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實現汽車的輕量化的製造技術

Manufacturing Technologies Empowering Automotive Lightweighting

出版商 Frost & Sullivan 商品編碼 577632
出版日期 內容資訊 英文 62 Pages
商品交期: 最快1-2個工作天內
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實現汽車的輕量化的製造技術 Manufacturing Technologies Empowering Automotive Lightweighting
出版日期: 2017年09月29日內容資訊: 英文 62 Pages
簡介

本報告提供實現汽車輕量化的各種製造技術趨勢調查,提供汽車輕量化推動背景,輕量化的主要材料,實現輕量化的主要製造技術類型和概要,彙整革新趨勢,技術開發及技術引進的推進因素·抑制因素分析,主要策略性主張,技術藍圖,未來展望,成長機會分析等資料。

第1章 摘要整理

第2章 汽車的輕量化:環境分析

  • 輕量化與改善燃料效率的趨勢
  • 汽車輕量化的實現方法

第3章 實現汽車輕量化的主要材料

  • 實現汽車輕量化的主要材料
  • 汽車的主要材料
  • 碳纖維是減少汽車重量的有吸引力的選擇嗎?
  • AHSS:是輕量化有吸引力的選擇嗎?
  • 先進材料及其對溫室氣體排放的貢獻

第4章 實現汽車輕量化的主要製造技術

  • 用於選擇適當製造技術的參數
  • 汽車製造的實行技術
  • 成形技術分類
  • 實現多材料成型的押出成型
  • 彈性捲成型:實現複雜的零件的製造
  • 使用油作為流體劑的液壓成形引發材料變形
  • 形成技術使汽車零部件生產
  • 汽車製造中常用的連接技術
  • 磁脈衝焊接:多材料間的強力焊接
  • 震動焊接:解決超音波焊接的課題
  • 鋁合金焊接技術
  • 不使用熱量的多材料連接技術
  • 連接技術的評估和材料的適當組合

第5章 增材製造 - 汽車輕量化的發展方向

  • 層積造型/3D列印技術的分類
  • 常用的3D列印技術
  • 基於生物工學模式的3D列印
  • 用於汽車原型的複合3D列印
  • AM在汽車輕量化方面的展望

第6章 市場潛在性·引進評估

  • 汽車輕量化的市場機會
  • 革新的生態系統
  • 影響創新趨勢和措施的因素
  • 輕量化技術引進的影響因素
  • 開發·引進的抑制因素
  • 輕量化趨勢的地區分析

第7章 推進發展的策略性主張分析

  • 聯盟·合作
  • R&D組合
  • 主要的資金供給措施·趨勢

第8章 策略性展望

  • 新的成長機會
  • 技術藍圖
  • 總論

第9章 主要專利·契約

目錄
Product Code: D7E3

Additive Manufacturing and High Strength Materials Drive Opportunities for Lightweighting

Lightweighting, one of the key trends witnessed in the automotive industry is expected to introduce transformational changes in the longer run. Lightweighting has garnered increased interest from the entire transportation ecosystem to improve fuel efficiency and reduce carbon emissions. Lightweighting of vehicles is achieved either by introducing design changes or by using advanced multi-materials either in the chassis, powertrain, engine or other interior parts of a vehicle.

Lightweighting can significantly reduce vehicle weight, improve aerodynamics of the car, and enable improvement in the overall performance of vehicle. The technology and innovation report captures noteworthy manufacturing and materials related technological innovations that enable lightweighting of automobile structural elements, chassis, and powertrain. Examples of such technologies include: flexible roll forming, oil fluidic tube hydroforming, 3D printing, self-joining rivets, resistance stir welding and many more.

Key questions answered in the study:

  • What is the significance of automotive lightweighting?
  • What are the key funding trends and focus areas?
  • What are the key emerging materials used for lightweighting?
  • What are the manufacturing innovations driving adoption?
  • How did the end-users leverage the benefit of automotive lightweighting technologies?
  • What are the growth opportunities beyond 2020 for lightweighting in the automotive industry?

Table of Contents

1.0. Executive Summary

  • 1.1. Research Scope
  • 1.2. Research Methodology
  • 1.3. Explanation of Research Methodology
  • 1.4. Summary of Key Findings
  • 1.4. Summary of Key Findings (continued)

2.0. Automotive Lightweighting - Landscape Assessment

  • 2.1. Lightweighting Trend can Improve Fuel Efficiency
  • 2.2. How to Achieve Lightweighting of Vehicles?

3.0. Key Materials Empowering Automotive Lightweighting

  • 3.1. What are the Key Materials Used in a Vehicle to Achieve Lightweighting?
  • 3.2. What are the Key Materials Used in Vehicles?
  • 3.3. Is Carbon Fiber an Attractive Option for Reducing Vehicle's Weight?
  • 3.4. Is AHSS an Attractive Option for Reducing Vehicle's Weight?
  • 3.5. Advanced Materials and their Contribution to GHG Emissions

4.0. Key Manufacturing Technologies Enabling Automotive Lightweighting

  • 4.1. Parameters for Selecting Appropriate Manufacturing Technologies
  • 4.2. Technologies Enabling Automotive Manufacturing
  • 4.3. Categorization of Forming Technologies
  • 4.4. Extrusion Enables Multi-material Forming
  • 4.5. Flexible Roll Forming Enable Production of Complex Parts
  • 4.6. Hydroforming Using Oil as a Fluidic Agent to Initiate Material Deformation
  • 4.7. Forming Technologies Enabling Automotive Part Production
  • 4.8. Joining Technologies Commonly Used in Automotive Manufacturing
  • 4.9. Magnetic Pulse Welding Generates Strong Weld between Multi-materials
  • 4.10. Vibration Welding Addresses Challenges in Ultrasonic Welding
  • 4.11. Welding Technologies for Aluminum Steel Joining
  • 4.12. Multi-Material Joining Technologies Without the Use of Heat
  • 4.13. Assessment of Joining Technologies and Suitable Combination of Materials

5.0. Additive Manufacturing - The Way Forward For Automotive Lightweighting

  • 5.1. Segmentation of Additive Manufacturing/3D Printing Technologies
  • 5.2. Commonly Used 3D Printing Technology
  • 5.3. 3D Printing Based on Bionic Patterns
  • 5.4. Composite 3D Printing for Automotive Prototyping
  • 5.5. Prospects for AM in Automotive Lightweighting

6.0. Market Potential and Adoption Assessment

  • 6.1. Automotive Lightweighting Market Opportunities
  • 6.2. Innovation Ecosystem
  • 6.3. Factors Influencing Innovation Trends and Initiatives
  • 6.4. Factors Influencing Adoption of Lightweighting Technologies
  • 6.5. Factors Hindering Development and Adoption
  • 6.6. Regional Assessment of Lightweighting Trend

7.0. Assessment of Strategic Initiatives Driving Developments

  • 7.1. Partnerships/Alliances
  • 7.2. R&D Portfolio Areas
  • 7.3. Key Funding Initiatives and Trends

8.0. Strategic Perspectives

  • 8.1. Emerging Growth Opportunities
  • 8.2. Technology Roadmap - Forecast till 2025
  • 8.3. Key Conclusions

9.0. Key Patents and Contacts

  • 9.1. Key Patents on Advanced Materials
  • 9.2. Key Patents on Aluminum for Lightweighting
  • 9.3. Key Patents on 3D printing for Automotive Application
  • 9.4. Key Patents by Branson Ultrasonics Corp
  • 9.5. Key Contacts
  • Legal Disclaimer
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