total Projected Automotive 3D Printing Opportunities, by Category, 2014-2026
  • Exhibit 5-2: Total Projected Metal Automotive 3D Printing Opportunities, by Category, 2014-2026
  • Exhibit 5-3: Total Projected Polymer and Composite Automotive 3D Printing Opportunities, by Category, 2014-2026
  • Exhibit 5-4: Total Projected Automotive 3D Printing Opportunities, by Region, 2014-2026
  • Exhibit 5-5: Total Projected Automotive 3D Printer Opportunities, by Technology, 2014-2026
  • Exhibit 5-6: Total Projected Automotive 3D Printer Shipments, by Technology, 2014-2026
  • Exhibit 5-7: Total Projected Professional and Production Automotive 3D Printer Shipments, by Technology, 2014-2026
  • Exhibit 5-8: Total Projected Professional and Production Automotive 3D Printer Install Base, by Technology, 2014-2026
  • Exhibit 5-9: Total Projected Automotive 3D Printer Revenue, by Region, 2014-2026 (All Print Technologies)
  • Exhibit 5-10: Total Projected Automotive 3D Printing Material Opportunities, by Category, 2014-2026
  • Exhibit 5-11: Total Projected Automotive 3D Printing Material Shipments, by Category, 2014-2026
  • Exhibit 5-12: Total Projected Automotive 3D Printing Material Opportunities, by Region, 2014-2026
  • Exhibit 5-13: Total Projected Automotive Thermoplastic Filament Opportunities, by Material Type, 2014-2026
  • Exhibit 5-14: Total Projected Automotive Thermoplastic Powder Opportunities, by Material Type, 2014-2026
  • Exhibit 5-15: Total Projected Automotive Photopolymer Opportunities, by Material Type, 2014-2026
  • Exhibit 5-16: Total Projected Automotive Metal Powder Opportunities, by Material Type, 2014-2026
  • Exhibit 5-17: Total Projected Automotive 3D Printing Services Opportunities, by Segment, 2014-2026
  • Exhibit 5-18: Total Projected Automotive 3D Printing Services Opportunities, by Region, 2014-2026
  • Exhibit 5-19: Total Projected Automotive 3D Printing Software Opportunities, by Software Tool Category, 2014-2026
  • Exhibit 5-20: Total Projected Automotive 3D Printing Sites, 2014-2026
  • Exhibit 5-21: Printer Manufacturer Automotive Market Shares, by Hardware $ (Pro/Production Systems Only), 2015
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