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市場調查報告書

製造業中金屬注射成型(MIM)技術的增長機會

Growth Opportunities of Metal Injection Molding Technology in Manufacturing

出版商 Frost & Sullivan 商品編碼 985478
出版日期 內容資訊 英文 52 Pages
商品交期: 最快1-2個工作天內
價格
製造業中金屬注射成型(MIM)技術的增長機會 Growth Opportunities of Metal Injection Molding Technology in Manufacturing
出版日期: 2020年12月23日內容資訊: 英文 52 Pages
簡介

高強度,良好的磁導率和良好的導熱性等優點有助於在製造中採用金屬注射成型(MIM)。 MIM在製造大量複雜零件方面具有成本效益,並且該技術允許各行各業以最少的金屬浪費製造零件。

MIM可以減少裝配中的零件數量和零部件中的黏結點數量,從而減少裝配過程(機械,設備)和相關人員。節省大量成本越來越大的壓力和複雜的設計正在推動MIM技術的採用。

本報告調查了製造業中的金屬注射成型(MIM)技術,並提供了諸如技術概述和比較,應用和行業狀況,增長機會,重大創新以及主要公司概況等信息。

目錄

第1章戰略說明

第2章技術概述

  • 金屬注射成型技術概述
  • 改善物理性能並減少浪費,這是金屬注射成型的主要優點
  • 使用MIM可以縮短生產週期
  • MIM的主要製造挑戰是部件變形和脫碳

第3章MIM技術的比較和基準測試

  • 製造高密度和改進的特性,這是MIM技術的最大優勢
  • 與傳統製造技術相比,MIM具有多個優勢
  • MIM與其他常規技術之間的技術比較

第4章使用情況

  • MIM使製造商能夠設計性能更高的新組件
  • 槍支和醫療保健行業主導著MIM製造
  • 中國和日本是最佳的MIM技術採用和服務提供商
  • 用於武器製造的MIM技術槍支,軍事和國防工業的採用
  • 充電器連接器,電子行業中製造最多的組件
  • 汽車工業使用MIM製造高強度零部件
  • 使用MIM技術製造植入物和正畸組件的醫療保健行業
  • 促進使用超合金零件在MIM的航空航天工業中採用技術

第5章主要公司

  • Indo-MIM(印度)
  • 具有出色的抗磁性和耐腐蝕性的材料
  • MPP(美國)
  • 粉末冶金鋁合金
  • 研發活動以提高MIM技術的製造效率
  • 開發具有先進特性的金屬粉末,這對於增加MIM技術的採用至關重要
  • MIM服務提供商在MIM價值鏈中扮演重要角色

第6章顯著創新

  • 開發最重要的環保材料並降低材料價格
  • 減少排放量,這對於技術進步很重要

第7章增長機會

  • 用於技術創新的研發投入(2020年)

第8章主要聯繫人

  • 主要聯繫人

第9章後續步驟

目錄
Product Code: D9D7

High Strength, Excellent Magnetic Permeability, and Good Thermal Conductivity encourage adoption of MIM in Manufacturing

MIM is very cost-effective for manufacturing high volume complex parts. The technology allows varied industries to produce components with very minimal metal (material) wastage. MIM reduces assembly part count and the number of bond joints in a component. This reduces the requirement of an assembly process (machinery, equipment) and associated manpower. Due to the technology's ability to produce high volumes of precision components to net-shape, metal injection molding (MIM) has become a very important manufacturing technology.

The combination of higher volume cost reduction pressure and increasing design complexity is pushing industries to adopt MIM technology.MIM of titanium components is currently limited to high-performance applications or luxury consumer products where titanium adds exclusivity and marketability. Advancements in using superalloys and materials for MIM has been the main area of R&D. Supplier evaluation is very critical in the automotive industry. Automakers follow extremely sophisticated supplier sourcing strategies.

Table of Contents

Chapter 1 : Strategic Imperatives

  • 1.1. The Strategic Imperative 8™
  • 1.2. The Strategic Imperative 8™
  • 1.3. The Impact of the Top Three Strategic Imperatives on the Opportunities of Metal Injection Molding in Manufacturing
  • 1.4. About The Growth Pipeline Engine™
  • 1.5. Growth Opportunities Fuel the Growth Pipeline Engine™
  • 1.6. Research Process and Methodology
  • 1.6. Research Process and Methodology (continued)

Chapter 2: Technology Overview

  • 2.1. Metal Injection molding - Technology Overview
  • 2.2. Improved Physical Properties and Reduced Waste are the Key Advantageous of Metal Injection Molding
  • 2.3. MIM has Faster Production Cycle Time When Compared to Other Conventional Manufacturing Processes
  • 2.4. Component Deformity and Decarburization are the Main Manufacturing Challenges for MIM

Chapter 3: MIM Technology Comparison & Benchmarking

  • 3.1. Manufacturing Highly Dense Components with Improved Properties is the Main Advantage of MIM Technology
  • 3.2. Metal Injection Molding has Several Advantages When Compared to Conventional Manufacturing Techniques
  • 3.3. Technology Comparison of MIM with Other Conventional Technologies

Chapter 4: Application Landscape

  • 4.1. MIM Allows the Manufacturing Industry to Design New Components with Improved Performance Efficiency
  • 4.2. The Firearms Industry and Healthcare Industry Dominate the MIM Production Industry
  • 4.3. China and Japan are the Highest MIM Technology Adopters and Service Providers
  • 4.4. The Firearm, Military & Defense Industries are the Main Adopters of MIM Technology for Manufacturing Weapons
  • 4.5. Charger Connectors are the Most Manufactured Components in the Electronics Industry
  • 4.6. The Automotive Industry Has Been Adopting MIM for Manufacturing High Strength Components
  • 4.7. The Healthcare Industry uses MIM Technology for Manufacturing Implants and Orthodontic Components
  • 4.8. MIM Using Super Alloy Components will Drive Adoption of the Technology in the Aerospace Industry

Chapter 5: Companies to Action

  • 5.1. Indo-MIM, India
  • 5.2. Highly Magnetic and Corrosion Resistant Material
  • 5.3. MPP, US
  • 5.4. Powdered Metallurgy Aluminum Alloy
  • 5.5. R&D Activities for Improving Manufacturing Efficiency of MIM Technology
  • 5.6. Development of Metal Powders with Advanced Characteristics is Crucial for Increasing MIM Technology Adoption
  • 5.7. MIM Services Providers Play a Crucial Role in the MIM Value Chain

Chapter 6: Notable Innovations

  • 6.1. Development of Eco-friendly Materials and Reducing the Pricing of Materials Are of at Most Importance
  • 6.2. Reducing Emissions Is Important for Technology Advancement

Chapter 7: Growth Opportunities

  • 7.1. Growth Opportunity 1: R&D Investment for Technological Innovation, 2020 - MIM
  • 7.1. Growth Opportunity 1: R&D Investment for Technological Innovation, 2020 - MIM (Continued)
  • 7.2. Growth Opportunity 2: R&D Investment for Technological Innovation, 2020 - MIM
  • 7.2. Growth Opportunity 2: R&D Investment for Technological Innovation, 2020 - MIM (Continued)

Chapter 8: Key Contacts

  • 8.1. Key Contacts

Chapter 9: Next steps

  • 9.1. Your Next Steps
  • 9.2. Why Frost, Why Now?
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