全球等電漿切割機市場：按產品、控制、配置、電源、最終用戶和地區進行分析，規模、趨勢、COVID-19 的影響以及 2030 年預測

2024 年全球等電漿切割機市場規模價值為 7.3826 億美元。預計到 2030 年將達到 9.5834 億美元。電漿切割機是用於精確、有效率、快速地切割導電材料的先進工具。這些機器使用等離子弧將氮氣、氬氣或壓縮空氣等氣體電加熱到極高的溫度。未來幾年，由於幾個關鍵因素，全球等電漿切割市場預計將繼續保持成長軌跡。人們對風力發電機和太陽能電池板等可再生能源基礎設施的日益關注，這些基礎設施需要精密的金屬切割，這可能會增加對電漿切割的需求。此外，對永續生產實踐的日益重視推動了節能、低排放切割技術的採用，將電漿切割定位為更環保的替代方案。亞太、拉丁美洲和非洲的新興經濟體正在經歷快速的工業化和基礎設施發展，為電漿切割機製造商創造了巨大的機會。此外，旨在改進等電漿切割技術和降低營運成本的持續研究和開發預計將擴大等電漿切割技術的應用範圍，從而推動未來的市場成長。預計 2025-2030 年預測期內市場複合年成長率約為 4.5%。

本報告對全球等電漿切割機市場進行了深入分析，並提供了有關市場動態、COVID-19 的影響和競爭格局的資訊。

目錄

第1章執行摘要

第 2 章 簡介

• 電漿切割機：概述
  • 電漿切割機簡介
• 電漿切割機細分：概述

第3章 全球市場分析

• 全球等電漿切割機市場：分析
  • 全球等電漿切割機市場概況
  • 等電漿切割機的全球市場規模
  • 全球等電漿切割機市場依產品分類（單流、雙流）
  • 全球等電漿切割機市場，依控制方式（CNC/自動、手動）
  • 全球等電漿切割機市場，依配置（2D、管材或截面、3D）
  • 全球等電漿切割機市場依電源（傳統、逆變器）分類
  • 全球等電漿切割機市場按最終用戶分類（汽車、製造、工業建築、家電、航太和國防、其他）
  • 全球等電漿切割機市場按地區分類（亞太地區、歐洲、北美、世界其他地區）
• 全球等電漿切割機市場：產品分析
  • 全球等電漿切割機市場概覽（按產品）
  • 全球單流等電漿切割機市場規模
  • 雙流等電漿切割機全球市場規模
• 全球等電漿切割機市場：控制分析
  • 全球等電漿切割機市場概覽（按控制）
  • CNC/自動等電漿切割機的全球市場規模
  • 全球手動等電漿切割機市場規模
• 全球等電漿切割機市場：構成分析
  • 全球等電漿切割機市場：依產品類型概覽
  • 2D等電漿切割機的全球市場規模
  • 全球管材或型材等電漿切割機市場規模
  • 3D等電漿切割機的全球市場規模
• 全球等電漿切割機市場：電源分析
  • 全球等電漿切割機市場概覽（依電源分類）
  • 傳統等電漿切割機的全球市場規模
  • 逆變等電漿切割機全球市場規模
• 全球等電漿切割機市場：最終用戶分析
  • 全球等電漿切割機市場：最終用戶概覽
  • 汽車等電漿切割機的全球市場規模
  • 製造業等電漿切割機的全球市場規模
  • 工業建築等電漿切割全球市場規模
  • 全球電器等電漿切割機市場規模
  • 航太和國防等電漿切割機的全球市場規模
  • 其他等電漿切割機的全球市場規模

第4章 區域市場分析

• 亞太等電漿切割機市場：分析
  • 亞太等電漿切割機市場概況
  • 亞太等電漿切割機市場規模
  • 亞太等電漿切割機市場依地區分類（中國、日本、韓國、印度、亞太其他地區）
  • 中國等電漿切割機市場規模
  • 日本等電漿切割機市場規模
  • 韓國等電漿切割機市場規模
  • 印度等電漿切割機市場規模
  • 其他亞太等電漿切割機市場規模
• 歐洲等電漿切割機市場：分析
  • 歐洲等電漿切割機市場概況
  • 歐洲等電漿切割機市場規模
  • 歐洲等電漿切割機市場依地區分類（德國、英國、法國、西班牙、義大利、歐洲其他地區）
  • 德國等電漿切割機市場規模
  • 英國電漿切割機市場規模
  • 法國等電漿切割機市場規模
  • 西班牙等電漿切割機市場規模
  • 義大利等電漿切割機市場規模
  • 其他歐洲等電漿切割機市場規模
• 北美等電漿切割機市場：分析
  • 北美等電漿切割機市場概況
  • 北美等電漿切割機市場規模
  • 北美等電漿切割機市場按地區分類（美國、加拿大、墨西哥）
  • 美國電漿切割機市場規模
  • 加拿大等電漿切割機市場規模
  • 墨西哥等電漿切割機市場規模
• 世界其他地區：分析
  • 世界其他地區等電漿切割機市場概況
  • 其他地區等電漿切割機市場規模

第5章 新冠肺炎疫情的影響

• COVID-19 對全球等電漿切割機市場的影響
• COVID-19 對全球等電漿切割機市場的影響

第6章 市場動態

• 成長動力
  • 建築支出增加
  • 不斷發展的汽車產業
  • 可再生能源需求不斷成長
  • 不斷發展的航空工業
  • 精密金屬切削的需求不斷增加
  • 中小型企業的採用率不斷提高
  • 客製化和多功能性
• 任務
  • 存在替代技術
  • 初期投資成本高
• 市場趨勢
  • 人工智慧和機器學習 (ML) 整合
  • 技術進步
  • 向能源效率和永續性的轉變
  • 手持式等離子切割機越來越受歡迎

第7章 競爭格局

• 全球等電漿切割機市場：競爭格局

第8章 公司簡介

• DAIHEN Corporation
• Ador Welding Ltd.
• ERMAKSAN
• Haco Group
• Hypertherm Associates
• Kjellberg Finsterwalde
• Miller Electric Mfg. LLC
• Voortman Steel Machinery
• AJAN CNC
• Automated Cutting Machinery Inc.
• C&G Systems
• Jian Huaxia Machinery Equipment Co. Ltd.

The global plasma cutting machine market was valued at US$738.26 million in 2024. The market value is expected to reach US$958.34 million by 2030. Plasma cutting machines are advanced tools designed for cutting electrically conductive materials with high precision, efficiency, and speed. These machines utilize a plasma arc, which is created by electrically heating a gas such as nitrogen, argon, or compressed air to extremely high temperatures. In the forthcoming years, the global plasma cutting market is expected to continue its growth trajectory due to several key factors. The increasing focus on renewable energy infrastructure, including wind turbines and solar panels, requires precision metal cutting, which is likely to bolster plasma cutting demand. Moreover, the rising emphasis on sustainable manufacturing practices has encouraged the adoption of energy-efficient and low-emission cutting technologies, positioning plasma cutting as an eco-friendly alternative. Emerging economies in Asia-Pacific, Latin America, and Africa are witnessing rapid industrialization and infrastructure development, creating substantial opportunities for plasma cutting equipment manufacturers. Furthermore, ongoing research and development efforts aimed at enhancing plasma cutting technology and reducing operational costs are anticipated to expand its application scope, driving the market's growth in the years to come. The market is expected to grow at a CAGR of approx. 4.5% during the forecasted period of 2025-2030.

Market Segmentation Analysis:

By Product: The report provides the bifurcation of the global plasma cutting machine market based on the product: Single Flow and Dual Flow. The single flow segment has historically dominated the plasma cutting machine market due to its cost-effectiveness, simplicity, and widespread applicability across various industries. These machines utilize a single gas stream for both plasma generation and shielding, making them ideal for small to medium-scale operations that prioritize affordability without compromising on quality. Whereas, the dual flow segment is poised to be the fastest-growing category in the plasma cutting machine market due to its advanced capabilities and increasing adoption in high-performance industries. Unlike single flow systems, dual flow machines employ two separate gas streams-one for plasma generation and another for shielding. This dual-stream system significantly enhances cutting precision, speed, and quality, especially when dealing with thicker and more challenging materials like stainless steel and aluminum.

By Control: The report provides the segmentation of the market based on the following control: CNC/Automated and Manual. CNC/Automated plasma cutting machines have held the highest market share and are anticipated to remain the fastest-growing segment due to their unparalleled precision, efficiency, and adaptability in modern manufacturing. These systems leverage computerized numerical control (CNC) technology, enabling highly accurate and consistent cuts with minimal manual intervention. This makes them indispensable in industries such as automotive, aerospace, and construction, where precision and productivity are paramount.

By Configuration: The report provides the glimpse of the market based on the following configuration: 2D, Tube or Section, and 3D. The 2D segment has dominated the plasma cutting machine market, holding the highest share due to its extensive application across diverse industries. These machines are designed for cutting flat sheets of metal, a requirement that is ubiquitous in industries like automotive, construction, and general manufacturing. Their ability to produce clean and precise cuts on flat surfaces makes them a preferred choice for manufacturers focused on high-quality outputs at competitive costs. On the other hand, the tube or section segment is expected to be the fastest-growing configuration in the market, driven by increasing demand from industries requiring advanced fabrication capabilities. These machines specialize in cutting cylindrical, rectangular, or irregularly shaped tubes and sections, which are essential components in industries such as construction, shipbuilding, and aerospace. The rising focus on lightweight yet robust structures in automotive and construction applications has significantly boosted the demand for tube and section cutting capabilities.

By Power Source: The report provides the bifurcation of the global plasma cutting machine market based on the power source: Conventional and Inverter. The conventional segment has historically held the highest share in the plasma cutting machine market due to its durability, reliability, and widespread use across traditional manufacturing and industrial settings. These machines are well-suited for heavy-duty applications, such as shipbuilding, construction, and metal fabrication, where consistent and robust performance is required. Their relatively straightforward design and lower initial costs have made them a popular choice for industries prioritizing cost-efficiency and long-term usability. Whereas, the inverter segment is poised to be the fastest-growing in the plasma cutting machine market due to its superior energy efficiency, compact design, and advanced capabilities. Unlike conventional systems, inverter-based plasma cutting machines use advanced electronic circuitry to generate precise and stable power output, resulting in higher cutting quality and efficiency. These machines are especially appealing to industries focused on lightweight and portable solutions, such as automotive repair, small-scale manufacturing, and on-site construction work.

By End-User: The report provides the bifurcation of the global plasma cutting machine market based on the end-user: Automotive, Manufacturing, Industrial Constructions, Electric Equipment, Aerospace & Defence, and Others. The automotive segment has held the highest market share and is expected to be the fastest-growing end-user for plasma cutting machines due to its extensive reliance on precision cutting for vehicle manufacturing and repair. Plasma cutting machines are essential in producing components such as frames, chassis, and exhaust systems, where high accuracy and speed are required. The increasing demand for lightweight vehicles, driven by the need for fuel efficiency and reduced emissions, has further boosted the usage of plasma cutting machines, as they enable precise cutting of advanced materials like aluminum and high-strength steels.

By Region: The report provides insight into the plasma cutting machine market based on the following regions: Asia Pacific, Europe, North America, and Rest of the World. The Asia-Pacific region has emerged as the dominant player in the global plasma cutting machine market, holding the highest market share due to its robust industrial base and rapid economic growth. The region is home to some of the world's largest manufacturing hubs, particularly in countries like China, India, Japan, and South Korea. The booming automotive, construction, and heavy machinery industries in these countries have created a substantial demand for advanced metal cutting technologies, including plasma cutting. Furthermore, the availability of low-cost labor and raw materials in the Asia-Pacific region has attracted significant investments from global manufacturers, leading to the establishment of new production facilities and industrial zones. These developments have further bolstered the demand for plasma cutting machines. The region's leadership in the global market is also driven by the widespread adoption of modern manufacturing techniques, such as CNC plasma cutting, to enhance production efficiency and meet the rising demand for high-quality metal components.

Germany, being Europe's industrial powerhouse, has played a pivotal role in the growth of the plasma cutting machine market in the region. Renowned for its advanced manufacturing sector, Germany has a strong demand for plasma cutting technology in industries such as automotive, machinery, and engineering. The country's leadership in Industry 4.0 has further propelled the adoption of automated and CNC-controlled plasma cutting systems, which align with the requirements of smart factories. Additionally, Germany's emphasis on renewable energy development, particularly in wind turbine manufacturing, has boosted the demand for plasma cutting machines for producing high-precision metal components.

The US, as the largest market in North America, has been a major contributor to the growth of the plasma cutting machine market. The country's strong industrial base, encompassing automotive manufacturing, aerospace production, and heavy machinery, drives consistent demand for precision metal-cutting technologies. Additionally, the US construction industry, which has seen significant investments in infrastructure development and urbanization, relies heavily on plasma cutting systems for structural metal fabrication. Moreover, the US is a leader in renewable energy development, particularly wind energy, where plasma cutting technology plays a crucial role in producing turbine components.

Market Dynamics:

Growth Drivers: The global plasma cutting machine market has been growing over the past few years, due to factors such as growing construction spending, growing automotive industry, rising demand for renewable energy, growing aircraft industry, increasing demand for precision metal cutting, rising adoption in small and medium enterprises (SMEs), customization and versatility, and many other factors. The growing construction industry is significantly contributing to the expansion of the global plasma cutting machine market, as these machines are essential for fabricating and processing structural steel and metal components used in buildings, bridges, and infrastructure projects. With increasing urbanization and large-scale infrastructure development worldwide, especially in emerging economies, the demand for precise and efficient metal cutting solutions has surged. Plasma cutting machines enable construction firms to achieve high-quality cuts on various materials, including steel, aluminum, and other alloys, with speed and precision, reducing project timelines and material wastage.

Challenges: However, the market growth would be negatively impacted by various challenges such as presence of alternative technologies, high initial investment costs, etc. The presence of alternative technologies is posing a significant challenge to the growth of the global plasma cutting machine market, as these competing solutions often cater to similar industrial needs with distinct advantages. Technologies such as laser cutting and waterjet cutting are gaining traction due to their precision, versatility, and ability to cut a wider range of materials, including non-metals, with minimal heat-affected zones.

Trends: The market is projected to grow at a fast pace during the forecast period, due to integration of artificial intelligence (AI) and machine learning (ML), technological advancements, shift toward energy efficiency and sustainability, increasing popularity of handheld plasma cutters, etc. The integration of Artificial Intelligence (AI) and Machine Learning (ML) into plasma cutting machines is poised to significantly drive the growth of the global plasma cutting machine market in the coming years. These advanced technologies enable cutting machines to optimize performance by analyzing large data sets, identifying patterns, and making real-time adjustments. For example, AI-powered plasma cutting systems can automatically calibrate cutting parameters, such as speed, pressure, and arc intensity, to achieve higher precision and reduce material wastage. Machine learning algorithms can also predict maintenance needs by monitoring machine performance, minimizing downtime, and increasing overall productivity.

Impact Analysis of COVID-19 and Way Forward:

The COVID-19 pandemic created an unprecedented challenge for the global plasma cutting machine market. Reduced industrial activity, supply chain disruptions, and financial uncertainties collectively slowed market growth during this period, underscoring the pandemic's far-reaching effects on industrial equipment demand. The post-COVID-19 era witnessed a steady recovery in the global plasma cutting machine market, propelled by industrial revival, technological advancements, and sector-specific growth drivers. The market adapted to new demands for automation, precision, and sustainability, emerging stronger and more resilient in the aftermath of the pandemic.

Competitive Landscape:

The global plasma cutting machine market is highly competitive, characterized by the presence of both established players and emerging companies striving to capture market share through innovative technologies, product differentiation, and strategic partnerships. The key players in the global plasma cutting machine market are:

DAIHEN Corporation

Ador Welding Ltd.

ERMAKSAN

Haco Group

Hypertherm Associates

Kjellberg Finsterwalde

Miller Electric Mfg. LLC

Voortman Steel Machinery

AJAN CNC

Automated Cutting Machinery Inc.

C&G Systems

Jian Huaxia Machinery Equipment Co. Ltd.

Table of Contents

1. Executive Summary

2. Introduction

• 2.1 Plasma Cutting Machine: An Overview
  • 2.1.1 Introduction to Plasma Cutting Machine
• 2.2 Plasma Cutting Machine Segmentation: An Overview

3. Global Market Analysis

• 3.1 Global Plasma Cutting Machine Market: An Analysis
  • 3.1.1 Global Plasma Cutting Machine Market: An Overview
  • 3.1.2 Global Plasma Cutting Machine Market by Value
  • 3.1.3 Global Plasma Cutting Machine Market by Product (Single Flow and Dual Flow)
  • 3.1.4 Global Plasma Cutting Machine Market by Control (CNC/Automated and Manual)
  • 3.1.5 Global Plasma Cutting Machine Market by Configuration (2D, Tube or Section, and 3D)
  • 3.1.6 Global Plasma Cutting Machine Market by Power Source (Conventional and Invertor)
  • 3.1.7 Global Plasma Cutting Machine Market by End-User (Automotive, Manufacturing, Industrial Constructions, Electric Equipment, Aerospace & Defence, and Others)
  • 3.1.8 Global Plasma Cutting Machine Market by Region (Asia Pacific, Europe, North America, and Rest of the World)
• 3.2 Global Plasma Cutting Machine Market: Product Analysis
  • 3.2.1 Global Plasma Cutting Machine Market by Product: An Overview
  • 3.2.2 Global Single Flow Plasma Cutting Machine Market by Value
  • 3.2.3 Global Dual Flow Plasma Cutting Machine Market by Value
• 3.3 Global Plasma Cutting Machine Market: Control Analysis
  • 3.3.1 Global Plasma Cutting Machine Market by Control: An Overview
  • 3.3.2 Global CNC/Automated Plasma Cutting Machine Market by Value
  • 3.3.3 Global Manual Plasma Cutting Machine Market by Value
• 3.4 Global Plasma Cutting Machine Market: Configuration Analysis
  • 3.4.1 Global Plasma Cutting Machine Market by Configuration: An Overview
  • 3.4.2 Global 2D Plasma Cutting Machine Market by Value
  • 3.4.3 Global Tube or Section Plasma Cutting Machine Market by Value
  • 3.4.4 Global 3D Plasma Cutting Machine Market by Value
• 3.5 Global Plasma Cutting Machine Market: Power Source Analysis
  • 3.5.1 Global Plasma Cutting Machine Market by Power Source: An Overview
  • 3.5.2 Global Conventional Plasma Cutting Machine Market by Value
  • 3.5.3 Global Inverter Plasma Cutting Machine Market by Value
• 3.6 Global Plasma Cutting Machine Market: End-User Analysis
  • 3.6.1 Global Plasma Cutting Machine Market by End-User: An Overview
  • 3.6.2 Global Automotive Plasma Cutting Machine Market by Value
  • 3.6.3 Global Manufacturing Plasma Cutting Machine Market by Value
  • 3.6.4 Global Industrial Constructions Plasma Cutting Machine Market by Value
  • 3.6.5 Global Electric Equipment Plasma Cutting Machine Market by Value
  • 3.6.6 Global Aerospace and Defence Plasma Cutting Machine Market by Value
  • 3.6.7 Global Others Plasma Cutting Machine Market by Value

4. Regional Market Analysis

• 4.1 Asia Pacific Plasma Cutting Machine Market: An Analysis
  • 4.1.1 Asia Pacific Plasma Cutting Machine Market: An Overview
  • 4.1.2 Asia Pacific Plasma Cutting Machine Market by Value
  • 4.1.3 Asia Pacific Plasma Cutting Machine Market by Region (China, Japan, South Korea, India, and Rest of the Asia Pacific)
  • 4.1.4 China Plasma Cutting Machine Market by Value
  • 4.1.5 Japan Plasma Cutting Machine Market by Value
  • 4.1.6 South Korea Plasma Cutting Machine Market by Value
  • 4.1.7 India Plasma Cutting Machine Market by Value
  • 4.1.8 Rest of Asia Pacific Plasma Cutting Machine Market by Value
• 4.2 Europe Plasma Cutting Machine Market: An Analysis
  • 4.2.1 Europe Plasma Cutting Machine Market: An Overview
  • 4.2.2 Europe Plasma Cutting Machine Market by Value
  • 4.2.3 Europe Plasma Cutting Machine Market by Region (Germany, The UK, France, Spain, Italy, and Rest of the Europe)
  • 4.2.4 Germany Plasma Cutting Machine Market by Value
  • 4.2.5 The UK Plasma Cutting Machine Market by Value
  • 4.2.6 France Plasma Cutting Machine Market by Value
  • 4.2.7 Spain Plasma Cutting Machine Market by Value
  • 4.2.8 Italy Plasma Cutting Machine Market by Value
  • 4.2.9 Rest of Europe Plasma Cutting Machine Market by Value
• 4.3 North America Plasma Cutting Machine Market: An Analysis
  • 4.3.1 North America Plasma Cutting Machine Market: An Overview
  • 4.3.2 North America Plasma Cutting Machine Market by Value
  • 4.3.3 North America Plasma Cutting Machine Market by Region (The US, Canada, and Mexico)
  • 4.3.4 The US Plasma Cutting Machine Market by Value
  • 4.3.5 Canada Plasma Cutting Machine Market by Value
  • 4.3.6 Mexico Plasma Cutting Machine Market by Value
• 4.4 Rest of the World Plasma Cutting Machine Market: An Analysis
  • 4.4.1 Rest of the World Plasma Cutting Machine Market: An Overview
  • 4.4.2 Rest of the World Plasma Cutting Machine Market by Value

5. Impact of COVID-19

• 5.1 Impact of COVID-19 on Global Plasma Cutting Machine Market
• 5.2 Post COVID-19 Impact on Global Plasma Cutting Machine Market

6. Market Dynamics

• 6.1 Growth Drivers
  • 6.1.1 Growing Construction Spending
  • 6.1.2 Growing Automotive Industry
  • 6.1.3 Rising Demand for Renewable Energy
  • 6.1.4 Growing Aircraft Industry
  • 6.1.5 Increasing Demand for Precision Metal Cutting
  • 6.1.6 Rising Adoption in Small and Medium Enterprises (SMEs)
  • 6.1.7 Customization and Versatility
• 6.2 Challenges
  • 6.2.1 Presence of Alternative Technologies
  • 6.2.2 High Initial Investment Costs
• 6.3 Market Trends
  • 6.3.1 Integration of Artificial Intelligence (AI) and Machine Learning (ML)
  • 6.3.2 Technological Advancements
  • 6.3.3 Shift Toward Energy Efficiency and Sustainability
  • 6.3.4 Increasing Popularity of Handheld Plasma Cutters

7. Competitive Landscape

• 7.1 Global Plasma Cutting Machine Market: Competitive Landscape

8. Company Profiles

• 8.1 DAIHEN Corporation
  • 8.1.1 Business Overview
  • 8.1.2 Operating Segments
• 8.2 Ador Welding Ltd.
  • 8.2.1 Business Overview
  • 8.2.2 Operating Segments
• 8.3 ERMAKSAN
  • 8.3.1 Business Overview
  • 8.3.2 Business Strategy
• 8.4 Haco Group
  • 8.4.1 Business Overview
  • 8.4.2 Business Strategy
• 8.5 Hypertherm Associates
  • 8.5.1 Business Overview
  • 8.5.2 Business Strategy
• 8.6 Kjellberg Finsterwalde
  • 8.6.1 Business Overview
  • 8.6.2 Business Strategy
• 8.7 Miller Electric Mfg. LLC
  • 8.7.1 Business Overview
  • 8.7.2 Business Strategy
• 8.8 Voortman Steel Machinery
  • 8.8.1 Business Overview
  • 8.8.2 Business Strategy
• 8.9 AJAN CNC
  • 8.9.1 Business Overview
• 8.10 Automated Cutting Machinery Inc.
  • 8.10.1 Business Overview
• 8.11 C&G Systems
  • 8.11.1 Business Overview
• 8.12 Jian Huaxia Machinery Equipment Co. Ltd.
  • 8.12.1 Business Overview

List of Figures

• Figure 1: Plasma Cutting Machine Segmentation
• Figure 2: Global Plasma Cutting Machine Market by Value; 2020-2024 (US$ Million)
• Figure 3: Global Plasma Cutting Machine Market by Value; 2025-2030 (US$ Million)
• Figure 4: Global Plasma Cutting Machine Market by Product; 2024 (Percentage, %)
• Figure 5: Global Plasma Cutting Machine Market by Control; 2024 (Percentage, %)
• Figure 6: Global Plasma Cutting Machine Market by Configuration; 2024 (Percentage, %)
• Figure 7: Global Plasma Cutting Machine Market by Power Source; 2024 (Percentage, %)
• Figure 8: Global Plasma Cutting Machine Market by End-User; 2024 (Percentage, %)
• Figure 9: Global Plasma Cutting Machine Market by Region; 2024 (Percentage, %)
• Figure 10: Global Single Flow Plasma Cutting Machine Market by Value; 2020-2024 (US$ Million)
• Figure 11: Global Single Flow Plasma Cutting Machine Market by Value; 2025-2030 (US$ Million)
• Figure 12: Global Dual Flow Plasma Cutting Machine Market by Value; 2020-2024 (US$ Million)
• Figure 13: Global Dual Flow Plasma Cutting Machine Market by Value; 2025-2030 (US$ Million)
• Figure 14: Global CNC/Automated Plasma Cutting Machine Market by Value; 2020-2024 (US$ Million)
• Figure 15: Global CNC/Automated Plasma Cutting Machine Market by Value; 2025-2030 (US$ Million)
• Figure 16: Global Manual Plasma Cutting Machine Market by Value; 2020-2024 (US$ Million)
• Figure 17: Global Manual Plasma Cutting Machine Market by Value; 2025-2030 (US$ Million)
• Figure 18: Global 2D Plasma Cutting Machine Market by Value; 2020-2024 (US$ Million)
• Figure 19: Global 2D Plasma Cutting Machine Market by Value; 2025-2030 (US$ Million)
• Figure 20: Global Tube or Section Plasma Cutting Machine Market by Value; 2020-2024 (US$ Million)
• Figure 21: Global Tube or Section Plasma Cutting Machine Market by Value; 2025-2030 (US$ Million)
• Figure 22: Global 3D Plasma Cutting Machine Market by Value; 2020-2024 (US$ Million)
• Figure 23: Global 3D Plasma Cutting Machine Market by Value; 2025-2030 (US$ Million)
• Figure 24: Global Conventional Plasma Cutting Machine Market by Value; 2020-2024 (US$ Million)
• Figure 25: Global Conventional Plasma Cutting Machine Market by Value; 2025-2030 (US$ Million)
• Figure 26: Global Inverter Plasma Cutting Machine Market by Value; 2020-2024 (US$ Million)
• Figure 27: Global Inverter Plasma Cutting Machine Market by Value; 2025-2030 (US$ Million)
• Figure 28: Global Automotive Plasma Cutting Machine Market by Value; 2020-2024 (US$ Million)
• Figure 29: Global Automotive Plasma Cutting Machine Market by Value; 2025-2030 (US$ Million)
• Figure 30: Global Manufacturing Plasma Cutting Machine Market by Value; 2020-2024 (US$ Million)
• Figure 31: Global Manufacturing Plasma Cutting Machine Market by Value; 2025-2030 (US$ Million)
• Figure 32: Global Industrial Constructions Plasma Cutting Machine Market by Value; 2020-2024 (US$ Million)
• Figure 33: Global Industrial Constructions Plasma Cutting Machine Market by Value; 2025-2030 (US$ Million)
• Figure 34: Global Electric Equipment Plasma Cutting Machine Market by Value; 2020-2024 (US$ Million)
• Figure 35: Global Electric Equipment Plasma Cutting Machine Market by Value; 2025-2030 (US$ Million)
• Figure 36: Global Aerospace and Defence Plasma Cutting Machine Market by Value; 2020-2024 (US$ Million)
• Figure 37: Global Aerospace and Defence Plasma Cutting Machine Market by Value; 2025-2030 (US$ Million)
• Figure 38: Global Others Plasma Cutting Machine Market by Value; 2020-2024 (US$ Million)
• Figure 39: Global Others Plasma Cutting Machine Market by Value; 2025-2030 (US$ Million)
• Figure 40: Asia Pacific Plasma Cutting Machine Market by Value; 2020-2024 (US$ Million)
• Figure 41: Asia Pacific Plasma Cutting Machine Market by Value; 2025-2030 (US$ Million)
• Figure 42: Asia Pacific Plasma Cutting Machine Market by Region; 2024 (Percentage, %)
• Figure 43: China Plasma Cutting Machine Market by Value; 2020-2024 (US$ Million)
• Figure 44: China Plasma Cutting Machine Market by Value; 2025-2030 (US$ Million)
• Figure 45: Japan Plasma Cutting Machine Market by Value; 2020-2024 (US$ Million)
• Figure 46: Japan Plasma Cutting Machine Market by Value; 2025-2030 (US$ Million)
• Figure 47: South Korea Plasma Cutting Machine Market by Value; 2020-2024 (US$ Million)
• Figure 48: South Korea Plasma Cutting Machine Market by Value; 2025-2030 (US$ Million)
• Figure 49: India Plasma Cutting Machine Market by Value; 2020-2024 (US$ Million)
• Figure 50: India Plasma Cutting Machine Market by Value; 2025-2030 (US$ Million)
• Figure 51: Rest of Asia Pacific Plasma Cutting Machine Market by Value; 2020-2024 (US$ Million)
• Figure 52: Rest of Asia Pacific Plasma Cutting Machine Market by Value; 2025-2030 (US$ Million)
• Figure 53: Europe Plasma Cutting Machine Market by Value; 2020-2024 (US$ Million)
• Figure 54: Europe Plasma Cutting Machine Market by Value; 2025-2030 (US$ Million)
• Figure 55: Europe Plasma Cutting Machine Market by Region; 2024 (Percentage, %)
• Figure 56: Germany Plasma Cutting Machine Market by Value; 2020-2024 (US$ Million)
• Figure 57: Germany Plasma Cutting Machine Market by Value; 2025-2030 (US$ Million)
• Figure 58: The UK Plasma Cutting Machine Market by Value; 2020-2024 (US$ Million)
• Figure 59: The UK Plasma Cutting Machine Market by Value; 2025-2030 (US$ Million)
• Figure 60: France Plasma Cutting Machine Market by Value; 2020-2024 (US$ Million)
• Figure 61: France Plasma Cutting Machine Market by Value; 2025-2030 (US$ Million)
• Figure 62: Spain Plasma Cutting Machine Market by Value; 2020-2024 (US$ Million)
• Figure 63: Spain Plasma Cutting Machine Market by Value; 2025-2030 (US$ Million)
• Figure 64: Italy Plasma Cutting Machine Market by Value; 2020-2024 (US$ Million)
• Figure 65: Italy Plasma Cutting Machine Market by Value; 2025-2030 (US$ Million)
• Figure 66: Rest of Europe Plasma Cutting Machine Market by Value; 2020-2024 (US$ Million)
• Figure 67: Rest of Europe Plasma Cutting Machine Market by Value; 2025-2030 (US$ Million)
• Figure 68: North America Plasma Cutting Machine Market by Value; 2020-2024 (US$ Million)
• Figure 69: North America Plasma Cutting Machine Market by Value; 2025-2030 (US$ Million)
• Figure 70: North America Plasma Cutting Machine Market by Region; 2024 (Percentage, %)
• Figure 71: The US Plasma Cutting Machine Market by Value; 2020-2024 (US$ Million)
• Figure 72: The US Plasma Cutting Machine Market by Value; 2025-2030 (US$ Million)
• Figure 73: Canada Plasma Cutting Machine Market by Value; 2020-2024 (US$ Million)
• Figure 74: Canada Plasma Cutting Machine Market by Value; 2025-2030 (US$ Million)
• Figure 75: Mexico Plasma Cutting Machine Market by Value; 2020-2024 (US$ Million)
• Figure 76: Mexico Plasma Cutting Machine Market by Value; 2025-2030 (US$ Million)
• Figure 77: Rest of the World Plasma Cutting Machine Market by Value; 2020-2024 (US$ Million)
• Figure 78: Rest of the World Plasma Cutting Machine Market by Value; 2025-2030 (US$ Million)
• Figure 79: The US Construction Spending; July 2024- November 2024 (US$ Billion)
• Figure 80: Global Passenger Car Production; 2019-2023 (Million Unit)
• Figure 81: Global Electricity Supply and Share of Renewable Source; 2021-2026 (TWh, Percentage, %)
• Figure 82: Global Airline Industry Revenue; 2019-2024 (US$ Billion)
• Figure 83: Global AI Market Size; 2022-2030 (US$ Billion)
• Figure 84: DAIHEN Corporation Net Sales by Segment; 2024 (Percentage, %)
• Figure 85: Ador Welding Ltd. Revenue by Segment; 2024 (Percentage, %)