Global Energy Curable Coatings Market was valued at US$ 7.45 Bn. in 2020 and is expected to reach US$ 16.16 Bn. by 2027 at a CAGR 11.7% during forecast period. The report covers the detailed analysis of the Global energy curable coatings industry with the classifications of the market on the basis of type, chemical, application and region. Analysis of past market dynamics from 2016 to 2020 is given in the report, which will help readers to benchmark the past trends with current market scenarios with the key player's contribution in it. The reactive diluents and oligomers are called as Energy curable coatings that can be cross-linked or cured using high-intensity radiation energy at particular wavelengths or using high-speed electrons produced by an electron beam.To know about the Research Methodology :- Request Free Sample Report The report has profiled fifteen key players in the market from different regions. However, report has considered all market leaders, followers and new entrants with investors while analyzing the market and estimation of market size. Manufacturing environment in each region is different and focus is given to regional impact on the cost of manufacturing, supply chain, availability of raw materials, labor cost, availability of advanced technology, trusted vendors are analyzed.
Global Energy Curable Coatings Market Dynamics
The major growth driving factor for the energy curable coating market is its properties such as abrasive resistance, rapid curing, and drying superior hardness due to which energy curable coating founds wide application area in Wood, Plastics, and metal coatings. In addition to that, Superior mechanical and chemical resistance and low VOC emission are also helped in the growth of the global market. On the other hand, energy curable coating is high volumetric shrinkage and brittleness upon cure, which is expected growth restraint factor for global energy curable coatings market. Growing Customers awareness about alternative low pollution coating and favorable government rules and regulations are expected to create more growth opportunities for global energy curable coatings market. More, in addition, growing building construction and increase wood application in house furniture are also help in create new opportunities for the global energy curable coating market.Global Energy Curable Coatings Market Segment Analysis
On the basis of types, energy curable coating is segmented as ultraviolet (UV) and electron beam (EB). Electron beam (EB) the segment held major shares in the global energy curable market in 2020 and is expected to remain major during the forecast period also. The growing application in highly powerful industrial coating and suitable for low-density materials, such as polyolefin films and papers, laminating adhesive layers, and high opacity ink layers, are boosting the growth of the electron beam segment in the global market. In addition, EB curing coating technologies are advanced, eco-friendly, and efficient methods for curing inks, laminating adhesives, and coatings than the traditional solvent or water-based technologies. The electron beam segment was valued at US$ XX Bn in 2020 and is expected to reach US$ XX Bn by 2027 at a CAGR of XX% during the forecast period. On the Basis of chemicals, Epoxy acrylates held major shares of the global market, and also it is expected to dominate the global market during the forecast period also. The epoxy acrylates segment held XX% of the global market in 2020 and is estimated to grow at a CAGR of XX% during the forecast period to reach US$ XX Bn by 2027. The demand for the epoxy acrylates segment is growing due to its superior mechanical and chemical properties. On the basis of application, wood segment held XX% of global market shares in 2020 and is expected to grow at a CAGR of XX% during the forecast period to reach US$ XX Bn by 2027.
Global Energy Curable Coatings Market Regional Insights
North America is leading in the global energy curable coatings market by holding major shares. North America held XX% of global market shares in 2020 and is expected to reach US$ XX Bn by 2027 at a CAGR XX% during the forecast period. The U.S. is the major key contributor to the growth of North America in the global energy curable coating market. The strict environmental regulations from economies in North America and rising acceptance of eco-friendly, low VOC, and non-hazardous coatings in various industries are major growth drivers for the global energy curable market in North America. Asia-Pacific and Europe follow North America by holding 2nd larges The report also helps in understanding Global Energy Curable Coatings Market dynamics, structure by analyzing the market segments and project the Global Energy Curable Coatings Market size. Clear representation of competitive analysis of key players by product, price, financial position, product portfolio, growth strategies, and regional presence in the Global Energy Curable Coatings Market make the report investor’s guide.Scope of the Global Energy Curable Coatings Market: Inquire before Buying
Global Energy Curable Coatings Market Report Coverage Details Base Year: 2020 Forecast Period: 2021-2027 Historical Data: 2016 to 2020 Market Size in 2020: US $ 7.45 Bn. Forecast Period 2021 to 2027 CAGR: 11.7% Market Size in 2027: US $ 16.16 Bn. Segments Covered: by Type • Ultraviolet (UV) • Electron Beam (EB) by Chemical • Epoxy Acrylates • Polyester Acrylates • Urethane Acrylates by Application • Wood • Metal • Plastic • Glass • Paper Global Energy Curable Coatings Market, By Region
• North America • Asia-Pacific • Europe • Latin America • Middle East & AfricaGlobal Energy Curable Coatings market Key Players
The Report provides detail study of the key players of global energy curable coatings market with their growth by conserving past data. In addition to that, report helps reader with the company profile, Company Overview, Financial Overview, Product Portfolio, Business Strategy, Recent Developments and Development Footprint analysis and growth strategies for each. • Allnex • RAHN AG • BASF SE • Royal DSM • Sartomer • PPG Industries Inc. • Akzo Nobel N.V. • The Sherwin-Williams Company • Axalta Coating Systems Ltd LLC • Uflex Chemicals • Simco Groups • Siegwerk • Sun Chemical • Huber Group • ALTANA AG
Global Energy Curable Coatings Market
1. Preface 1.1. Report Scope and Market Segmentation 1.2. Research Highlights 1.3. Research Objectives 2. Assumptions and Research Methodology 2.1. Report Assumptions 2.2. Abbreviations 2.3. Research Methodology 2.3.1. Secondary Research 2.3.1.1. Secondary data 2.3.1.2. Secondary Sources 2.3.2. Primary Research 2.3.2.1. Data from Primary Sources 2.3.2.2. Breakdown of Primary Sources 3. Executive Summary: Global Energy Curable Coatings Market Size, By Market Value (US$ Mn) 4. Market Overview 4.1. Introduction 4.2. Market Indicator 4.2.1. Drivers 4.2.2. Restraints 4.2.3. Opportunities 4.2.4. Challenges 4.3. Porter’s Analysis 4.4. Value Chain Analysis 4.5. Market Risk Analysis 4.6. SWOT Analysis 4.7. Industry Trends and Emerging Technologies 5. Supply Side and Demand Side Indicators 6. Global Energy Curable Coatings Market Analysis and Forecast 6.1. Energy Curable Coatings Market Size & Y-o-Y Growth Analysis 6.1.1. North America 6.1.2. Europe 6.1.3. Asia Pacific 6.1.4. Middle East & Africa 6.1.5. South America 7. Global Energy Curable Coatings Market Analysis and Forecast, By Type 7.1. Introduction and Definition 7.2. Key Findings 7.3. Energy Curable Coatings Market Value Share Analysis, By Type 7.4. Energy Curable Coatings Market Size (US$ Mn) Forecast, By Type 7.5. Energy Curable Coatings Market Analysis, By Type 7.6. Energy Curable Coatings Market Attractiveness Analysis, By Type 8. Global Energy Curable Coatings Market Analysis and Forecast, By Chemical 8.1. Introduction and Definition 8.2. Key Findings 8.3. Energy Curable Coatings Market Value Share Analysis, By Chemical 8.4. Energy Curable Coatings Market Size (US$ Mn) Forecast, By Chemical 8.5. Energy Curable Coatings Market Analysis, By Chemical 8.6. Energy Curable Coatings Market Attractiveness Analysis, By Chemical 9. Global Energy Curable Coatings Market Analysis and Forecast By Application 9.1. Introduction and Definition 9.2. Key Findings 9.3. Energy Curable Coatings Market Value Share Analysis, By Application 9.4. Energy Curable Coatings Market Size (US$ Mn) Forecast, By Application 9.5. Energy Curable Coatings Market Analysis, By Application 9.6. Energy Curable Coatings Market Attractiveness Analysis, By Application 10. Global Energy Curable Coatings Market Analysis, By Region 10.1. Energy Curable Coatings Market Value Share Analysis, By Region 10.2. Energy Curable Coatings Market Size (US$ Mn) Forecast, By Region 10.3. Energy Curable Coatings Market Attractiveness Analysis, By Region 11. North America Energy Curable Coatings Market Analysis 11.1. Key Findings 11.2. North America Energy Curable Coatings Market Overview 11.3. North America Energy Curable Coatings Market Value Share Analysis, By Type 11.4. North America Energy Curable Coatings Market Forecast, By Type 11.4.1. Ultraviolet (UV) 11.4.2. Electron Beam (EB) 11.5. North America Energy Curable Coatings Market Value Share Analysis, By Chemical 11.6. North America Energy Curable Coatings Market Forecast, By Chemical 11.6.1. Epoxy Acrylates 11.6.2. Polyester Acrylates 11.6.3. Urethane Acrylates 11.7. North America Energy Curable Coatings Market Value Share Analysis, By Application 11.8. North America Energy Curable Coatings Market Forecast, By Application 11.8.1. Wood 11.8.2. Metal 11.8.3. Plastic 11.8.4. Glass 11.8.5. Paper 11.9. North America Energy Curable Coatings Market Value Share Analysis, By Country 11.10. North America Energy Curable Coatings Market Forecast, By Country 11.10.1. U.S. 11.10.2. Canada 11.10.3. Mexico 11.11. North America Energy Curable Coatings Market Analysis, By Country 11.12. U.S. Energy Curable Coatings Market Forecast, By Type 11.12.1. Ultraviolet (UV) 11.12.2. Electron Beam (EB) 11.13. U.S. Energy Curable Coatings Market Forecast, By Chemical 11.13.1. Epoxy Acrylates 11.13.2. Polyester Acrylates 11.13.3. Urethane Acrylates 11.14. U.S. Energy Curable Coatings Market Forecast, By Application 11.14.1. Wood 11.14.2. Metal 11.14.3. Plastic 11.14.4. Glass 11.14.5. Paper 11.15. Canada Energy Curable Coatings Market Forecast, By Type 11.15.1. Ultraviolet (UV) 11.15.2. Electron Beam (EB) 11.16. Canada Energy Curable Coatings Market Forecast, By Chemical 11.16.1. Epoxy Acrylates 11.16.2. Polyester Acrylates 11.16.3. Urethane Acrylates 11.17. Canada Energy Curable Coatings Market Forecast, By Application 11.17.1. Wood 11.17.2. Metal 11.17.3. Plastic 11.17.4. Glass 11.17.5. Paper 11.18. Mexico Energy Curable Coatings Market Forecast, By Type 11.18.1. Ultraviolet (UV) 11.18.2. Electron Beam (EB) 11.19. Mexico Energy Curable Coatings Market Forecast, By Chemical 11.19.1. Epoxy Acrylates 11.19.2. Polyester Acrylates 11.19.3. Urethane Acrylates 11.20. Mexico Energy Curable Coatings Market Forecast, By Application 11.20.1. Wood 11.20.2. Metal 11.20.3. Plastic 11.20.4. Glass 11.20.5. Paper 11.21. North America Energy Curable Coatings Market Attractiveness Analysis 11.21.1. By Type 11.21.2. By Chemical 11.21.3. By Application 11.22. PEST Analysis 11.23. Key Trends 11.24. Key Developments 12. Europe Energy Curable Coatings Market Analysis 12.1. Key Findings 12.2. Europe Energy Curable Coatings Market Overview 12.3. Europe Energy Curable Coatings Market Value Share Analysis, By Type 12.4. Europe Energy Curable Coatings Market Forecast, By Type 12.4.1. Ultraviolet (UV) 12.4.2. Electron Beam (EB) 12.5. Europe Energy Curable Coatings Market Value Share Analysis, By Chemical 12.6. Europe Energy Curable Coatings Market Forecast, By Chemical 12.6.1. Epoxy Acrylates 12.6.2. Polyester Acrylates 12.6.3. Urethane Acrylates 12.7. Europe Energy Curable Coatings Market Value Share Analysis, By Application 12.8. Europe Energy Curable Coatings Market Forecast, By Application 12.8.1. Wood 12.8.2. Metal 12.8.3. Plastic 12.8.4. Glass 12.8.5. Paper 12.9. Europe Energy Curable Coatings Market Value Share Analysis, By Country 12.10. Europe Energy Curable Coatings Market Forecast, By Country 12.10.1. Germany 12.10.2. U.K. 12.10.3. France 12.10.4. Italy 12.10.5. Spain 12.10.6. Sweden 12.10.7. CIS countries 12.10.8. Rest of Europe 12.11. Germany Energy Curable Coatings Market Forecast, By Type 12.11.1. Ultraviolet (UV) 12.11.2. Electron Beam (EB) 12.12. Germany Energy Curable Coatings Market Forecast, By Chemical 12.12.1. Epoxy Acrylates 12.12.2. Polyester Acrylates 12.12.3. Urethane Acrylates 12.13. Germany Energy Curable Coatings Market Forecast, By Application 12.13.1. Wood 12.13.2. Metal 12.13.3. Plastic 12.13.4. Glass 12.13.5. Paper 12.14. U.K. Energy Curable Coatings Market Forecast, By Type 12.14.1. Ultraviolet (UV) 12.14.2. Electron Beam (EB) 12.15. U.K. Energy Curable Coatings Market Forecast, By Chemical 12.15.1. Epoxy Acrylates 12.15.2. Polyester Acrylates 12.15.3. Urethane Acrylates 12.16. U.K. Energy Curable Coatings Market Forecast, By Application 12.16.1. Wood 12.16.2. Metal 12.16.3. Plastic 12.16.4. Glass 12.16.5. Paper 12.17. France Energy Curable Coatings Market Forecast, By Type 12.17.1. Ultraviolet (UV) 12.17.2. Electron Beam (EB) 12.18. France Energy Curable Coatings Market Forecast, By Chemical 12.18.1. Epoxy Acrylates 12.18.2. Polyester Acrylates 12.18.3. Urethane Acrylates 12.19. France Energy Curable Coatings Market Forecast, By Application 12.19.1. Wood 12.19.2. Metal 12.19.3. Plastic 12.19.4. Glass 12.19.5. Paper 12.20. Italy Energy Curable Coatings Market Forecast, By Type 12.20.1. Ultraviolet (UV) 12.20.2. Electron Beam (EB) 12.21. Italy Energy Curable Coatings Market Forecast, By Chemical 12.21.1. Epoxy Acrylates 12.21.2. Polyester Acrylates 12.21.3. Urethane Acrylates 12.22. Italy Energy Curable Coatings Market Forecast, By Application 12.22.1. Wood 12.22.2. Metal 12.22.3. Plastic 12.22.4. Glass 12.22.5. Paper 12.23. Spain Energy Curable Coatings Market Forecast, By Type 12.23.1. Ultraviolet (UV) 12.23.2. Electron Beam (EB) 12.24. Spain Energy Curable Coatings Market Forecast, By Chemical 12.24.1. Epoxy Acrylates 12.24.2. Polyester Acrylates 12.24.3. Urethane Acrylates 12.25. Spain Energy Curable Coatings Market Forecast, By Application 12.25.1. Wood 12.25.2. Metal 12.25.3. Plastic 12.25.4. Glass 12.25.5. Paper 12.26. Sweden Energy Curable Coatings Market Forecast, By Type 12.26.1. Ultraviolet (UV) 12.26.2. Electron Beam (EB) 12.27. Sweden Energy Curable Coatings Market Forecast, By Chemical 12.27.1. Epoxy Acrylates 12.27.2. Polyester Acrylates 12.27.3. Urethane Acrylates 12.28. Sweden Energy Curable Coatings Market Forecast, By Application 12.28.1. Wood 12.28.2. Metal 12.28.3. Plastic 12.28.4. Glass 12.28.5. Paper 12.29. CIS countries Energy Curable Coatings Market Forecast, By Type 12.29.1. Ultraviolet (UV) 12.29.2. Electron Beam (EB) 12.30. CIS countries Energy Curable Coatings Market Forecast, By Chemical 12.30.1. Epoxy Acrylates 12.30.2. Polyester Acrylates 12.30.3. Urethane Acrylates 12.31. CIS countries Energy Curable Coatings Market Forecast, By Application 12.31.1. Wood 12.31.2. Metal 12.31.3. Plastic 12.31.4. Glass 12.31.5. Paper 12.32. Rest of Europe Energy Curable Coatings Market Forecast, By Type 12.32.1. Ultraviolet (UV) 12.32.2. Electron Beam (EB) 12.33. Rest of Europe Energy Curable Coatings Market Forecast, By Chemical 12.33.1. Epoxy Acrylates 12.33.2. Polyester Acrylates 12.33.3. Urethane Acrylates 12.34. Rest of Europe Energy Curable Coatings Market Forecast, By Application 12.34.1. Wood 12.34.2. Metal 12.34.3. Plastic 12.34.4. Glass 12.34.5. Paper 12.35. Europe Energy Curable Coatings Market Attractiveness Analysis 12.35.1. By Type 12.35.2. By Chemical 12.35.3. By Application 12.36. PEST Analysis 12.37. Key Trends 12.38. Key Developments 13. Asia Pacific Energy Curable Coatings Market Analysis 13.1. Key Findings 13.2. Asia Pacific Energy Curable Coatings Market Overview 13.3. Asia Pacific Energy Curable Coatings Market Value Share Analysis, By Type 13.4. Asia Pacific Energy Curable Coatings Market Forecast, By Type 13.4.1. Ultraviolet (UV) 13.4.2. Electron Beam (EB) 13.5. Asia Pacific Energy Curable Coatings Market Value Share Analysis, By Chemical 13.6. Asia Pacific Energy Curable Coatings Market Forecast, By Chemical 13.6.1. Epoxy Acrylates 13.6.2. Polyester Acrylates 13.6.3. Urethane Acrylates 13.7. Asia Pacific Energy Curable Coatings Market Value Share Analysis, By Application 13.8. Asia Pacific Energy Curable Coatings Market Forecast, By Application 13.8.1. Wood 13.8.2. Metal 13.8.3. Plastic 13.8.4. Glass 13.8.5. Paper 13.9. Asia Pacific Energy Curable Coatings Market Value Share Analysis, By Country 13.10. Asia Pacific Energy Curable Coatings Market Forecast, By Country 13.10.1. China 13.10.2. India 13.10.3. Japan 13.10.4. South Korea 13.10.5. Australia 13.10.6. ASEAN 13.10.7. Rest of Asia Pacific 13.11. Asia Pacific Energy Curable Coatings Market Analysis, By Country 13.12. China Energy Curable Coatings Market Forecast, By Type 13.12.1. Ultraviolet (UV) 13.12.2. Electron Beam (EB) 13.13. China Energy Curable Coatings Market Forecast, By Chemical 13.13.1. Epoxy Acrylates 13.13.2. Polyester Acrylates 13.13.3. Urethane Acrylates 13.14. China Energy Curable Coatings Market Forecast, By Application 13.14.1. Wood 13.14.2. Metal 13.14.3. Plastic 13.14.4. Glass 13.14.5. Paper 13.15. India Energy Curable Coatings Market Forecast, By Type 13.15.1. Ultraviolet (UV) 13.15.2. Electron Beam (EB) 13.16. India Energy Curable Coatings Market Forecast, By Chemical 13.16.1. Epoxy Acrylates 13.16.2. Polyester Acrylates 13.16.3. Urethane Acrylates 13.17. India Energy Curable Coatings Market Forecast, By Application 13.17.1. Wood 13.17.2. Metal 13.17.3. Plastic 13.17.4. Glass 13.17.5. Paper 13.18. Japan Energy Curable Coatings Market Forecast, By Type 13.18.1. Ultraviolet (UV) 13.18.2. Electron Beam (EB) 13.19. Japan Energy Curable Coatings Market Forecast, By Chemical 13.19.1. Epoxy Acrylates 13.19.2. Polyester Acrylates 13.19.3. Urethane Acrylates 13.20. Japan Energy Curable Coatings Market Forecast, By Application 13.20.1. Wood 13.20.2. Metal 13.20.3. Plastic 13.20.4. Glass 13.20.5. Paper 13.21. South Korea Energy Curable Coatings Market Forecast, By Type 13.21.1. Ultraviolet (UV) 13.21.2. Electron Beam (EB) 13.22. South Korea Energy Curable Coatings Market Forecast, By Chemical 13.22.1. Epoxy Acrylates 13.22.2. Polyester Acrylates 13.22.3. Urethane Acrylates 13.23. South Korea Energy Curable Coatings Market Forecast, By Application 13.23.1. Wood 13.23.2. Metal 13.23.3. Plastic 13.23.4. Glass 13.23.5. Paper 13.24. Australia Energy Curable Coatings Market Forecast, By Type 13.24.1. Ultraviolet (UV) 13.24.2. Electron Beam (EB) 13.25. Australia Energy Curable Coatings Market Forecast, By Chemical 13.25.1. Epoxy Acrylates 13.25.2. Polyester Acrylates 13.25.3. Urethane Acrylates 13.26. Australia Energy Curable Coatings Market Forecast, By Application 13.26.1. Wood 13.26.2. Metal 13.26.3. Plastic 13.26.4. Glass 13.26.5. Paper 13.27. ASEAN Energy Curable Coatings Market Forecast, By Type 13.27.1. Ultraviolet (UV) 13.27.2. Electron Beam (EB) 13.28. ASEAN Energy Curable Coatings Market Forecast, By Chemical 13.28.1. Epoxy Acrylates 13.28.2. Polyester Acrylates 13.28.3. Urethane Acrylates 13.29. ASEAN Energy Curable Coatings Market Forecast, By Application 13.29.1. Wood 13.29.2. Metal 13.29.3. Plastic 13.29.4. Glass 13.29.5. Paper 13.30. Rest of Asia Pacific Energy Curable Coatings Market Forecast, By Type 13.30.1. Ultraviolet (UV) 13.30.2. Electron Beam (EB) 13.31. Rest of Asia Pacific Energy Curable Coatings Market Forecast, By Chemical 13.31.1. Epoxy Acrylates 13.31.2. Polyester Acrylates 13.31.3. Urethane Acrylates 13.32. Rest of Asia Pacific Energy Curable Coatings Market Forecast, By Application 13.32.1. Wood 13.32.2. Metal 13.32.3. Plastic 13.32.4. Glass 13.32.5. Paper 13.33. Asia Pacific Energy Curable Coatings Market Attractiveness Analysis 13.33.1. By Type 13.33.2. By Chemical 13.33.3. By Application 13.34. PEST Analysis 13.35. Key Trends 13.36. Key Developments 14. Middle East & Africa Energy Curable Coatings Market Analysis 14.1. Key Findings 14.2. Middle East & Africa Energy Curable Coatings Market Overview 14.3. Middle East & Africa Energy Curable Coatings Market Value Share Analysis, By Type 14.4. Middle East & Africa Energy Curable Coatings Market Forecast, By Type 14.4.1. Ultraviolet (UV) 14.4.2. Electron Beam (EB) 14.5. Middle East & Africa Energy Curable Coatings Market Value Share Analysis, By Chemical 14.6. Middle East & Africa Energy Curable Coatings Market Forecast, By Chemical 14.6.1. Epoxy Acrylates 14.6.2. Polyester Acrylates 14.6.3. Urethane Acrylates 14.7. Middle East & Africa Energy Curable Coatings Market Value Share Analysis, By Application 14.8. Middle East & Africa Energy Curable Coatings Market Forecast, By Application 14.8.1. Wood 14.8.2. Metal 14.8.3. Plastic 14.8.4. Glass 14.8.5. Paper 14.9. Middle East & Africa Energy Curable Coatings Market Value Share Analysis, By Country 14.10. Middle East & Africa Energy Curable Coatings Market Forecast, By Country 14.10.1. GCC Countries 14.10.2. South Africa 14.10.3. Nigeria 14.10.4. Egypt 14.10.5. Rest of Middle East & Africa 14.11. Middle East & Africa Energy Curable Coatings Market Analysis, By Country 14.12. GCC Countries Energy Curable Coatings Market Forecast, By Type 14.12.1. Ultraviolet (UV) 14.12.2. Electron Beam (EB) 14.13. GCC Countries Energy Curable Coatings Market Forecast, By Chemical 14.13.1. Epoxy Acrylates 14.13.2. Polyester Acrylates 14.13.3. Urethane Acrylates 14.14. GCC Countries Energy Curable Coatings Market Forecast, By Application 14.14.1. Wood 14.14.2. Metal 14.14.3. Plastic 14.14.4. Glass 14.14.5. Paper 14.15. South Africa Energy Curable Coatings Market Forecast, By Type 14.15.1. Ultraviolet (UV) 14.15.2. Electron Beam (EB) 14.16. South Africa Energy Curable Coatings Market Forecast, By Chemical 14.16.1. Epoxy Acrylates 14.16.2. Polyester Acrylates 14.16.3. Urethane Acrylates 14.17. South Africa Energy Curable Coatings Market Forecast, By Application 14.17.1. Wood 14.17.2. Metal 14.17.3. Plastic 14.17.4. Glass 14.17.5. Paper 14.18. Nigeria Energy Curable Coatings Market Forecast, By Type 14.18.1. Ultraviolet (UV) 14.18.2. Electron Beam (EB) 14.19. Nigeria Energy Curable Coatings Market Forecast, By Chemical 14.19.1. Epoxy Acrylates 14.19.2. Polyester Acrylates 14.19.3. Urethane Acrylates 14.20. Nigeria Energy Curable Coatings Market Forecast, By Application 14.20.1. Wood 14.20.2. Metal 14.20.3. Plastic 14.20.4. Glass 14.20.5. Paper 14.21. Egypt Energy Curable Coatings Market Forecast, By Type 14.21.1. Ultraviolet (UV) 14.21.2. Electron Beam (EB) 14.22. Egypt Energy Curable Coatings Market Forecast, By Chemical 14.22.1. Epoxy Acrylates 14.22.2. Polyester Acrylates 14.22.3. Urethane Acrylates 14.23. Egypt Energy Curable Coatings Market Forecast, By Application 14.23.1. Wood 14.23.2. Metal 14.23.3. Plastic 14.23.4. Glass 14.23.5. Paper 14.24. Rest of Middle East & Africa Energy Curable Coatings Market Forecast, By Type 14.24.1. Ultraviolet (UV) 14.24.2. Electron Beam (EB) 14.25. Rest of Middle East & Africa Energy Curable Coatings Market Forecast, By Chemical 14.25.1. Epoxy Acrylates 14.25.2. Polyester Acrylates 14.25.3. Urethane Acrylates 14.26. Rest of Middle East & Africa Energy Curable Coatings Market Forecast, By Application 14.26.1. Wood 14.26.2. Metal 14.26.3. Plastic 14.26.4. Glass 14.26.5. Paper 14.27. Middle East & Africa Energy Curable Coatings Market Attractiveness Analysis 14.27.1. By Type 14.27.2. By Chemical 14.27.3. By Application 14.28. PEST Analysis 14.29. Key Trends 14.30. Key Developments 15. South America Energy Curable Coatings Market Analysis 15.1. Key Findings 15.2. South America Energy Curable Coatings Market Overview 15.3. South America Energy Curable Coatings Market Value Share Analysis, By Type 15.4. South America Energy Curable Coatings Market Forecast, By Type 15.4.1. Ultraviolet (UV) 15.4.2. Electron Beam (EB) 15.5. South America Energy Curable Coatings Market Value Share Analysis, By Chemical 15.6. South America Energy Curable Coatings Market Forecast, By Chemical 15.6.1. Epoxy Acrylates 15.6.2. Polyester Acrylates 15.6.3. Urethane Acrylates 15.7. South America Energy Curable Coatings Market Value Share Analysis, By Application 15.8. South America Energy Curable Coatings Market Forecast, By Application 15.8.1. Wood 15.8.2. Metal 15.8.3. Plastic 15.8.4. Glass 15.8.5. Paper 15.9. South America Energy Curable Coatings Market Value Share Analysis, By Country 15.10. South America Energy Curable Coatings Market Forecast, By Country 15.10.1. Brazil 15.10.2. Colombia 15.10.3. Argentina 15.10.4. Rest of South America 15.11. South America Energy Curable Coatings Market Analysis, By Country 15.12. Brazil Energy Curable Coatings Market Forecast, By Type 15.12.1. Ultraviolet (UV) 15.12.2. Electron Beam (EB) 15.13. Brazil Energy Curable Coatings Market Forecast, By Chemical 15.13.1. Epoxy Acrylates 15.13.2. Polyester Acrylates 15.13.3. Urethane Acrylates 15.14. Brazil Energy Curable Coatings Market Forecast, By Application 15.14.1. Wood 15.14.2. Metal 15.14.3. Plastic 15.14.4. Glass 15.14.5. Paper 15.15. Colombia Energy Curable Coatings Market Forecast, By Type 15.15.1. Ultraviolet (UV) 15.15.2. Electron Beam (EB) 15.16. Colombia Energy Curable Coatings Market Forecast, By Chemical 15.16.1. Epoxy Acrylates 15.16.2. Polyester Acrylates 15.16.3. Urethane Acrylates 15.17. Colombia Energy Curable Coatings Market Forecast, By Application 15.17.1. Wood 15.17.2. Metal 15.17.3. Plastic 15.17.4. Glass 15.17.5. Paper 15.18. Argentina Energy Curable Coatings Market Forecast, By Type 15.18.1. Ultraviolet (UV) 15.18.2. Electron Beam (EB) 15.19. Argentina Energy Curable Coatings Market Forecast, By Chemical 15.19.1. Epoxy Acrylates 15.19.2. Polyester Acrylates 15.19.3. Urethane Acrylates 15.20. Argentina Energy Curable Coatings Market Forecast, By Application 15.20.1. Wood 15.20.2. Metal 15.20.3. Plastic 15.20.4. Glass 15.20.5. Paper 15.21. Rest of South America Energy Curable Coatings Market Forecast, By Type 15.21.1. Ultraviolet (UV) 15.21.2. Electron Beam (EB) 15.22. Rest of South America Energy Curable Coatings Market Forecast, By Chemical 15.22.1. Epoxy Acrylates 15.22.2. Polyester Acrylates 15.22.3. Urethane Acrylates 15.23. Rest of South America Energy Curable Coatings Market Forecast, By Application 15.23.1. Wood 15.23.2. Metal 15.23.3. Plastic 15.23.4. Glass 15.23.5. Paper 15.24. South America Energy Curable Coatings Market Attractiveness Analysis 15.24.1. By Type 15.24.2. By Chemical 15.24.3. By Application 15.25. PEST Analysis 15.26. Key Trends 15.27. Key Developments 16. Company Profiles 16.1. Market Share Analysis, By Company 16.2. Competition Matrix 16.2.1. Competitive Benchmarking of key players By price, presence, market share, Component, and R&D investment 16.2.2. New Product Launches and Product Enhancements 16.2.3. Market Consolidation 16.2.3.1. M&A By Regions, Investment and Component 16.2.3.2. M&A Key Players, Forward Integration and Backward Integration 16.3. Company Profiles: Key Players 16.3.1. Allnex 16.3.1.1. Company Overview 16.3.1.2. Financial Overview 16.3.1.3. Product Portfolio 16.3.1.4. Business Strategy 16.3.1.5. Recent Developments 16.3.1.6. Development Footprint 16.3.2. RAHN AG 16.3.3. BASF SE 16.3.4. Royal DSM 16.3.5. Sartomer 16.3.6. PPG Industries Inc. 16.3.7. Akzo Nobel N.V. 16.3.8. The Sherwin-Williams Company 16.3.9. Axalta Coating Systems Ltd LLC 16.3.10. Uflex Chemicals 16.3.11. Simco Groups 16.3.12. Siegwerk 16.3.13. Sun Chemical 16.3.14. Huber Group 16.3.15. ALTANA AG 17. Primary key Insights