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UV Structural Adhesives Market, Opportunity, Growth Drivers, Industry Trend Analysis and Forecast, 2025-2034

Publisher Global Market Insights
Published Dec 09, 2025
Length 555 Pages
SKU # GMI20694372

Description

The Global UV Structural Adhesives Market was valued at USD 830.5 million in 2024 and is estimated to grow at a CAGR of 10.2% to reach USD 2.1 billion by 2034.

Market growth is driven by increasing demand for high-performance bonding solutions across electronics, automotive, medical devices, and industrial manufacturing. UV structural adhesives offer rapid curing, high bond strength, and excellent resistance to chemicals, heat, and vibration, making them ideal for precision applications where durability and efficiency are critical. The shift toward lightweight materials, miniaturization of electronic components, and automation in manufacturing processes is accelerating adoption. In addition, stricter environmental regulations encouraging solvent-free and energy-efficient bonding technologies are further supporting the transition from conventional adhesives to UV-curable structural systems.

The UV-Only Systems segment reached USD 362.2 million in 2024, driven by its ability to deliver rapid curing, high bond strength, and precise process control in applications requiring fast production cycles. UV-only systems cure exclusively under ultraviolet light, enabling instant bonding without the need for heat or secondary curing steps, which significantly reduces energy consumption and manufacturing time. These systems are widely adopted in electronics, medical devices, and optical assemblies where heat-sensitive substrates, tight tolerances, and clean processing environments are critical.

In terms of end-use, electronics and electrical applications accounted for USD 286.2 million in 2024, driven by the growing production of smartphones, wearables, sensors, and other compact electronic devices. UV structural adhesives are extensively used in electronics for bonding displays, circuit boards, and micro-components due to their precision curing and minimal thermal stress. The increasing complexity of electronic assemblies and demand for miniaturized designs are driving manufacturers to adopt UV-curable adhesives that offer strong bonds without compromising component integrity, reinforcing segment growth.

Asia Pacific UV Structural Adhesives Market reached USD 916.8 million in 2024, supported by strong electronics manufacturing hubs, expanding automotive production, and rapid industrialization. Countries such as China, Japan, and South Korea benefit from advanced manufacturing infrastructure and high adoption of automated bonding technologies. The region’s dominance is further reinforced by increasing investments in electric vehicles, consumer electronics, and medical device manufacturing, all of which rely heavily on UV structural adhesive solutions.

Key players operating in the UV Structural Adhesives Market include Henkel AG & Co. KGaA, 3M Company, H.B. Fuller Company, Arkema S.A., Sika AG, Dymax Corporation, Permabond LLC, Panacol-Elosol GmbH, Master Bond Inc., and DELO Industrie Klebstoffe GmbH & Co. KGaA. These companies compete through advanced formulations, strong distribution networks, and application-specific product offerings. Companies operating in the UV Structural Adhesives Market are focusing on product innovation and application-specific solutions to strengthen their market position. Leading players invest heavily in R&D to develop fast-curing, high-strength, and environmentally compliant formulations tailored for electronics, automotive, and medical applications. Strategic collaborations with OEMs and electronics manufacturers are widely adopted to ensure early integration of adhesive solutions into product designs. Firms are also expanding regional manufacturing capacities to improve supply chain efficiency and reduce lead times.

Table of Contents

555 Pages
Chapter 1 Methodology & Scope
1.1 Market scope & definitions
1.2 Research design
1.2.1 Research approach
1.2.2 Data collection methods
1.3 Data mining sources
1.3.1 Global
1.3.2 Regional /country
1.4 Base estimate & calculations
1.4.1 Base year calculations
1.4.2 Key trends for market estimation
1.5 Primary research and validation
1.5.1 Primary sources
1.6 Forecast model
1.7 Research assumptions & limitations
1.7.1 Research Assumptions
1.7.2 Research limitations
Chapter 2 Executive Summary
2.1 UV structural adhesives industry 3600 synopsis, 2024
2.2 Business trends
2.2.1 Chemistry type trends
2.2.2 Curing technology trends
2.2.3 Application trends
2.2.4 Region trends
2.3 TAM Analysis, 2025-2034
2.4 CXO perspectives: Strategic imperatives
2.4.1 Executive decision points
2.4.2 Critical success factors
2.5 Future outlook and strategic recommendations
Chapter 3 UV Structural Adhesives Industry Insights
3.1 Industry ecosystem analysis
3.1.1 Raw materials suppliers (monomers, photoinitiators, oligomers)
3.1.2 Adhesive manufacturers and formulators
3.1.3 Equipment suppliers (UV/LED curing systems)
3.1.4 Distribution channels and market access
3.1.5 End-user industries and application integration
3.1.6 Value addition and profit margin analysis by stage
3.1.6.1 Profit Margin
3.1.6.2 Value addition at each stage
3.1.7 Supply chain integration and vertical integration trends
3.1.8 Factor affecting the value chain
3.1.9 Disruption
3.2 Industry impact forces
3.2.1 Growth drivers
3.2.1.1 Electronics miniaturization driving precision bonding
demand
3.2.1.2 Regulatory pressures favoring solvent-free UV
systems
3.2.1.3 Medical device innovation requiring biocompatible
solutions
3.2.2 Industry pitfalls and challenges
3.2.2.1 REACH restrictions on traditional raw materials
3.2.2.2 Supply chain concentration in Asian markets
3.2.3 Market opportunities
3.2.3.1 Rising adoption of electric vehicles (EVs)
3.2.3.2 Increasing demand for renewable energy
applications
3.3 Growth potential analysis
3.4 Porter’s analysis
3.5 PESTEL analysis
3.6 Future Market Trends
3.7 Current and emerging technological landscape by region
3.7.1 UV-only technology: Performance optimization and limitations
3.7.2 Dual-cure technology evolution and market penetration
3.7.2.1 UV + heat systems: Low-temperature innovations
3.7.2.2 UV + moisture systems: Atmospheric cure
mechanisms
3.7.2.3 UV + anaerobic systems: Shadow cure solutions
3.7.3 LED-UV technology adoption and performance advances
3.7.3.1 Wavelength optimization (365nm, 385nm, 395nm,
405nm)
3.7.3.2 Energy efficiency and environmental benefits
3.7.3.3 Photoinitiator compatibility and formulation
challenges
3.7.4 Emerging Technologies
3.7.4.1 Visible light curing systems
3.7.4.2 Electron beam (EB) curing integration
3.7.4.3 Hybrid curing technologies
3.7.4.4 AI-controlled curing systems and process
optimization
3.7.5 Next-generation chemistry platforms
3.7.5.1 Germanium-based photoinitiators
3.7.5.2 Bio-based monomer and oligomer systems
3.7.5.3 Debonding-on-demand technologies
3.7.5.4 Self-healing and smart adhesive systems
3.7.6 Technology adoption curves and market readiness assessment
3.8 Pricing analysis and market economics by region
3.8.1 North America
3.8.2 Europe
3.8.3 Asia Pacific
3.8.4 Latin America
3.8.5 Middle East and Africa
3.8.6 Historical price trends by chemistry type (2019–2024)(USD/Kg)
3.8.7 Price variations and factors
3.8.7.1 Premium pricing analysis
3.8.7.2 Cost competitiveness
3.8.7.3 Raw material cost pass-through mechanisms
3.8.8 Price-performance analysis by application segment
3.8.9 Future pricing projections and scenario analysis
3.8.10 Value-based pricing opportunities in premium segments
3.9 Cost structure and manufacturing economics
3.9.1 Raw material cost components (55–65% of total cost)
3.9.1.1 Monomer and oligomer costs
3.9.1.2 Photoinitiator cost impact (8–12% by cost)
3.9.1.3 Additive and filler cost analysis
3.9.2 Manufacturing and processing costs (15–20% of total cost)
3.9.3 R&D and innovation investment requirements (5–8% of revenue)
3.9.4 Regulatory compliance and testing costs
3.9.5 Distribution and logistics cost analysis
3.9.6 Cost optimization strategies and economies of scale
3.10 Supply-demand dynamics and market balance by region
3.10.1 Production capacity analysis by region
3.10.2 Demand growth vs. Capacity expansion
3.10.3 Import-export flows and trade patterns
3.10.4 Inventory levels and supply chain buffers
3.10.5 Seasonal demand variations by application
3.10.6 Supply shortage risk assessment and mitigation
3.11 Performance benchmarking and standards
3.11.1 Key performance indicators by application
3.11.1.1 Cure speed and processing efficiency
3.11.1.2 Bond strength and durability metrics
3.11.1.3 Optical properties and clarity standards
3.11.1.4 Temperature and chemical resistance
3.11.2 Industry testing standards and certification requirements
3.11.3 Comparative performance analysis: UV vs. Traditional adhesives
3.11.4 Performance-cost trade-off analysis
3.11.5 Performance differentiation to market advantage translation matrix
3.11.5.1 Mechanical strength premium pricing analysis
3.11.5.2 Optical clarity market share correlation
3.11.5.3 Curing speed competitive advantage quantification
3.11.5.4 Biocompatibility market access and pricing power
3.12 Patent landscape
3.13 Trade statistics (HS Code)
3.13.1 Major importing countries (HS Code: 350691) (USD Thousand)
3.13.2 Major exporting countries (HS Code: 350691) (USD Thousand)
Chapter 4 Competitive Landscape, 2024
4.1 Introduction
4.2 Global Company market share analysis
4.2.1 By region
4.2.1.1 North America
4.2.1.2 Europe
4.2.1.3 Asia Pacific
4.2.1.4 Latin America
4.2.1.5 Middle East & Africa
4.3 Vendor Product Portfolio Comparison Matrix
4.3.1 Product portfolio breadth and depth analysis
4.3.2 Technology leadership heatmap
4.4 Key player strategic overview
4.4.1 Global leaders strategic positioning
4.4.1.1 Innovation leadership strategy
4.4.1.2 Market penetration and scale strategy
4.4.1.3 Application specialization strategy
4.4.1.4 Integrated value chain strategy
4.4.2 Regional champions positioning
4.4.2.1 Technology excellence strategy
4.4.2.2 Niche leadership strategy
4.4.2.3 Application focus strategy
4.4.2.4 Construction integration strategy
4.4.3 Specialty Players Strategic Niches
4.4.3.1 Medical Device Specialization
4.4.3.2 Equipment Integration Model
4.4.3.3 Optical Applications Focus
4.5 Competitive financial performance analysis
4.5.1 Revenue and profitability comparison (2024)
4.5.2 Growth performance analysis (2019–2024 CAGR)
4.5.3 R&D investment and innovation metrics
4.6 Strategic initiatives and competitive moves analysis
4.6.1 Merger & Acquisition
4.6.2 New product launch
4.6.3 New Development
4.7 Customer base and market positioning analysis
4.7.1 Customer concentration and dependency
4.7.2 Market positioning heatmap by application
4.7.3 Geographic presence and coverage analysis
4.8 Competitive intelligence and market dynamics
4.8.1 Pricing strategy analysis
4.8.2 Distribution channel comparison
4.8.3 Technology differentiation strategies
4.9 Competitive positioning strategy for koel services France
4.9.1 White space analysis and market gaps
4.9.2 Differentiation strategy framework
4.9.3 Competitive response scenarios
4.9.4 Strategic partnership and alliance opportunities
4.10 Competitive threat assessment and early warning system
4.10.1 New entrant monitoring framework
4.10.2 Technology disruption risk assessment
4.10.3 Patent expiration and generic competition timeline
4.10.4 Regulatory change impact on competitive dynamics
Chapter 5 Regulatory Landscape and Compliance Framework by Region
5.1 REACH regulation impact on UV adhesives
5.1.1 Registration requirements for key raw materials
5.1.2 SVHC candidate list: current and projected impacts
5.1.3 Restriction analysis (Annex XVII): TMPTA, TPO, and emerging restrictions
5.1.4 Authorization requirements and timeline implications
5.2 Medical device regulations (MDR) compliance
5.2.1 ISO 10993 biocompatibility requirements
5.2.2 Sterilization Compatibility Standards
5.2.3 CE marking and technical documentation requirements
5.2.4 Risk classification and conformity assessment procedures
5.3 Cosmetic and packaging safety standards
5.3.1 EU cosmetics regulation compliance
5.3.2 Food contact materials regulations
5.3.3 Migration testing and safety assessment requirements
5.3.4 Labeling and consumer information obligations
5.4 Environmental and workplace safety regulations
5.4.1 CLP classification and labeling requirements
5.4.2 Occupational exposure limits and worker protection
5.4.3 Waste management and disposal regulations
5.4.4 Microplastics regulation impact assessment
5.5 Regulatory compliance strategy framework
5.5.1 Risk-based compliance prioritization matrix
5.5.2 Regulatory timeline and implementation roadmap
5.5.3 Cost-benefit analysis of compliance investments
5.5.4 Competitive advantage through regulatory leadership
5.6 International regulatory harmonization and FDA impact
5.6.1 FDA regulations impact on European medical device exports
5.6.2 FDA 510(k) and PMA requirements for UV adhesives in medical devices
5.6.3 FDA food contact substance regulations for packaging applications
5.6.4 Regulatory harmonization opportunities and challenges
5.6.5 Global regulatory strategy for European manufacturers
Chapter 6 Raw Materials Analysis and Supply Chain Strategy
6.1 Critical raw materials landscape
6.1.1 Monomers and oligomers supply analysis
6.1.1.1 Acrylate monomers (TMPTA, HDDA, IBOA, PETA)
6.1.1.2 Urethane acrylate oligomers
6.1.1.3 Epoxy acrylate oligomers
6.1.1.4 Specialty monomers and reactive diluents
6.1.2 Photoinitiators market dynamics and regulatory pressures
6.1.2.1 Type I photoinitiators (Benzoin Ethers,
Acetophenones)
6.1.2.2 Type II photoinitiator systems (Benzophenones,
Thioxanthones)
6.1.2.3 Phosphine oxide photoinitiators (TPO, BAPO)
6.1.2.4 Emerging Germanium-based and safe alternatives
6.1.3 Additives and specialty components
6.1.3.1 Adhesion promoters and coupling agents
6.1.3.2 Stabilizers and antioxidants
6.1.3.3 Fillers and reinforcing agents
6.1.3.4 Flow control and rheology modifiers
6.1.4 Supply chain concentration and geographic risks
6.1.4.1 China dependency analysis
6.1.4.2 European production capacity assessment
6.1.4.3 Supply chain vulnerability mapping
6.2 Pricing trends and cost structure analysis
6.2.1 Historical price volatility and drivers (2019–2024)
6.2.2 Regulatory impact on raw material costs
6.2.2.1 TMPTA substitution cost impact (+15–25%)
6.2.2.2 TPO replacement economics
6.2.2.3 REACH compliance cost pass-through
6.2.3 Supply-demand balance and future projections
6.2.4 Cost optimization strategies and procurement best practices
6.3 Substitution and alternative materials assessment
6.3.1 TMPTA alternatives: Performance and cost analysis
6.3.1.1 Acrylates performance comparison
6.3.1.2 Cost-performance trade-off analysis
6.3.1.3 Market acceptance and adoption timeline
6.3.2 TPO photoinitiator replacements: TMO and germanium-based options
6.3.2.1 TMO (Trimethylbenzoyl Phosphine Oxide)
assessment
6.3.2.2 Germanium-based photoinitiator evaluation
6.3.2.3 Performance benchmarking and cost analysis
6.3.3 Bio-based and sustainable raw material options
6.3.3.1 Bio-based acrylate monomers development
6.3.3.2 Renewable oligomer technologies
6.3.3.3 Sustainability premium and market acceptance
6.3.4 Innovation pipeline and emerging technologies
6.3.4.1 Next generation photoinitiator systems
6.3.4.2 Smart and responsive raw materials
6.3.4.3 Circular economy compatible materials
6.4 Strategic sourcing recommendations for KOEL Services France
6.4.1 Preferred supplier network development
6.4.1.1 Tier 1 strategic supplier identification
6.4.1.2 Regional supplier ecosystem mapping
6.4.1.3 Supplier relationship management strategy
6.4.2 Long-term supply agreements and risk sharing
6.4.2.1 Contract structure and pricing mechanisms
6.4.2.2 Volume commitments and flexibility clauses
6.4.2.3 Risk sharing and incentive alignment
6.4.3 Innovation partnerships with raw material suppliers
6.4.3.1 Co-development program structure
6.4.3.2 IP sharing and technology transfer agreements
6.4.3.3 Joint R&D investment models
6.4.4 Regional sourcing strategy for European operations
6.4.4.1 Local content requirements and benefits
6.4.4.2 Transportation and logistics optimization
6.4.4.3 Currency hedging and financial risk management
Chapter 7 Innovation Opportunities and Technology Roadmap
7.1 Dual-cure technology development priorities
7.1.1 Market demand analysis and growth projections
7.1.2 Technical performance requirements by application
7.1.3 Competitive landscape and differentiation opportunities
7.1.4 R&D investment requirements and ROI analysis
7.2 Biocompatible formulations for medical applications
7.2.1 ISO 10993 compliance pathway and testing requirements
7.2.2 Sterilization-resistant formulation strategies
7.2.3 Market opportunity sizing and premium pricing potential
7.2.4 Regulatory approval timeline and investment requirements
7.3 Optical bonding adhesives innovation
7.3.1 High-performance requirements and technical challenges
7.3.2 Market niche analysis and competitive positioning
7.3.3 Technology partnership and licensing opportunities
7.3.4 Market entry strategy and customer development
7.4 Sustainable and bio-based formulations
7.4.1 Market demand drivers and regulatory requirements
7.4.2 Bio-based raw material options and performance trade-offs
7.4.3 Debonding-on-demand technology assessment
7.4.4 Sustainability marketing and brand positioning
7.5 Non-sensitizing formulation development
7.5.1 Contact dermatitis risk assessment and market impact
7.5.2 Alternative acrylate chemistry for reduced sensitization
7.5.3 Market demand analysis for non-sensitizing products
7.5.4 Regulatory requirements and testing protocols
7.6 Innovation investment prioritization matrix
7.6.1 Market opportunity vs. technical risk assessment
7.6.2 Resource allocation recommendations
7.6.3 Timeline and milestone framework
7.6.4 Success metrics and performance indicators
7.7 Technology investment ROI and payback analysis
7.7.1 Dual-cure technology: Investment vs. Market return analysis
7.7.2 Biocompatible formulations: Premium pricing ROI model
7.7.3 Optical bonding: Niche market investment justification
7.7.4 Risk-adjusted NPV analysis by innovation track
Chapter 8 UV structural adhesives Market, By Chemistry Type
8.1 Key chemistry type trends
8.2 UV-curable acrylics
8.2.1 UV structural adhesives market size for UV-curable acrylics, (Tons) (USD
Thousand)
8.3 UV-curable epoxies
8.3.1 UV structural adhesives market size for UV-curable epoxies, (Tons) (USD
Thousand)
8.4 UV-curable silicones
8.4.1 UV structural adhesives market size for UV-curable silicones, (Tons) (USD
Thousand)
8.5 UV-curable polyurethanes
8.5.1 UV structural adhesives market size for UV-curable polyurethanes, (Tons) (USD
Thousand)
8.6 Others (specialty chemistries)
8.6.1 UV structural adhesives market size for Others (specialty chemistries), (Tons)
(USD Thousand)
Chapter 9 UV structural adhesives Market, By Curing Technology
9.1 Key curing technology trends
9.2 UV-only systems
9.2.1 UV structural adhesives market size for UV-only systems, (Tons) (USD
Thousand)
9.3 Dual-cure systems
9.3.1 UV structural adhesives market size for Dual-cure systems, (Tons) (USD
Thousand)
9.3.2 UV+heat
9.3.2.1 UV structural adhesives market size for UV+heat, (Tons) (USD Thousand)
9.3.3 UV+moisture
9.3.3.1 UV structural adhesives market size for UV+moisture, (Tons) (USD Thousand)
9.3.4 UV+anaerobic
9.3.4.1 UV structural adhesives market size for UV+anaerobic, (Tons) (USD Thousand)
9.4 LED-UV compatible systems
9.4.1 UV structural adhesives market size for LED-UV compatible systems, (Tons) (USD
Thousand)
Chapter 10 UV structural adhesives Market, By Application
10.1 Key application trends
10.2 Electronics and electrical applications
10.2.1 UV structural adhesives market size for electronics and electrical applications,
(Tons) (USD Thousand)
10.2.2 PCB assembly
10.2.2.1 UV structural adhesives market size for PCB assembly, (Tons) (USD Thousand) .
10.2.3 Display bonding
10.2.3.1 UV structural adhesives market size for Display bonding, (Tons) (USD
Thousand)
10.2.4 Component encapsulation
10.2.4.1 UV structural adhesives market size for Component encapsulation, (Tons) (USD
Thousand)
10.3 Medical devices applications
10.3.1 UV structural adhesives market size for medical devices applications, (Tons)
(USD Thousand)
10.3.2 Disposables
10.3.2.1 UV structural adhesives market size for disposables, (Tons) (USD Thousand)
10.3.3 Surgical instruments
10.3.3.1 UV structural adhesives market size for Surgical instruments, (Tons) (USD
Thousand)
10.3.4 Implantables
10.3.4.1 UV structural adhesives market size for implantables, (Tons) (USD Thousand)
10.3.5 Wearables
10.3.5.1 UV structural adhesives market size for wearables, (Tons) (USD Thousand)
10.4 Cosmetics and packaging applications
10.4.1 UV structural adhesives market size for cosmetics and packaging applications,
(Tons) (USD Thousand)
10.4.2 Luxury cosmetics
10.4.2.1 UV structural adhesives market size for luxury cosmetics, (Tons) (USD
Thousand)
10.4.3 Flexible packaging
10.4.3.1 UV structural adhesives market size for flexible packaging, (Tons) (USD
Thousand)
10.4.4 Labels
10.4.4.1 UV structural adhesives market size for labels, (Tons) (USD Thousand)
10.5 General industry and industrial assembly applications
10.5.1 UV structural adhesives market size for general industry and industrial assembly
applications, (Tons) (USD Thousand)
10.5.2 General manufacturing and assembly
10.5.2.1 UV structural adhesives market size for general manufacturing and assembly,
(Tons) (USD Thousand)
10.5.3 Appliance and white goods manufacturing
10.5.3.1 UV structural adhesives market size for appliance and white goods
manufacturing, (Tons) (USD Thousand)
10.5.4 Automotive component assembly
10.5.4.1 UV structural adhesives market size for automotive component assembly, (Tons)
(USD Thousand)
10.5.5 Furniture and woodworking industry
10.5.5.1 UV structural adhesives market size for furniture and woodworking industry,
(Tons) (USD Thousand)
10.5.6 Textile and apparel manufacturing
10.5.6.1 UV structural adhesives market size for textile and apparel manufacturing,
(Tons) (USD Thousand)
10.5.7 Sporting goods and recreation equipment
10.5.7.1 UV structural adhesives market size for sporting goods and recreation
equipment, (Tons) (USD Thousand)
10.5.8 Construction and building materials
10.5.8.1 UV structural adhesives market size for construction and building materials,
(Tons) (USD Thousand)
10.6 Optical and photonics applications
10.6.1 UV structural adhesives market size for optical and photonics applications,
(Tons) (USD Thousand)
Chapter 11 UV structural adhesives Market, By Region
11.1 Key region trends
11.2 North America
11.2.1 North America UV structural adhesives market estimates and forecast, (Tons)
(USD Thousand)
11.2.2 North America UV structural adhesives market estimates and forecast by
chemistry type, 2021-2034, (Tons) (USD Thousand)
11.2.3 North America UV structural adhesives market estimates and forecast by curing
technology, 2021-2034, (Tons) (USD Thousand)
11.2.4 North America UV structural adhesives market estimates and forecast by
application, 2021-2034, (Tons) (USD Thousand)
11.2.5 U.S.
11.2.5.1 U.S. UV structural adhesives market estimates and
forecast, (Tons) (USD Thousand)
11.2.5.2 U.S. UV structural adhesives market estimates and
forecast by chemistry type, 2021-2034, (Tons) (USD
Thousand)
11.2.5.3 U.S. UV structural adhesives market estimates and
forecast by curing technology, 2021-2034, (Tons)
(USD Thousand)
11.2.5.4 U.S. UV structural adhesives market estimates and
forecast by application, 2021-2034, (Tons) (USD
Thousand)
11.2.6 Canada
11.2.6.1 Canada UV structural adhesives market estimates
and forecast, (Tons) (USD Thousand)
11.2.6.2 Canada UV structural adhesives market estimates
and forecast by chemistry type, 2021-2034, (Tons)
(USD Thousand)
11.2.6.3 Canada UV structural adhesives market estimates
and forecast by curing technology, 2021-2034,
(Tons) (USD Thousand)
11.2.6.4 Canada UV structural adhesives market estimates
and forecast by application, 2021-2034, (Tons)
(USD Thousand)
11.3 Europe
11.3.1 Europe UV structural adhesives market estimates and forecast, (Tons) (USD
Thousand)
11.3.2 Europe UV structural adhesives market estimates and forecast by chemistry
type, 2021-2034, (Tons) (USD Thousand)
11.3.3 Europe UV structural adhesives market estimates and forecast by curing
technology, 2021-2034, (Tons) (USD Thousand)
11.3.4 Europe UV structural adhesives market estimates and forecast by application,
2021-2034, (Tons) (USD Thousand)
11.3.5 Western Europe
11.3.5.1 Western Europe UV structural adhesives market
estimates and forecast, (Tons) (USD Thousand)
11.3.5.2 Western Europe UV structural adhesives market
estimates and forecast by chemistry type,
2034, (Tons) (USD Thousand)
11.3.5.3 Western Europe UV structural adhesives market
estimates and forecast by curing technology,
2034, (Tons) (USD Thousand)
11.3.5.4 Western Europe UV structural adhesives market
estimates and forecast by application, 2021-2034,
(Tons) (USD Thousand)
11.3.5.5 Germany
11.3.5.5.1 Germany UV structural adhesives market
estimates and forecast, (Tons) (USD
Thousand)
11.3.5.5.2 Germany UV structural adhesives market
estimates and forecast by chemistry type,
2021-2034, (Tons) (USD Thousand)
11.3.5.5.3 Germany UV structural adhesives market
estimates and forecast by curing technology,
2021-2034, (Tons) (USD Thousand)
11.3.5.5.4 Germany UV structural adhesives market
estimates and forecast by application,
2034, (Tons) (USD Thousand)
11.3.5.6 France
11.3.5.6.1 France UV structural adhesives market
estimates and forecast, (Tons) (USD
Thousand)
11.3.5.6.2 France UV structural adhesives market
estimates and forecast by chemistry type,
2021-2034, (Tons) (USD Thousand)
11.3.5.6.3 France UV structural adhesives market
estimates and forecast by curing technology,
2021-2034, (Tons) (USD Thousand)
11.3.5.6.4 France UV structural adhesives market
estimates and forecast by application,
2034, (Tons) (USD Thousand)
11.3.5.7 UK
11.3.5.7.1 UK UV structural adhesives market estimates
and forecast, (Tons) (USD Thousand)
11.3.5.7.2 UK UV structural adhesives market estimates
and forecast by chemistry type, 2021-2034,
(Tons) (USD Thousand)
11.3.5.7.3 UK UV structural adhesives market estimates
and forecast by curing technology,
2034, (Tons) (USD Thousand)
11.3.5.7.4 UK UV structural adhesives market estimates
and forecast by application, 2021-2034,
(Tons) (USD Thousand)
11.3.5.8 Italy
11.3.5.8.1 Italy UV structural adhesives market
estimates and forecast, (Tons) (USD
Thousand)
11.3.5.8.2 Italy UV structural adhesives market
estimates and forecast by chemistry type,
2021-2034, (Tons) (USD Thousand)
11.3.5.8.3 Italy UV structural adhesives market
estimates and forecast by curing technology,
2021-2034, (Tons) (USD Thousand)
11.3.5.8.4 Italy UV structural adhesives market
estimates and forecast by application,
2034, (Tons) (USD Thousand)
11.3.5.9 Spain
11.3.5.9.1 Spain UV structural adhesives market
estimates and forecast, (Tons) (USD
Thousand)
11.3.5.9.2 Spain UV structural adhesives market
estimates and forecast by chemistry type,
2021-2034, (Tons) (USD Thousand)
11.3.5.9.3 Spain UV structural adhesives market
estimates and forecast by curing technology,
2021-2034, (Tons) (USD Thousand)
11.3.5.9.4 Spain UV structural adhesives market
estimates and forecast by application,
2034, (Tons) (USD Thousand)
11.3.5.10 Netherlands
11.3.5.10.1 Netherlands UV structural adhesives market
estimates and forecast, (Tons) (USD
Thousand)
11.3.5.10.2 Netherlands UV structural adhesives market
estimates and forecast by chemistry type,
2021-2034, (Tons) (USD Thousand)
11.3.5.10.3 Netherlands UV structural adhesives market
estimates and forecast by curing technology,
2021-2034, (Tons) (USD Thousand)
11.3.5.10.4 Netherlands UV structural adhesives market
estimates and forecast by application,
2034, (Tons) (USD Thousand)
11.3.5.11 Belgium
11.3.5.11.1 Belgium UV structural adhesives market
estimates and forecast, (Tons) (USD
Thousand)
11.3.5.11.2 Belgium UV structural adhesives market
estimates and forecast by chemistry type,
2021-2034, (Tons) (USD Thousand)
11.3.5.11.3 Belgium UV structural adhesives market
estimates and forecast by curing technology,
2021-2034, (Tons) (USD Thousand)
11.3.5.11.4 Belgium UV structural adhesives market
estimates and forecast by application,
2034, (Tons) (USD Thousand)
11.3.5.12 Switzerland
11.3.5.12.1 Switzerland UV structural adhesives market
estimates and forecast, (Tons) (USD
Thousand)
11.3.5.12.2 Switzerland UV structural adhesives market
estimates and forecast by chemistry type,
2021-2034, (Tons) (USD Thousand)
11.3.5.12.3 Switzerland UV structural adhesives market
estimates and forecast by curing technology,
2021-2034, (Tons) (USD Thousand)
11.3.5.12.4 Switzerland UV structural adhesives market
estimates and forecast by application,
2034, (Tons) (USD Thousand)
11.3.5.13 Austria
11.3.5.13.1 Austria UV structural adhesives market
estimates and forecast, (Tons) (USD
Thousand)
11.3.5.13.2 Austria UV structural adhesives market
estimates and forecast by chemistry type,
2021-2034, (Tons) (USD Thousand)
11.3.5.13.3 Austria UV structural adhesives market
estimates and forecast by curing technology,
2021-2034, (Tons) (USD Thousand)
11.3.5.13.4 Austria UV structural adhesives market
estimates and forecast by application,
2034, (Tons) (USD Thousand)
11.3.6 Northern Europe
11.3.6.1 Northern Europe UV structural adhesives market
estimates and forecast, (Tons) (USD Thousand)
11.3.6.2 Northern Europe UV structural adhesives market
estimates and forecast by chemistry type,
2034, (Tons) (USD Thousand)
11.3.6.3 Northern Europe UV structural adhesives market
estimates and forecast by curing technology,
2034, (Tons) (USD Thousand)
11.3.6.4 Northern Europe UV structural adhesives market
estimates and forecast by application, 2021-2034,
(Tons) (USD Thousand)
11.3.6.5 Nordic Countries
11.3.6.5.1 Nordic Countries UV structural adhesives
market estimates and forecast, (Tons) (USD
Thousand)
11.3.6.5.2 Nordic Countries UV structural adhesives
market estimates and forecast by chemistry
type, 2021-2034, (Tons) (USD Thousand)
11.3.6.5.3 Nordic Countries UV structural adhesives
market estimates and forecast by curing
technology, 2021-2034, (Tons) (USD
Thousand)
11.3.6.5.4 Nordic Countries UV structural adhesives
market estimates and forecast by application,
2021-2034, (Tons) (USD Thousand)
11.3.6.6 Ireland
11.3.6.6.1 Ireland UV structural adhesives market
estimates and forecast, (Tons) (USD
Thousand)
11.3.6.6.2 Ireland UV structural adhesives market
estimates and forecast by chemistry type,
2021-2034, (Tons) (USD Thousand)
11.3.6.6.3 Ireland UV structural adhesives market
estimates and forecast by curing technology,
2021-2034, (Tons) (USD Thousand)
11.3.6.6.4 Ireland UV structural adhesives market
estimates and forecast by application,
2034, (Tons) (USD Thousand)
11.3.7 Central and Eastern Europe
11.3.7.1 Central and Eastern Europe UV structural adhesives
market estimates and forecast, (Tons) (USD
Thousand)
11.3.7.2 Central and Eastern Europe UV structural adhesives
market estimates and forecast by chemistry type,
2021-2034, (Tons) (USD Thousand)
11.3.7.3 Central and Eastern Europe UV structural adhesives

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