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射出成型:全球市場和各種技術
市場調查報告書
商品編碼
1235071

射出成型:全球市場和各種技術

Injection Molding: Global Markets and Technologies
出版日期: | 出版商: BCC Research | 英文 273 Pages | 訂單完成後即時交付

價格

全球塑膠射出成型的市場規模,從2022年的1,877億美元,預計2027年達到2,409億美元,從2022年到2027年的預測期間中以5.1%的年複合成長率成長。

亞洲地區,從2022年的821億美元,預計2027年達到1,092億美元,同期間中以5.9%的年複合成長率成長。還有北美地區,從2022年的412億美元,預計2027年達到528億美元,同期間中以5.1%的年複合成長率成長。

本報告提供全球塑膠射出成型的市場調查,市場及技術概要,相關法律,市場成長的各種影響因素分析,市場規模的變化、預測,各種區分、各地區的詳細分析,競爭環境,主要企業簡介等彙整資訊。

目錄

第1章 簡介

第2章 摘要、亮點

第3章 市場與技術的背景

  • 塑膠射出成型的歷史
  • 塑膠射出成型定義
  • 塑膠成型技術
  • 射出成型流程的影響因素
  • 熱塑性聚合物
  • 塑膠射出成型流程
  • 塑膠射出工程外包優點

第4章 市場動態

  • 市場動態
    • 主要原因
    • 主要課題
    • 主要的機會
    • 原型製作
  • 俄羅斯、烏克蘭戰爭的影響
  • COVID-19影響
  • 供應鏈分析
  • 價格分析

第5章 塑膠射出成型機及系統

  • 射出成型機
    • 油壓射出成型機
    • 電動射出成型機
    • 混合射出成型機
  • 射出成型機的類型:各配置
    • 橫型射出成型機
    • 縱型射出成型機
    • 混合射出成型機
    • 兩色射出成型機
    • 多材料射出成型機
    • 旋轉式射出成型機
    • 低發泡射出成型機
    • 三明治射出成型機
    • 氣體輔助射出成型機
    • 水注入技術/水輔助射出成型機
    • 微射出成型機

第6章 市場明細:各熱塑性聚合物

  • 聚丙烯塑膠
  • ABS
  • 聚苯乙烯
  • HDPE
  • 聚碳酸酯
  • 聚醯胺(尼龍)
  • 聚氨酯
  • 其他的塑膠

第7章 市場明細:各終端用戶

  • 包裝、產品外殼
    • 電動工具外殼
    • 瓶蓋、封口裝置
    • 塑膠瓶、板條箱
    • 可重複使用容器
  • 醫療設備、醫藥品
  • 汽車
  • 電器及電子
    • 通訊
    • 電力開關
    • 白色家電的外殼&包裝
  • 產業用及事務用機器
  • 農業
  • 基礎設施
  • 其他

第8章 市場明細:各地區

  • 亞太地區
  • 北美
  • 歐洲
  • 其他地區

第9章 競爭情形

  • 競爭模式分析
  • 最新的策略性革新
  • 塑膠射出成型的新趨勢

第10章 企業簡介

  • 主要的塑膠射出成型機的製造商
  • ABSOLUTE HAITIAN CORP.
  • BAY PLASTICS MACHINERY CORP.
  • DAVIS-STANDARD LLC
  • DRI-AIR INDUSTRIES INC.
  • ENGEL AUSTRIA GMBH
  • GAMMAFLUX CONTROLS INC.
  • GRAHAM ENGINEERING CORP.
  • HUSKY INJECTION MOLDING SYSTEMS LTD.
  • INDUSTRIAL HEATER CORP.
  • KAUTEX MACHINES INC.
  • MAGUIRE PRODUCTS INC.
  • MARUKA USA INC.
  • MASTER MOLDED PRODUCTS CORP.
  • MILACRON LLC
  • NEGRI BOSSI NORTH AMERICA
  • NISSEI PLASTIC INDUSTRIAL CO. LTD.
  • NORDSON POLYMER PROCESSING SYSTEMS
  • NOVATEC INC.
  • PARKINSON TECHNOLOGIES INC.
  • SUMITOMO(SHI)DEMAG
  • UBE MACHINERY CORP. LTD.
  • UNIVERSAL DYNAMICS INC.
  • WITTMANN BATTENFELD INC.
  • YUDO CO. LTD.
  • YUSHIN AMERICA INC.
  • 主要的塑膠射出成型聚合物及終端用戶商品的製造商
  • ADVANTECH PLASTICS LLC
  • APTARGROUP INC.
  • BASF SE
  • BECTON DICKINSON AND CO.
  • BERRY GLOBAL GROUP INC.
  • C&J INDUSTRIES
  • DENROY PLASTICS LTD.
  • DOW CHEMICAL CO. LTD.
  • DSM
  • DUPONT
  • EASTMAN CHEMICAL CO.
  • EXXONMOBIL CORP.
  • HTI PLASTICS INC.
  • HUNTSMAN CORP.
  • ICOMOLD
  • INEOS GROUP LTD.
  • JABIL CIRCUIT INC.
  • LACKS ENTERPRISES INC.
  • LYONDELLBASELL INDUSTRIES N.V.
  • MAGNA INTERNATIONAL INC.
  • MIDSTATE MOLD & ENGINEERING
  • MSI MOLD BUILDERS
  • NEW BERLIN PLASTICS INC.
  • NEWELL RUBBERMAID
  • RUTLAND PLASTICS LTD.
  • RODON GROUP
  • SABIC
  • STACK PLASTICS INC.
  • TORAY INDUSTRIES INC.
  • ZEIGER INDUSTRIES

第11章 附錄A:縮寫和簡稱

第12章 附錄B:相關組織

第13章 附錄C:參考文件

Product Code: PLS089C

Highlights:

The global plastic injection molding market reached $187.7 billion in 2022 and should reach $240.9 billion by 2027, with a compound annual growth rate (CAGR) of 5.1% during the forecast period of 2022-2027.

Asia-Pacific plastic injection molding market reached $82.1 billion in 2022 and should reach $109.2 billion by 2027, with a CAGR of 5.9% during the forecast period of 2022-2027.

North American plastic injection molding market reached $41.2 billion in 2022 and should reach $52.8 billion by 2027, with a CAGR of 5.1% during the forecast period of 2022-2027.

Report Scope:

This study entails analysis of technologies, applications and thermoplastic materials for injection molding. BCC Research analyzed the major types of thermoplastic resins used to produce molded products. These products cater to various end-use industries. Machines and equipment are discussed. Trends in demand are reviewed and impact on overall market growth is assessed.

Market drivers in each end-use industry are identified. Thermoplastic resin injection molding is analyzed in detail. Technological issues and trends are reviewed and other influential factors (economic conditions, COVID-19 impact, and standards) are discussed. Because this is a global study, BCC Research analyzes domestic and international technological issues and economic considerations.

The scope of the study includes:

  • The study comprises only thermoplastic resins for injection molding applications.
  • We have included only virgin thermoplastics and excluded recycled grades.
  • The base year is 2021 and forecast period is 2022 to 2027.
  • Revenue forecasts from 2021-2027 are given for each major type of thermoplastic grade, end user, and regional market.
  • In the newly added country analysis section, we have only provided an end-user analysis.

Report Includes:

  • 38 data tables and 40 additional tables
  • An overview of the global market and technologies for injection molding
  • Analyses of global market trends with data from 2021, 2022, estimates for 2026, and projections of compound annual growth rates (CAGRs) through 2027
  • Estimation of the market size and highlights of the market potential by type, end use, and application
  • Assessment of the current market size and forecast of market development in the coming five years, and insight into the value chain analysis, and factors driving and restraining the growth
  • Coverage of history, definition, techniques, and processes of plastics injection molding and comparison between injection molding versus other plastics molding processes
  • Information on recent mergers, acquisitions, collaborations, agreements, and partnerships, in the global injection molding market
  • Company profiles of major players within the industry, including Dow, ExxonMobil Corp., Ineos Group, Magna International Inc., and Sabic

Table of Contents

Chapter 1 Introduction

  • 1.1 Study Goals and Objectives
  • 1.2 Reasons for Doing this Study
  • 1.3 What's New in this Update?
  • 1.4 Scope of Report
  • 1.5 Information Sources
  • 1.6 Methodology
  • 1.7 Geographic Breakdown
  • 1.8 Analyst's Credentials
  • 1.9 BCC Custom Research
  • 1.10 Related BCC Research Reports

Chapter 2 Summary and Highlights

Chapter 3 Market and Technology Background

  • 3.1 History of Plastic Injection Molding
    • 3.1.1 Beginning Phase
    • 3.1.2 Industry: Post-WWII
    • 3.1.3 Hendry and Plastic Injection Molding
    • 3.1.4 Current Scenario
  • 3.2 Definition of Plastic Injection Molding
  • 3.3 Plastic Molding Techniques
    • 3.3.1 Blow Molding
    • 3.3.2 Compression Molding
    • 3.3.3 Film Insert Molding
    • 3.3.4 Gas Assist Molding
    • 3.3.5 Reactive Injection Molding (RIM)
    • 3.3.6 Two-Shot Injection Molding
    • 3.3.7 Micro Injection Molding
    • 3.3.8 Rotational Molding
    • 3.3.9 Structural Foam Molding
    • 3.3.10 Thermoforming
    • 3.3.11 Injection Molding vs. Other Plastic Molding Processes
  • 3.4 Factors Affecting the Injection Molding Process
  • 3.5 Thermoplastic Polymers
    • 3.5.1 Key Factors in Selecting an Ideal Injection Molding Material
    • 3.5.2 Polyethylene (PE)
    • 3.5.3 Polypropylene (PP)
    • 3.5.4 Polyvinyl Chloride (PVC)
    • 3.5.5 Nylons
    • 3.5.6 Acrylonitrile Butadiene Styrene (ABS)
    • 3.5.7 Polystyrene (PS)
    • 3.5.8 Other Injection Molding Thermoplastic Polymers Used
  • 3.6 Plastic Injection Molding Process
    • 3.6.1 Injection Molding Cycle
    • 3.6.2 Mold
    • 3.6.3 Runner System
    • 3.6.4 Preparing the Mold
    • 3.6.5 Process Variations
    • 3.6.6 Injection Molding Considerations
    • 3.6.7 Wall Section Considerations
    • 3.6.8 Micro-Molding
    • 3.6.9 Two-Shot Micro-Molding
    • 3.6.10 Plastic Injection Molding Process Trends
  • 3.7 Benefits of Outsourcing the Plastic Injection Process
    • 3.7.1 Cost-effective
    • 3.7.2 Economies of Scale
    • 3.7.3 Streamlined Inventory
    • 3.7.4 Improved Quality

Chapter 4 Market Dynamics

  • 4.1 Market Dynamics
    • 4.1.1 Key Drivers
    • 4.1.2 Key Challenges
    • 4.1.3 Key Opportunities
    • 4.1.4 Prototyping
  • 4.2 Impact of Russia-Ukraine War
    • 4.2.1 Impact on Plastic Trade
  • 4.3 Impact of COVID-19 on the Market for Plastic Injection Molding
    • 4.3.1 Rise in Demand
    • 4.3.2 Biomedical Plastic Waste Generation
    • 4.3.3 Technology
  • 4.4 Supply Chain Analysis
  • 4.5 Pricing Analysis

Chapter 5 Plastic Injection Molding Machinery and Systems

  • 5.1 Injection Molding Machinery
    • 5.1.1 Hydraulic Injection Molding Machines
    • 5.1.2 Electric Injection Molding Machines
    • 5.1.3 Hybrid Injection Molding Machines
  • 5.2 Type of Injection Machine, by Arrangement
    • 5.2.1 Horizontal Injection Molding Machines
    • 5.2.2 Vertical Injection Molding Machines
    • 5.2.3 Hybrid Injection Molding Machines
    • 5.2.4 Two-Color Injection Molding Machines
    • 5.2.5 Multi-Material Injection Molding Machines
    • 5.2.6 Rotary Injection Molding Machines
    • 5.2.7 Low-Foam Injection Molding Machines
    • 5.2.8 Sandwich Injection Machines
    • 5.2.9 Gas-Assist Injection Molding Machines
    • 5.2.10 Water Injection Technology/Water-Assisted Injection Molding Machines
    • 5.2.11 Micro-Injection Molding Machines

Chapter 6 Market Breakdown by Thermoplastic Polymer Type

  • 6.1 Polypropylene Plastics
  • 6.2 ABS
  • 6.3 Polystyrene
  • 6.4 HDPE
  • 6.5 Polycarbonate
  • 6.6 Polyamide (Nylon)
  • 6.7 Polyurethane
  • 6.8 Other Plastics

Chapter 7 Market Breakdown by End Use

  • 7.1 Packaging and Product Housing
    • 7.1.1 Power Tool Housing
    • 7.1.2 Bottle Lids/Closures
    • 7.1.3 Plastic Bins and Crates
    • 7.1.4 Reusable Containers
  • 7.2 Medical Devices and Pharmaceuticals
  • 7.3 Automotive
  • 7.4 Electrical and Electronics
    • 7.4.1 Telecommunication
    • 7.4.2 Electrical Switches
    • 7.4.3 White Goods Housing and Packaging
  • 7.5 Industrial and Business Machines
  • 7.6 Agriculture
  • 7.7 Infrastructure
  • 7.8 Other End Uses

Chapter 8 Market Breakdown by Region

  • 8.1 Asia-Pacific
    • 8.1.1 China
    • 8.1.2 India
    • 8.1.3 Rest of Asia-Pacific
  • 8.2 North America
    • 8.2.1 U.S.
    • 8.2.2 Canada
  • 8.3 Europe
    • 8.3.1 Germany
    • 8.3.2 Italy
    • 8.3.3 Rest of Europe
  • 8.4 Rest of the World (ROW)

Chapter 9 Competitive Landscape

  • 9.1 Competitive Scenario Analysis
  • 9.2 Latest Strategic Innovations
  • 9.3 Emerging Trends in Plastic Injection Molding
    • 9.3.1 End-Use Innovations

Chapter 10 Company Profiles

  • 10.1 Leading Plastic Injection Molding Machine Manufacturers
  • ABSOLUTE HAITIAN CORP.
  • BAY PLASTICS MACHINERY CORP.
  • DAVIS-STANDARD LLC
  • DRI-AIR INDUSTRIES INC.
  • ENGEL AUSTRIA GMBH
  • GAMMAFLUX CONTROLS INC.
  • GRAHAM ENGINEERING CORP.
  • HUSKY INJECTION MOLDING SYSTEMS LTD.
  • INDUSTRIAL HEATER CORP.
  • KAUTEX MACHINES INC.
  • MAGUIRE PRODUCTS INC.
  • MARUKA USA INC.
  • MASTER MOLDED PRODUCTS CORP.
  • MILACRON LLC
  • NEGRI BOSSI NORTH AMERICA
  • NISSEI PLASTIC INDUSTRIAL CO. LTD.
  • NORDSON POLYMER PROCESSING SYSTEMS
  • NOVATEC INC.
  • PARKINSON TECHNOLOGIES INC.
  • SUMITOMO (SHI) DEMAG
  • UBE MACHINERY CORP. LTD.
  • UNIVERSAL DYNAMICS INC.
  • WITTMANN BATTENFELD INC.
  • YUDO CO. LTD.
  • YUSHIN AMERICA INC.
  • 10.2 Leading Plastic Injection Molding Polymer and End-User Goods Manufacturers
  • ADVANTECH PLASTICS LLC
  • APTARGROUP INC.
  • BASF SE
  • BECTON DICKINSON AND CO.
  • BERRY GLOBAL GROUP INC.
  • C&J INDUSTRIES
  • DENROY PLASTICS LTD.
  • DOW CHEMICAL CO. LTD.
  • DSM
  • DUPONT
  • EASTMAN CHEMICAL CO.
  • EXXONMOBIL CORP.
  • HTI PLASTICS INC.
  • HUNTSMAN CORP.
  • ICOMOLD
  • INEOS GROUP LTD.
  • JABIL CIRCUIT INC.
  • LACKS ENTERPRISES INC.
  • LYONDELLBASELL INDUSTRIES N.V.
  • MAGNA INTERNATIONAL INC.
  • MIDSTATE MOLD & ENGINEERING
  • MSI MOLD BUILDERS
  • NEW BERLIN PLASTICS INC.
  • NEWELL RUBBERMAID
  • RUTLAND PLASTICS LTD.
  • RODON GROUP
  • SABIC
  • STACK PLASTICS INC.
  • TORAY INDUSTRIES INC.
  • ZEIGER INDUSTRIES

Chapter 11 Appendix A: Acronyms and Abbreviations

Chapter 12 Appendix B: Associated Organizations

Chapter 13 Appendix C: Bibliography

List of Tables

  • Summary Table : Global Market for Plastic Injection Molding, by Region, Through 2027
  • Table 1 : Injection Molding vs. Other Plastic Molding Processes
  • Table 2 : Classification of Plastic Products, by Type of Process
  • Table 3 : Advantages of Thermoplastic vs. Thermoset Processes
  • Table 4 : Properties of Low-Density Polyethylene
  • Table 5 : Properties of High-Density Polyethylene
  • Table 6 : Properties of Polypropylene
  • Table 7 : Overview of Polypropylene
  • Table 8 : Properties of Polyvinyl Chloride
  • Table 9 : Overview of Polyvinyl Chloride
  • Table 10 : Properties of Nylon
  • Table 11 : Overview of Nylon
  • Table 12 : Properties of Acrylonitrile Butadiene Styrene
  • Table 13 : Overview of ABS
  • Table 14 : Properties of Polystyrene
  • Table 15 : Overview of Polystyrene
  • Table 16 : Process Variables to Consider
  • Table 17 : Overview of Common Injection Molding Defects
  • Table 18 : Troubleshooting Injection Molding Processes
  • Table 19 : Advantages of Thermoplastic Over Metal
  • Table 20 : Key Properties of Thermoplastic Composites
  • Table 21 : Plastic Fabrication Processes
  • Table 22 : Biodegradable and Bio-based Plastics
  • Table 23 : U.S. Plastic Trade with Russia
  • Table 24 : U.S. Plastic Trade with Ukraine
  • Table 25 : Average Polymer Prices in Central Europe, December 2022
  • Table 26 : Advantages and Disadvantages of Different Types of Injection Molding Machines
  • Table 27 : Benefits of Internal Vs. External Gas Injection Molding
  • Table 28 : Cold Runner Injection Molding Considerations
  • Table 29 : Hot Runner Injection Molding Considerations
  • Table 30 : Global Market for Plastic Injection Molding, by Type of Thermoplastic Polymer, Through 2027
  • Table 31 : Global Market for Polypropylene Plastic Injection Molding, by Region, Through 2027
  • Table 32 : Global Market for ABS Plastic Injection Molding, by Region, Through 2027
  • Table 33 : Global Market for Polystyrene Plastic Injection Molding, by Region, Through 2027
  • Table 34 : Global Market for HDPE Plastic Injection Molding, by Region, Through 2027
  • Table 35 : Properties of Polycarbonate
  • Table 36 : Advantages of Polycarbonate
  • Table 37 : Polycarbonate Applications
  • Table 38 : Global Market for Polycarbonate Plastic Injection Molding, by Region, Through 2027
  • Table 39 : Global Market for Polyamide Plastic Injection Molding, by Region, Through 2027
  • Table 40 : Properties of Nylon
  • Table 41 : Benefits of Nylon
  • Table 42 : Benefits of Polyurethane
  • Table 43 : Global Market for Polyurethane Plastic Injection Molding, by Region, Through 2027
  • Table 44 : Limitations of Polyurethane
  • Table 45 : PU vs. Conventional Materials
  • Table 46 : Global Market for Others Plastic Injection Molding, by Region, Through 2027
  • Table 47 : Global Market for Plastic Injection Molding, by End Use, Through 2027
  • Table 48 : Global Market for Plastic Injection Molding in Packaging and Product Housing, by Region, Through 2027
  • Table 49 : Global Market for Plastic Injection Molding in Medical Devices and Pharmaceuticals, by Region, Through 2027
  • Table 50 : Global Market for Plastic Injection Molding in Automotive, by Region, Through 2027
  • Table 51 : Global Market for Plastic Injection Molding in Electrical and Electronics, by Region, Through 2027
  • Table 52 : Global Market for Plastic Injection Molding in Industrial and Business Machines, by Region, Through 2027
  • Table 53 : Global Market for Plastic Injection Molding in Agriculture, by Region, Through 2027
  • Table 54 : Global Market for Plastic Injection Molding in Infrastructure, by Region, Through 2027
  • Table 55 : Benefits of Injection Molding in Infrastructure Applications
  • Table 56 : Global Market for Plastic Injection Molding in Other End Uses, by Region, Through 2027
  • Table 57 : Asia-Pacific Market for Plastic Injection Molding, by Country, Through 2027
  • Table 58 : Asia-Pacific Market for Plastic Injection Molding, by End Use, Through 2027
  • Table 59 : Asia-Pacific Market for Plastic Injection Molding, by Type of Thermoplastic Polymer, Through 2027
  • Table 60 : Chinese Market for Plastic Injection Molding, by End Use, Through 2027
  • Table 61 : Indian Market for Plastic Injection Molding, by End Use, Through 2027
  • Table 62 : Rest of Asia-Pacific Market for Plastic Injection Molding, by End Use, Through 2027
  • Table 63 : North American Market for Plastic Injection Molding, by Country, Through 2027
  • Table 64 : North American Market for Plastic Injection Molding, by End Use, Through 2027
  • Table 65 : North American Market for Plastic Injection Molding, by Type of Thermoplastic Polymer, Through 2027
  • Table 66 : U.S. Market for Plastic Injection Molding, by End Use, Through 2027
  • Table 67 : Canadian Market for Plastic Injection Molding, by End Use, Through 2027
  • Table 68 : European Market for Plastic Injection Molding, by Country, Through 2027
  • Table 69 : European Market for Plastic Injection Molding, by End Use, Through 2027
  • Table 70 : European Market for Plastic Injection Molding, by Type of Thermoplastic Polymer, Through 2027
  • Table 71 : German Market for Plastic Injection Molding, by End Use, Through 2027
  • Table 72 : Italian Market for Plastic Injection Molding, by End Use, Through 2027
  • Table 73 : Rest of European Market for Plastic Injection Molding, by End Use, Through 2027
  • Table 74 : Rest of the World Market for Plastic Injection Molding, by End Use, Through 2027
  • Table 75 : Rest of the World Market for Plastic Injection Molding, by Type of Thermoplastic Polymer, Through 2027
  • Table 76 : Latest Strategic Initiatives in the Injection Molding Industry
  • Table 77 : Organizations Associated with the Plastic Injection Molding Industry

List of Figures

  • Summary Figure : Global Market Share of Plastic Injection Molding, by Region, 2021
  • Figure 1 : Types of Plastic Molding
  • Figure 2 : Blow Molding Industrial Process Cycle
  • Figure 3 : Compression Molding Process Cycle
  • Figure 4 : Injection Compression Molding
  • Figure 5 : Injection Compression Molding Process Cycle
  • Figure 6 : Film Insert Molding Process Cycle
  • Figure 7 : Gas Assist Molding Process Cycle
  • Figure 8 : External Gas-Assist Injection Molding Process Cycle
  • Figure 9 : Reactive Injection Molding Process Cycle
  • Figure 10 : Reactive Injection Molding Process Cycle
  • Figure 11 : Rotational Molding Process Cycle
  • Figure 12 : Multi-nozzle, Low-Pressure, Structural Foam/Plastic Molding Process Cycle
  • Figure 13 : Plastic Thermoforming Process Cycle
  • Figure 14 : Plastic Vacuum Thermoforming Process Cycle
  • Figure 15 : Plastic Pressure Thermoforming Process Cycle
  • Figure 16 : Plastic Mechanical Thermoforming Process Cycle
  • Figure 17 : Thermoplastic Injection Molding Process
  • Figure 18 : Key Factors Essential When Selecting an Ideal Injection Molding Material
  • Figure 19 : Polyethylene Chemical Composition
  • Figure 20 : Polypropylene Chemical Composition
  • Figure 21 : Polyvinyl Chloride Chemical Composition
  • Figure 22 : Nylon Chemical Composition
  • Figure 23 : Acrylonitrile Butadiene Styrene Chemical Composition
  • Figure 24 : Polystyrene Chemical Composition
  • Figure 25 : Thermoplastics Injection Molding Process
  • Figure 26 : Line Diagram of Mold
  • Figure 27 : Injection Molding Cycle Time
  • Figure 28 : Pressure Change in Molding Cycle
  • Figure 29 : Injection Molding Cycle Operation
  • Figure 30 : Example of Injection Molded Parts
  • Figure 31 : Two-Plate Mold
  • Figure 32 : Three-Plate Mold
  • Figure 33 : Injection Molding: A Part with Side Action Using a Core
  • Figure 34 : Simple Mold Part
  • Figure 35 : Breaking Stress Under Bending on Bars of Different Cross-Section Geometry
  • Figure 36 : Warping Defect
  • Figure 37 : Blush Marks Defect
  • Figure 38 : Burn Marks Defect
  • Figure 39 : Flash Defect
  • Figure 40 : Flow Line Defect
  • Figure 41 : Jetting Defect
  • Figure 42 : Short Shot Defect
  • Figure 43 : Sink Marks Defect
  • Figure 44 : Cracking Defect
  • Figure 45 : Surface Delamination Defect
  • Figure 46 : Vacuum Voids Defect
  • Figure 47 : Bubbles Defect
  • Figure 48 : Blisters Defect
  • Figure 49 : Weld Lines Defect
  • Figure 50 : Two-Shot Micro-Molding
  • Figure 51 : Benefits of Outsourcing Plastic Injection Molding
  • Figure 52 : Global Injection Molding Market- Drivers and Restraints
  • Figure 53 : GDP Growth, Emerging Nations, 2015-2021
  • Figure 54 : Factors Driving Packaging Demand in Emerging Markets
  • Figure 55 : Plastics in MSW, by Weight, 1960-2018
  • Figure 56 : Global Bioplastic Production Capacity, 2021-2027
  • Figure 57 : Global Distribution of Bioplastic Production Capacity, by Type of Material, 2022
  • Figure 58 : Global Distribution of Bioplastic Production Capacity, by Region, 2020
  • Figure 59 : Supply Chain Analysis
  • Figure 60 : Injection Molding Machine
  • Figure 61 : Two-Color Injection Molding Product
  • Figure 62 : Two-Color Injection Molding Process
  • Figure 63 : Two-Color Injection Molding Machine
  • Figure 64 : Sandwich Injection Molding Process Cycle
  • Figure 65 : Overmolding Process Cycle
  • Figure 66 : Global Market Share of Plastic Injection Molding, by Type of Thermoplastic Polymer, 2021
  • Figure 67 : Global Market Share of Polypropylene Plastic Injection Molding, by Region, 2021
  • Figure 68 : Global Market Share of ABS Plastic Injection Molding, by Region, 2021
  • Figure 69 : Global Market Share of Polystyrene Plastic Injection Molding, by Region, 2021
  • Figure 70 : Global Market Share of HDPE Plastic Injection Molding, by Region, 2021
  • Figure 71 : Global Market Share of Polycarbonate Plastic Injection Molding, by Region, 2021
  • Figure 72 : Global Market Share of Polyamide Plastic Injection Molding, by Region, 2021
  • Figure 73 : Global Market Share of Polyurethane Plastic Injection Molding, by Region, 2021
  • Figure 74 : Global Market Share of Others Plastic Injection Molding, by Region, 2021
  • Figure 75 : Global Market Share of Plastic Injection Molding, by End Use, 2021
  • Figure 76 : Global Market Share of Plastic Injection Molding in Packaging and Product Housing, by Region, 2021
  • Figure 77 : Global Market Share of Plastic Injection Molding in Medical Devices and Pharmaceuticals, by Region, 2021
  • Figure 78 : Global Market Share of Plastic Injection Molding in Automotive, by Region, 2021
  • Figure 79 : Global Sales-All Vehicles, 2019-2021
  • Figure 80 : Global Market Share of Plastic Injection Molding in Electrical and Electronics, by Region, 2021
  • Figure 81 : Global Market Share of Plastic Injection Molding in Industrial and Business Machines, by Region, 2021
  • Figure 82 : Global Market Share of Plastic Injection Molding in Agriculture, by Region, 2021
  • Figure 83 : Global Market Share of Plastic Injection Molding in Infrastructure, by Region, 2021
  • Figure 84 : Global Renewable Electricity Capacity Additions, by Region, 2015-2026
  • Figure 85 : Global Market Share of Plastic Injection Molding in Other End Uses, by Region, 2021
  • Figure 86 : Share of Plastics Exported, by Key Country, 2020
  • Figure 87 : Growth Projections: Asia-Pacific, 2020-2022
  • Figure 88 : Asia-Pacific Market Share of Plastic Injection Molding, by Country, 2021
  • Figure 89 : Asia-Pacific Market Share of Plastic Injection Molding, by End Use, 2021
  • Figure 90 : Asia-Pacific Market Share of Plastic Injection Molding, by Type of Thermoplastic Polymer, 2021
  • Figure 91 : Chinese Market Share of Plastic Injection Molding, by End Use, 2021
  • Figure 92 : Demand-side Contribution to GDP, 2021 and 2022
  • Figure 93 : Key Indicators, 2021 to 2024
  • Figure 94 : Indian Market Share of Plastic Injection Molding, by End Use, 2021
  • Figure 95 : Rest of Asia-Pacific Market Share of Plastic Injection Molding, by End Use, 2021
  • Figure 96 : North American Market Share of Plastic Injection Molding by Country, 2021
  • Figure 97 : North American Market Share of Plastic Injection Molding, by End Use, 2021
  • Figure 98 : North American Market Share of Plastic Injection Molding, by Type of Thermoplastic Polymer, 2021
  • Figure 99 : U.S. Motor Vehicle Production and Domestic Sales, 2018-2021
  • Figure 100 : U.S. Market Share of Plastic Injection Molding, by End Use, 2021
  • Figure 101 : Canadian Automotive Market Statistics, 2019-2022
  • Figure 102 : Canadian Market Share of Plastic Injection Molding, by End Use, 2021
  • Figure 103 : Europe GDP Forecast, by Country, 2022-2024
  • Figure 104 : European Market Share of Plastic Injection Molding, by Country, 2021
  • Figure 105 : European Market Share of Plastic Injection Molding, by End Use, 2021
  • Figure 106 : European Market Share of Plastic Injection Molding, by Type of Thermoplastic Polymer, 2021
  • Figure 107 : German Market Share of Plastic Injection Molding, by End Use, 2021
  • Figure 108 : Italian Market Share of Plastic Injection Molding, by End Use, 2021
  • Figure 109 : Rest of European Market Share of Plastic Injection Molding, by End Use, 2021
  • Figure 110 : Rest of the World Market Share of Plastic Injection Molding, by End Use, 2021
  • Figure 111 : Rest of the World Market Share of Plastic Injection Molding, by Type of Thermoplastic Polymer, 2021
  • Figure 112 : Middle East, Real GDP, 2022
  • Figure 113 : BASF SE: Net Sales, 2020 and 2021
  • Figure 114 : BASF SE: Revenue Share, by Region, 2021
  • Figure 115 : Berry Global Inc.: Net Sales, 2020 and 2021
  • Figure 116 : Dow: Net Sales, 2020 and 2021
  • Figure 117 : Dow: Sales Share, by Region, 2021
  • Figure 118 : Dow: Sales Share, by Segment, 2021
  • Figure 119 : DuPont: Net Sales, 2019-2021
  • Figure 120 : Eastman Chemical Co.: Revenue, 2020 and 2021
  • Figure 121 : ExxonMobil Corp.: Sales Revenue, 2020 and 2021
  • Figure 122 : Huntsman Corp.: Sales Revenue, 2020 and 2021
  • Figure 123 : Huntsman Corp.: Revenue Share, by Region, 2021
  • Figure 124 : Huntsman Corp.: Revenue Share, by Segment, 2021
  • Figure 125 : Ineos Group: Sales, 2019-2021
  • Figure 126 : Magna International Inc.: Sales, 2019-2021
  • Figure 127 : Magna International Inc.: Sales Share, by Customer, 2021
  • Figure 128 : Sabic: Sales Revenue, 2020 and 2021
  • Figure 129 : Sabic: Revenue Share, by Region/Country, 2021
  • Figure 130 : Toray Industries Inc.: Net Sales, 2021 and 2022
  • Figure 131 : Toray Industries Inc.: Revenue Share, by Segment, 2022
  • Figure 132 : Toray Industries Inc.: Revenue Share, by Region/Country, 2022