全球辐射固化涂料市场：需求与预测分析（2018-2034）

辐射固化涂料因其固化速度快、环境影响小、性能优异等特点，正日益由各行各业所采用。这些被覆剂经紫外线 (UV) 或电子束 (EB) 照射即可固化，是传统系统的无溶剂替代品，是注重永续性的市场的首选。

应用程式概述

辐射固化被覆剂广泛应用于木材工业，用于家具、地板和橱柜等，这些行业的耐久性和表面品质至关重要。在造纸和纸浆行业，它们可以提高印刷品质和防潮性。在电气和电子行业，辐射固化材料因其绝缘和保护性能而备受信赖，尤其是在电路基板和连接器领域。在塑胶产业，它们可以改善表面硬度和外观。光学应用受益于其透明度和耐黄变性；在油墨和染料行业，它们可用于提高印刷耐久性和缩短干燥时间。该技术也在汽车内装和医疗设备等其他领域找到了利基应用。

各地区对辐射固化被覆剂的需求

全球市场对辐射固化被覆剂的区域需求差异很大。亚太地区是规模最大、成长最快的地区，这得益于中国、印度和韩国等国电子、包装和建筑业的扩张。紧随其后的是北美，木材加工、汽车和电子领域的需求强劲，这得益于推动低VOC技术的严格环境标准。欧洲也维持了相当大的市场占有率，这得益于永续性法规和高性能涂料的创新，尤其是在德国和法国。在外国投资和製造业转向环保涂料的推动下，拉丁美洲和中东及非洲呈现温和成长。全球市场越来越倾向于亚太地区，将其作为辐射固化涂料的生产和消费中心。

主要製造商

多家全球性公司积极参与辐射固化涂料的生产，包括阿克苏诺贝尔、宣伟、PPG工业和立邦涂料控股，这些公司都已将辐射固化涂料纳入其更广泛的涂料产品组合中。其他主要企业包括艾仕得、中国船舶涂料、BASF、帝斯曼、氰特工业和DIC公司，它们正在投资研发，以开发适用于更广泛工业应用的先进配方。

市场驱动力：无VOC涂料需求不断成长

推动辐射固化涂料成长的关键因素是，由于日益增长的环境问题和严格的法规结构，全球对低VOC和无VOC解决方案的需求不断增长。在北美和西欧等地区，旨在减少空气污染的立法正迫使各行各业采用更永续的替代方案。

辐射固化涂料在这方面具有显着优势，因为它们几乎不排放挥发性有机化合物。这些被覆剂透过紫外线或电子束照射即可快速固化，不仅提高了生产效率，还能最大限度地减少能源消耗和废弃物。电子、包装和汽车等行业的应用日益增多，这些行业对精度、耐用性和环保合规性至关重要，也刺激了市场的成长。消费者对永续性的意识不断增强，以及对生态标章产品的偏好，正迫使製造商改进传统被覆剂，加速全球向辐射固化技术的转型。

本报告研究了全球辐射固化涂料市场，并概述了市场以及按类型、应用、地区和国家分類的趋势，以及参与市场的公司概况。

目录

第一章 引言

第二章 市场概述

• 市场演变
• 需求概览
• 产业结构
• 战略问题
• 最终用途趋势
• 成长预测

第三章 经济与能源展望

• GDP与人口统计
• 货币和财政政策
• 原油产量和价格
• 天然气
• 电费

第四章 终端使用部门绩效

• 木材工业
• 纸和纸浆
• 电气和电子
• 塑胶
• 光学
• 油墨和染料
• 其他的

第五章辐射固化涂料的介绍与市场概况

• 产品描述
• 等级和特点
• 原料
• 製造过程
• 环境问题
• 价值链
• 目的

第六章市场动态与产业趋势

• 市场动态
  • 驱动程式
  • 限制因素
  • 机会
  • 任务

第七章 全球辐射固化涂料需求分析，依应用（数量、价值）（2018-2034）

• 战略挑战与新冠疫情的影响
• 需求分析与预测（2018-2034）
• 木材工业
• 纸和纸浆
• 电气和电子
• 塑胶
• 光学
• 油墨和染料
• 其他的

第 8 章。按地区和国家分類的需求分析和市场回顾（数量、价值）（2018-2034 年）

• 战略挑战与新冠疫情的影响
• 需求分析与预测（2018-2034）
• 要求
• 需求成长率（%）
• 辐射固化涂料市场（按应用）

註：以下列出的所有主要地区/国家均提供了需求分析。各国家按应用分類的需求（消费量）以数量（千吨）和金额（百万美元）表示。

• 北美洲
• 美国
• 加拿大
• 墨西哥
• 西欧
• 德国
• 法国
• 义大利
• 英国
• 西班牙
• 其他西欧国家
• 中欧/东欧
• 俄罗斯
• 波兰
• 其他中欧和东欧国家
• 亚太地区
• 中国
• 日本
• 印度
• 韩国
• 亚太其他地区
• 拉丁美洲
• 中东和非洲

  註：为了计算预测期间（2025-2034 年）内的区域/全球需求成长，已计算所有应用的复合年增长率。

第九章定价分析

第十章 关键策略问题与机会评估

• 市场吸引力评估
• 未来与目标市场研究

第十一章 策略建议与提案

第十二章公司分析

• 辐射固化涂料製造商简介/公司分析
• AkzoNobel
• Sherwin Williams
• PPG Industries
• Nippon Paint Holdings
• Axalta
• Chugoku Marine Paints
• BASF
• DSM
• Cytec Industries
• DIC Corporation
• 其他製造商

註：本部分包含企业资料、财务状况、製造地和营运地理区域。本报告仅包含财务资讯可在美国证券交易委员会 (SEC) 文件、年度报告或公司网站上查阅的公司的财务资讯。本报告中报告的所有财务数据均以美元计价。以其他货币报告的财务数据已根据平均外汇折算。公司简介可能包括製造商、供应商和经销商。

第十三章 附录

Radiation curable coatings are increasingly being adopted across a range of industries due to their rapid curing time, reduced environmental impact, and excellent performance characteristics. These coatings, which harden when exposed to ultraviolet (UV) or electron beam (EB) radiation, offer a solvent-free alternative to traditional systems, making them a preferred choice in sustainability-conscious markets.

Applications Overview

Radiation curable coatings are used extensively in the wood industry for furniture, flooring, and cabinetry, where durability and finish quality are essential. In the paper and pulp segment, these coatings enhance print quality and resistance to moisture. The electrical and electronics sector relies on radiation-curable materials for their insulating and protective properties, especially in circuit boards and connectors. In plastics, these coatings improve surface hardness and appearance. Optical applications benefit from their clarity and resistance to yellowing, while inks and dyes industries use them to improve print durability and drying time. The technology also finds niche applications in various other sectors, including automotive interiors and medical devices.

Regional Demand for Radiation Curable Coatings

The regional demand for radiation curable coatings varies significantly across global markets. Asia-Pacific holds the largest and fastest-growing share, driven by expanding electronics, packaging, and construction industries in countries like China, India, and South Korea. North America follows with strong demand from wood finishing, automotive, and electronics sectors, supported by strict environmental standards promoting low-VOC technologies. Europe also maintains a substantial market share due to sustainability regulations and innovation in high-performance coatings, especially in Germany and France. Latin America and the Middle East & Africa show gradual growth, supported by foreign investments and a shift toward eco-friendly coating alternatives in manufacturing. The global market is increasingly leaning toward Asia-Pacific as the production and consumption hub for radiation curable coatings.

Key Manufacturers

Several global companies are actively involved in producing radiation curable coatings, including AkzoNobel, Sherwin Williams, PPG Industries, and Nippon Paint Holdings, all of which have integrated these solutions into their wider coating portfolios. Other significant players include Axalta, Chugoku Marine Paints, BASF, DSM, Cytec Industries, and DIC Corporation, who are investing in R&D to develop advanced formulations for broader industrial uses.

Market Driver: Rising demand for VOC free paints

A major factor driving the growth of radiation curable coatings is the global push toward low-VOC and VOC-free solutions due to rising environmental concerns and stricter regulatory frameworks. In regions like North America and Western Europe, legislation aimed at reducing air pollution is compelling industries to adopt more sustainable alternatives.

Radiation-curable coatings offer a significant advantage in this context, as they emit little to no volatile organic compounds. These coatings cure rapidly under UV or electron beam exposure, which not only enhances production efficiency but also minimizes energy use and waste. Their growing application in electronics, packaging, and automotive sectors where precision, durability, and environmental compliance are critical is further fueling market expansion. The increasing consumer awareness around sustainability and the preference for eco-labeled products is putting pressure on manufacturers to reformulate traditional coatings, accelerating the shift to radiation-curable technologies globally.

Table of Contents

1. Introduction

• Scope
• Market Coverage
  • Applications
  • Regions
  • Countries
• Years Considered
  • Historical - 2018 - 2023
  • Base - 2024
  • Forecast Period - 2025 - 2034
• Research Methodology
  • Approach
  • Research Methodology
  • Prismane Consulting Market Models
  • Assumptions & Limitations
  • Abbreviations & Definitions
  • Conversion Factors
  • Data Sources

2. Market Synopsis

• Market Evolution
• Demand Overview
• Industry Structure
• Strategic Issues
• End-use Trends
• Growth Forecast

3. Economic & Energy Outlook

• GDP and Demographics
• Monetary & Fiscal Policies
• Crude Oil Production and prices
• Natural Gas
• Electricity Prices

4. End-use Sector Performance

• Wood Industry
• Paper & Pulp
• Electrical & Electronics
• Plastics
• Optics
• Inks & Dyes
• Others

5. Introduction to Radiation Curable Coatings and Market Overview

• Product Description
• Grades & Properties
• Raw Material
• Manufacturing Process
• Environmental Issues
• Value Chain
• Applications

6. Market Dynamics and Industry Trends

• Market Dynamics
  • Drivers
  • Restraints
  • Opportunities
  • Challenges

7. Global Radiation Curable Coatings Demand Analysis, By Applications (Volume, Value) (2018-2034)

• Strategic Issues and COVID-19 Impact
• Demand Analysis and Forecast (2018- 2034)
  • Demand
  • Demand Growth Rate (%)
  • Driving Force Analysis
  • Global Radiation Curable Coatings Market, By Applications
• Wood Industry
• Paper & Pulp
• Electrical & Electronics
• Plastics
• Optics
• Inks & Dyes
• Others

8. Demand Analysis and Market Review, By Region, By Country (Volume, Value), (2018- 2034)

• Strategic Issues and COVID-19 Impact
• Demand Analysis and Forecast (2018 - 2034)
• Demand
• Demand Growth Rate (%)
• Radiation Curable Coatings Market, By Applications

Note: Demand Analysis has been provided for all major Regions / Countries as mentioned below. The demand (consumption) split by applications have been provided for each of the countries / regions in Volume (Kilo tons) and Value (USD Million).

• North America
• USA
• Canada
• Mexico
• Western Europe
• Germany
• France
• Italy
• United Kingdom
• Spain
• Rest of Western Europe
• Central & Eastern Europe
• Russia
• Poland
• Rest of Central & Eastern Europe
• Asia-Pacific
• China
• Japan
• India
• South Korea
• Rest of Asia-Pacific
• Central & South America
• Middle East & Africa

Note: CAGR will be calculated for all applications to arrive at the regional / global demand growth for the forecast period (2025 - 2034)

9. Pricing Analysis

10. Key Strategic Issues and Business Opportunity Assessment

• Market Attractiveness Assessment
• Prospective & Target Market Study

11. Strategic Recommendation & Suggestions

12. Company Analysis

• Radiation Curable Coatings Manufacturers Profiles/ Company Analysis
  • Basic Details
  • Headquarter, Key Markets
  • Ownership
  • Company Financial
  • Manufacturing Bases
  • Global Turnover
  • Total Employee
  • Product Portfolio / Services / Solutions
  • Key Business Strategies adopted and Prismane Consulting Overview
  • Recent Developments
  • Companies Covered -
• AkzoNobel
• Sherwin Williams
• PPG Industries
• Nippon Paint Holdings
• Axalta
• Chugoku Marine Paints
• BASF
• DSM
• Cytec Industries
• DIC Corporation
• Other Manufacturers

Note: This section includes company information, company financials, manufacturing bases and operating regions. Company financials have been mentioned only for those companies where financials were available in SEC Filings, annual reports, or company websites. All the reported financials in this report are in U.S. Dollars. Financials reported in other currencies have been converted using average currency conversion rates. Company profiles may include manufacturers, suppliers, and distributors.

13. Appendices

• Demand - Regions
• Demand - Countries