시장보고서

상품코드

1827326

에폭시 접착제 시장 : 최종 이용 산업, 용도, 수지 유형, 기술, 형태별 - 세계 예측(2025-2032년)

Epoxy Adhesives Market by End Use Industry, Application, Resin Type, Technology, Form - Global Forecast 2025-2032

발행일: 2025년 09월 | 리서치사:

360iResearch | 페이지 정보: 영문 197 Pages | 배송안내 : 1-2일 (영업일 기준)

■ 보고서에 따라 최신 정보로 업데이트하여 보내드립니다. 배송일정은 문의해 주시기 바랍니다.

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에폭시 접착제 시장은 2032년까지 CAGR 6.82%로 148억 달러로 성장할 것으로 예측됩니다.

주요 시장 통계
기준 연도 2024년	87억 2,000만 달러
추정 연도 2025년	93억 1,000만 달러
예측 연도 2032	148억 달러
CAGR(%)	6.82%

에폭시 접착제의 화학, 성능 동인, 재료 선택 및 개발을 형성하는 산업 전반에 걸친 통합 역학에 대한 권위 있는 소개

에폭시 접착제는 열경화성 폴리머의 일종으로 뛰어난 접착력, 내화학성, 기계적 강도는 다양한 엔지니어링 수요에서 높은 평가를 받고 있습니다. 이러한 재료는 에폭시 수지와 경화제를 결합하여 이종 기판 사이에 견고한 계면 결합을 형성하여 가혹한 사용 환경에서 긴 수명과 성능을 제공합니다. 최근 몇 년 동안 제조업체와 최종사용자는 새로운 응용 분야를 개척하고 수명주기 비용을 줄이기 위해 수정, 공정 통합 및 디지털 제조 방법과의 호환성을 중요시하고 있습니다.

산업계가 내구성과 신뢰성을 우선시함에 따라 에폭시 시스템은 전통적인 산업 수리의 틀을 넘어 구조용 접착, 복합재 제조, 전기 절연, 정밀 조립 공정으로 이동하고 있습니다. 수지 화학의 동시 발전으로 환경 저항성이 강화되고 휘발성 유기 화합물 배출량이 감소하여 규제 및 지속가능성 압력이 존재하는 곳에서 광범위하게 채택될 수 있게 되었습니다. 이와 함께 경량화 및 전동화를 향한 제조 트렌드는 내피로성 향상, 열 사이클 안정성, 전도성 경로 관리 등 접착제 선택에 대한 새로운 기술적 기준을 만들어내고 있습니다.

실험실에서의 기술 혁신에서 공장 구현으로 전환하기 위해서는 배합 화학자, 설계 엔지니어, 품질 보증 팀의 협력이 필요합니다. 따라서 에폭시 접착제에 대한 소개는 시스템 엔지니어링 및 공급망 관행에 대한 통합뿐만 아니라 재료의 특성에 관한 것입니다. 앞으로 규제 추진력, 성능 요구 사항, 제조 가능성의 상호 작용은 진화하는 산업 요구 사항을 충족하는 점진적인 개선과 파괴적인 처방을 계속 형성할 것으로 보입니다.

기술 혁신, 규제 압력, 공급망 재편이 에폭시 접착제의 성능 요구 사항과 상업화 경로를 재구성하는 방법

에폭시 접착제의 환경은 기술적, 규제적, 최종 사용의 압력으로 인해 제품 우선순위와 공급망을 재정의하는 변화의 시기를 맞이하고 있습니다. 저배출 배합 및 바이오 유래 원료를 포함한 수지 화학의 혁신은 환경 규제와 환경 친화적인 선택에 대한 고객의 요구에 부응하고 있습니다. 동시에 자동 디스펜스, 적층 성형, 인라인 품질 모니터링과 같은 첨단 제조 기술의 등장으로 일관성, 디스펜스 정확도, 경화 프로파일에 대한 기대치가 높아지고 있습니다.

또한, 운송 수단 및 재생에너지 분야의 전동화 및 경량화 추세로 인해 열 안정성 및 전기 절연 특성이 향상되고, 강성 대 중량비가 최적화된 접착제에 대한 요구가 증가하고 있습니다. 이러한 변화로 인해 배합자는 기계적 성능과 열적, 전기적 특성의 균형을 맞추는 한편, 고강도 폴리머 및 엔지니어링 복합재와 같은 새로운 기판과의 호환성을 확보해야 합니다. 동시에 배출물, 작업자 안전 및 수명주기 영향에 대한 규제 프레임워크는 공급업체가 보다 안전한 경화제를 채택하고 규정 준수를 위한 확장된 기술 문서를 제공하도록 촉구하고 있습니다.

공급망의 회복력도 변화의 벡터입니다. 원자재 조달의 불안정성과 지정학적 요인으로 인해 제조업체들은 공급업체를 다양화하고, 대체 화학제품을 인증하고, 현지 생산능력에 투자하여 리드타임을 단축하고, 관세에 대한 노출을 줄여야 하는 상황에 직면해 있습니다. 그 결과, 제제팀, 조달팀, 애플리케이션 엔지니어링 팀의 협업은 제품의 연속성과 경쟁력 차별화를 위해 필수적인 요소로 자리 잡았습니다. 결국, 이러한 힘의 수렴은 제품 로드맵을 재구성할 뿐만 아니라 범용 접착제에서 고성능, 규제 및 지속가능성을 중시하는 시장에 맞게 조정된 엔지니어링 솔루션으로의 전환을 가속화하고 있습니다.

미국의 관세 조치가 접착제 공급망 및 전체 가치사슬의 제조 연속성에 미치는 전략적 운영 및 조달 영향 평가 평가

미국의 관세 부과와 무역 정책 조정은 에폭시 접착제 공급업체와 사용자들에게 업무적, 전략적으로 상당한 영향을 미치고 있습니다. 전구체 화학제품, 수입 배합 접착제 및 관련 장비에 영향을 미치는 관세 조치는 투입 비용을 높이고, 조달 계획을 복잡하게 만들고, 조달 전략의 전환을 촉진할 수 있습니다. 이에 따라 제조업체들은 주요 중간체의 현지 생산, 장기 공급 계약 재협상, 공정 최적화 및 가치 엔지니어링 등 비용 절감 전략의 실행에 박차를 가하고 있습니다.

이러한 정책 전환은 재고 관리와 수요 타이밍에도 영향을 미칩니다. 적시 공급 모델에 의존하는 기업은 마진 압박에 직면하거나 관세로 인한 가격 변동에 대비하기 위해 안전 재고를 늘려야 할 수도 있습니다. 구매자는 단기적인 비용 영향과 장기적인 신뢰성을 동시에 고려해야 하므로, 공급업체와 긴밀한 협력 관계를 맺고 관세 대상 성분의 영향을 줄이면서 성능을 유지할 수 있는 대체 배합을 검증해야 합니다. 그 결과, 제품 인증 주기와 승인 리드타임은 조달 대화에서 핵심적인 고려사항이 되었습니다.

중기적으로, 관세는 생산 발자국의 지리적 재편성을 촉진하는 경향이 있습니다. 관세의 영향을 받는 공급 라인의 다운타임과 단가 상승은 국내 생산능력 확대와 니어쇼어링 기회로 자본 배분을 촉진할 것입니다. 이에 따라 이해관계자들은 공급업체 생태계의 변화를 예측하고 원산지, 규정 준수, 원자재 대체와 관련된 문서화 요건 강화에 대비한 계획을 세워야 합니다. 요약하면, 관세 개발은 경쟁력을 유지하고 고성능 접착제 공급의 연속성을 보장하기 위해 조달, 엔지니어링, 경쟁 계획을 포괄하는 기능별, 기능별, 적극적인 대응이 필요합니다.

산업, 용도, 수지, 기술, 폼의 각 측면에 대한 통합 분석을 통해 도출된 부문 중심의 배합 우선순위 및 용도별 성능 트레이드오프

에폭시 접착제 용도를 최종 사용 산업, 기능적 역할, 수지 화학, 기술 형태, 물리적 형태와 비교하여 분석하면 의미 있는 세분화에 대한 인사이트를 얻을 수 있습니다. 최종 사용 산업을 기준으로 시장은 건설, 전기 및 전자, 석유 및 가스, 스포츠 및 레저, 운송, 풍력에너지, 운송은 항공우주 및 방위, 자동차, 해양으로 세분화됩니다. 이러한 구분은 기질의 다양성과 규제 환경이 처방의 우선순위를 어떻게 형성하는지 강조합니다. 장기 내구성, 내환경성 등 건축 분야에서 중시하는 접착제의 특성은 운송 분야에서 요구되는 경량화, 열 관리, 전기전자 분야에서 요구되는 정밀한 전기 절연성과 대조적입니다.

KEY MARKET STATISTICS
Base Year [2024]	USD 8.72 billion
Estimated Year [2025]	USD 9.31 billion
Forecast Year [2032]	USD 14.80 billion
CAGR (%)	6.82%

Epoxy adhesives are a class of thermosetting polymers valued for their exceptional adhesion, chemical resistance, and mechanical strength across a diverse set of engineering demands. These materials combine an epoxy resin with a curing agent to create robust interfacial bonds between dissimilar substrates, enabling longevity and performance in demanding operating environments. Over recent years, manufacturers and end users have emphasized reformulation, process integration, and compatibility with digital manufacturing methods to unlock new applications and reduce lifecycle costs.

As industries prioritize durability and reliability, epoxy systems have migrated beyond traditional industrial repairs into structural bonding, composite fabrication, electrical insulation, and precision assembly processes. Concurrent advances in resin chemistry have enhanced environmental resistance and reduced volatile organic compound emissions, which supports broader adoption where regulatory and sustainability pressures exist. In parallel, manufacturing trends toward lightweighting and electrification have generated new technical criteria for adhesive selection, such as improved fatigue resistance, thermal cycling stability, and conductive pathway management.

Transitioning from laboratory innovation to factory floor implementation requires alignment among formulation chemists, design engineers, and quality assurance teams. Therefore, the introduction to epoxy adhesives is as much about material attributes as it is about integration into systems engineering and supply chain practices. Looking ahead, the interplay between regulatory drivers, performance demands, and manufacturability will continue to shape both incremental improvements and disruptive formulations that meet evolving industry requirements.

How technological innovation, regulatory pressures, and supply chain realignment are reshaping epoxy adhesive performance requirements and commercialization pathways

The landscape for epoxy adhesives is undergoing transformative shifts driven by technological, regulatory, and end-use pressures that together are redefining product priorities and supply chains. Innovations in resin chemistries, including low-emission formulations and bio-derived feedstocks, are responding to both environmental mandates and customer demand for greener options. At the same time, the rise of advanced manufacturing techniques-such as automated dispensing, additive manufacturing, and inline quality monitoring-has elevated expectations for consistency, dispensing precision, and cure profiles.

Moreover, electrification and lightweighting trends in transportation and renewable energy sectors have increased the need for adhesives with enhanced thermal stability, electrical insulation characteristics, and optimized stiffness-to-weight ratios. These shifts are forcing formulators to balance mechanical performance with thermal and electrical properties, while also ensuring compatibility with new substrate combinations such as high-strength polymers and engineered composites. Concurrently, regulatory frameworks around emissions, worker safety, and lifecycle impacts are nudging suppliers to adopt safer hardeners and to provide expanded technical documentation for compliance.

Supply chain resilience is another vector of transformation. Raw material sourcing volatility and geopolitical factors have motivated manufacturers to diversify suppliers, qualify alternative chemistries, and invest in localized production capabilities to reduce lead times and mitigate tariff exposure. As a result, collaboration across formulation, procurement, and application engineering teams has become essential for product continuity and competitive differentiation. Ultimately, these converging forces are not only reshaping product roadmaps but also accelerating the transition from commodity adhesives to engineered solutions tailored for high-performance, regulated, and sustainability-conscious markets.

Assessing the strategic operational and sourcing consequences of United States tariff actions on adhesive supply chains and manufacturing continuity across the value chain

The imposition of tariffs and trade policy adjustments in the United States has introduced pronounced operational and strategic effects for suppliers and users of epoxy adhesives. Tariff measures that affect precursor chemicals, imported formulated adhesives, and associated equipment can raise input costs, complicate procurement planning, and incentivize shifts in sourcing strategies. In response, manufacturers have accelerated efforts to localize production of key intermediates, renegotiate long-term supply contracts, and implement cost mitigation strategies such as process optimization and value engineering.

These policy shifts also influence inventory management and demand timing. Companies that depend on just-in-time supply models may face margin pressure or must augment safety stocks to buffer against tariff-driven price volatility. For purchasers, the need to reconcile short-term cost impacts with long-term reliability has led to closer collaboration with suppliers to validate alternative formulations that maintain performance while reducing exposure to tariffed components. Consequently, product qualification cycles and approval lead times have become central considerations in procurement dialogues.

Over the medium term, tariffs tend to catalyze geographic reshaping of production footprints. Downtime and unit-cost increases in tariff-affected supply lines prompt capital allocation toward domestic capacity expansion or nearshoring opportunities. As a result, stakeholders should anticipate shifts in supplier ecosystems and plan for enhanced documentation requirements tied to origin, compliance, and substitution of raw materials. In sum, tariff developments require a proactive, cross-functional response encompassing sourcing, engineering, and commercial planning to preserve competitiveness and ensure continuity of high-performance adhesive supply.

Segment-driven formulation priorities and application-specific performance trade-offs derived from integrated analysis of industry, application, resin, technology, and form dimensions

Meaningful segmentation insights emerge when epoxy adhesive applications are analyzed against end-use industries, functional roles, resin chemistries, technological formats, and physical forms. Based on End Use Industry, the market is studied across Construction, Electrical Electronics, Oil & Gas, Sports & Leisure, Transportation, and Wind Energy with Transportation further segmented into Aerospace & Defense, Automotive, and Marine; these distinctions emphasize how substrate diversity and regulatory environments shape formulation priorities. The adhesive properties prized in construction-such as long-term durability and environmental resistance-contrast with the lightweight and thermal management demands found in transportation and the precise electrical insulation requirements of electrical electronics.

Based on Application, the market is studied across Adhesive, Coating, Composite, Electrical Insulation, Potting & Encapsulation, Repair & Maintenance, and Sealants; this application-driven lens highlights how a single resin platform can be tuned for bond strength, surface compatibility, or dielectric performance depending on end-use demands. For instance, formulations intended for potting and encapsulation prioritize void-free curing and thermal stability, whereas coating applications demand surface leveling and environmental protection. Simultaneously, repair and maintenance usages emphasize ease of use, cure speed at ambient conditions, and long-term adhesion to aged substrates.

Based on Resin Type, the market is studied across Bisphenol A, Cycloaliphatic, Glycidyl Ethers, and Novolac; each resin family imparts distinctive performance attributes and processing constraints. Bisphenol A systems are associated with balanced mechanical properties and broad application familiarity, cycloaliphatic resins provide enhanced UV and weather resistance suited for outdoor applications, glycidyl ether variants enable viscosity control and formulation flexibility, and novolac chemistries deliver superior thermal and chemical resistance for high-temperature environments. Based on Technology, the market is studied across One Component and Two Component systems; the choice between single-part convenience and two-part performance trade-offs informs production workflows and field serviceability. Finally, based on Form, the market is studied across Liquid, Paste, and Powder; form factors dictate application method, storage conditions, and automation compatibility. Taken together, these segmentation dimensions form a matrix that helps suppliers tailor value propositions, prioritize R&D, and align product roadmaps with the nuanced performance needs of diverse end markets.

Regional dynamics shaping technical demand, compliance priorities, and go-to-market strategies across the Americas, Europe Middle East & Africa, and Asia-Pacific industrial hubs

Regional dynamics in the epoxy adhesives domain reflect differences in industrial structure, regulatory frameworks, and investment patterns that collectively influence demand and supply behaviors. In the Americas, robust transportation manufacturing hubs and infrastructure renewal projects create steady requirements for adhesives with structural bonding capabilities and repair-friendly chemistries. Additionally, the drive toward vehicle electrification in North America requires adhesives that meet new thermal and electrical performance standards, while supply chain localization efforts are reshaping procurement strategies for critical precursors.

Europe, Middle East & Africa presents a heterogeneous landscape where stringent environmental regulations, advanced manufacturing adoption, and a strong renewable energy pipeline-particularly wind energy-drive demand for high-performance, low-emission adhesive systems. In regions where renewable deployments and offshore projects are concentrated, adhesives must withstand salt spray, UV exposure, and cyclic loading, which emphasizes formulations with enhanced durability and certifiable compliance documentation. Across the EMEA region, the interplay between regulatory oversight and industrial specialization compels manufacturers to deliver both technical data packages and lifecycle impact transparency.

Asia-Pacific continues to be a leading center for manufacturing scale and downstream assembly across electronics, automotive, and construction sectors. Rapid industrialization and investment in consumer electronics and transportation manufacturing create demand for adhesives that are compatible with high-speed assembly, automated dispensing, and stringent quality control regimes. Moreover, in certain Asia-Pacific markets, cost sensitivity is balanced with rising expectations for performance and environmental compliance, prompting suppliers to offer tiered product lines that address both price and technical differentiation. Collectively, these regional variations necessitate localized go-to-market strategies, technical support capabilities, and regulatory navigation to secure long-term partnerships with major industrial players.

Strategic company differentiators in epoxy adhesives highlighting co-development, vertical integration, sustainability initiatives, and service-led competitive positioning

Key company insights focus on how leading players differentiate through innovation, vertical integration, application engineering, and service capabilities. Market leaders are increasingly investing in application laboratories and engineering centers that co-develop formulations with strategic customers to reduce qualification time and enhance joint problem-solving. This customer-proximate approach improves the speed at which specialized adhesives move from prototype to production, and it reinforces supplier-customer partnerships where shared risk and shared IP drive mutual value.

Vertical integration of precursor chemistry and resin synthesis gives certain companies an edge in controlling raw material costs and ensuring supply continuity, particularly during periods of geopolitical strain or raw material price volatility. Meanwhile, firms that prioritize sustainable formulation pathways-such as lower-VOC systems and alternative curing agents-are positioning themselves to meet evolving regulatory and customer expectations. Additionally, companies that provide comprehensive technical documentation, certifications, and application training differentiate on service; this emphasizes that the adhesive purchase decision often extends beyond product attributes to include qualification support and lifecycle guidance.

Finally, collaborative manufacturing models and strategic partnerships with tier-one OEMs enhance market access for specialized adhesive solutions. By aligning R&D roadmaps to the product cycles of major end-use industries, firms can capture early design wins and lock in long-term supply agreements. As a result, competitive dynamics are shifting toward integrated solutions that combine material science expertise with application engineering, regulatory support, and scalable manufacturing footprints.

Practical strategic recommendations for industry leaders to strengthen resilience, accelerate co-development, and commercialize higher-value adhesive solutions

Industry leaders should adopt a proactive agenda that aligns material innovation with customer engineering cycles and regulatory trajectories. First, intensify collaboration with OEMs and contract manufacturers to co-develop formulations that address specific substrate combinations, thermal-electrical requirements, and assembly constraints. Doing so shortens qualification times and reduces the likelihood of late-stage redesigns. Second, diversify sourcing strategies for critical intermediates and evaluate nearshoring options to mitigate tariff and geopolitical exposure while preserving margin integrity. Coupling supplier diversification with advanced analytics for demand forecasting will improve resilience in procurement.

Third, invest in sustainable chemistry and transparent lifecycle reporting to meet increasingly stringent regulatory and customer expectations. Transition plans should include substituting high-risk raw materials where feasible and documenting environmental performance in a way that supports compliance and procurement reviews. Fourth, build application engineering capabilities that extend into customer sites or virtual support platforms; this enables rapid troubleshooting, faster scale-up, and higher switching costs for customers. Finally, prioritize digital enablement across production and quality control, including automated dispensing, inline monitoring, and traceability of lot-level performance data. These measures collectively enhance product reliability and support premium positioning in technical segments.

Transparent multi-source research methodology integrating expert interviews, technical literature review, patent analysis, and cross-industry synthesis to ensure robust insights

This research employs a multi-faceted methodology combining primary interviews, technical literature review, and cross-disciplinary synthesis to ensure analytical rigor and relevance. Primary insights were derived from structured discussions with formulation scientists, procurement leads, application engineers, and industry consultants who provided qualitative context on performance trends, supply chain dynamics, and application challenges. These stakeholder conversations were augmented by a review of peer-reviewed technical publications, industry standards documentation, and regulatory filings to validate material properties and compliance implications.

Secondary research encompassed examination of patent activity, trade data, and technical bulletins to identify emerging chemistries, production technologies, and regional manufacturing shifts. Comparative analysis across end-use verticals allowed the identification of cross-cutting performance requirements and distinct sector-specific priorities. In synthesizing these inputs, emphasis was placed on triangulating evidence to minimize bias and to present balanced insights that reflect both technical feasibility and commercial realities.

Throughout the methodology, transparency about assumptions and limitations was maintained. Where primary data was not available, expert elicitation informed reasonable interpretations that were flagged accordingly. This approach ensures that conclusions are grounded in verifiable evidence while remaining actionable for decision-makers evaluating strategy, procurement, and product development choices.

Concluding synthesis on the evolving role of epoxy adhesives in system-level design, regulatory compliance, and value-driven supplier relationships

Epoxy adhesives occupy a pivotal role in contemporary manufacturing and repair ecosystems by delivering tailored bonding solutions that meet escalating performance and environmental demands. The convergence of electrification, lightweight structures, and renewable energy deployment is elevating technical specifications for adhesives, which in turn demands closer collaboration between material scientists and end users. Meanwhile, regulatory and trade policy developments are reshaping supply chains, prompting strategic adjustments in sourcing and production footprint decisions.

As stakeholders navigate these changes, successful players will be those who couple technical excellence with service-oriented commercialization, localized supply strategies, and demonstrable sustainability credentials. In essence, epoxy adhesives are no longer solely a materials procurement decision; they are an integral element of system design, reliability engineering, and regulatory compliance. Firms that internalize this perspective and adapt their R&D, manufacturing, and customer-engagement models accordingly will be better positioned to capture long-term value in evolving industrial landscapes.

1. Preface

1.1. Objectives of the Study
1.2. Market Segmentation & Coverage
1.3. Years Considered for the Study
1.4. Currency & Pricing
1.5. Language
1.6. Stakeholders

2. Research Methodology

3. Executive Summary

4. Market Overview

5. Market Insights

5.1. Formulation of bio-based epoxy adhesives with increased renewable content to meet sustainability goals
5.2. Development of high-temperature resistant epoxy adhesives for aerospace and automotive applications
5.3. Introduction of low-VOC and solvent-free epoxy formulations to comply with stricter emissions regulations
5.4. Advances in fast-curing epoxy adhesives enabling reduced assembly time in manufacturing lines
5.5. Integration of nanofillers into epoxy adhesives to enhance mechanical strength and thermal conductivity
5.6. Growth of electrically conductive epoxy adhesives for electronics packaging and LED encapsulation
5.7. Customization of flexible epoxy adhesive films for wearable electronics and flexible displays
5.8. Adoption of digital dispensing systems for precise application and reduced material waste
5.9. Emergence of self-healing epoxy adhesive systems to extend service life of bonded structures
5.10. Partnerships between adhesive manufacturers and OEMs to co-develop industry-specific bonding solutions

6. Cumulative Impact of United States Tariffs 2025

7. Cumulative Impact of Artificial Intelligence 2025

8. Epoxy Adhesives Market, by End Use Industry

8.1. Construction
8.2. Electrical Electronics
8.3. Oil & Gas
8.4. Sports & Leisure
8.5. Transportation
- 8.5.1. Aerospace & Defense
- 8.5.2. Automotive
- 8.5.3. Marine
8.6. Wind Energy

9. Epoxy Adhesives Market, by Application

9.1. Adhesive
9.2. Coating
9.3. Composite
9.4. Electrical Insulation
9.5. Potting & Encapsulation
9.6. Repair & Maintenance
9.7. Sealants

10. Epoxy Adhesives Market, by Resin Type

10.1. Bisphenol A
10.2. Cycloaliphatic
10.3. Glycidyl Ethers
10.4. Novolac

11. Epoxy Adhesives Market, by Technology

11.1. One Component
11.2. Two Component

12. Epoxy Adhesives Market, by Form

12.1. Liquid
12.2. Paste
12.3. Powder

13. Epoxy Adhesives Market, by Region

13.1. Americas
- 13.1.1. North America
- 13.1.2. Latin America
13.2. Europe, Middle East & Africa
- 13.2.1. Europe
- 13.2.2. Middle East
- 13.2.3. Africa
13.3. Asia-Pacific

14. Epoxy Adhesives Market, by Group

14.1. ASEAN
14.2. GCC
14.3. European Union
14.4. BRICS
14.5. G7
14.6. NATO

15. Epoxy Adhesives Market, by Country

15.1. United States
15.2. Canada
15.3. Mexico
15.4. Brazil
15.5. United Kingdom
15.6. Germany
15.7. France
15.8. Russia
15.9. Italy
15.10. Spain
15.11. China
15.12. India
15.13. Japan
15.14. Australia
15.15. South Korea

16. Competitive Landscape

16.1. Market Share Analysis, 2024
16.2. FPNV Positioning Matrix, 2024
16.3. Competitive Analysis
- 16.3.1. Henkel AG & Co. KGaA
- 16.3.2. 3M Company
- 16.3.3. Sika AG
- 16.3.4. H.B. Fuller Company
- 16.3.5. Arkema S.A.
- 16.3.6. Huntsman Corporation
- 16.3.7. Ashland Global Holdings Inc.
- 16.3.8. Dow Inc.
- 16.3.9. Hexion Inc.
- 16.3.10. RPM International Inc.

에폭시 접착제 시장 : 최종 이용 산업, 용도, 수지 유형, 기술, 형태별 - 세계 예측(2025-2032년)

Epoxy Adhesives Market by End Use Industry, Application, Resin Type, Technology, Form - Global Forecast 2025-2032

에폭시 접착제의 화학, 성능 동인, 재료 선택 및 개발을 형성하는 산업 전반에 걸친 통합 역학에 대한 권위 있는 소개

기술 혁신, 규제 압력, 공급망 재편이 에폭시 접착제의 성능 요구 사항과 상업화 경로를 재구성하는 방법

미국의 관세 조치가 접착제 공급망 및 전체 가치사슬의 제조 연속성에 미치는 전략적 운영 및 조달 영향 평가 평가

산업, 용도, 수지, 기술, 폼의 각 측면에 대한 통합 분석을 통해 도출된 부문 중심의 배합 우선순위 및 용도별 성능 트레이드오프

목차

제1장 서문

제2장 조사 방법

제3장 주요 요약

제4장 시장 개요

제5장 시장 인사이트

제6장 미국 관세의 누적 영향 2025

제7장 AI의 누적 영향 2025

제8장 에폭시 접착제 시장 : 최종 이용 산업별

제9장 에폭시 접착제 시장 : 용도별

제10장 에폭시 접착제 시장 : 수지 유형별

제11장 에폭시 접착제 시장 : 기술별

제12장 에폭시 접착제 시장 : 형태별

제13장 에폭시 접착제 시장 : 지역별

제14장 에폭시 접착제 시장 : 그룹별

제15장 에폭시 접착제 시장 : 국가별

제16장 경쟁 구도

Authoritative introduction to epoxy adhesive chemistry, performance drivers, and cross-industry integration dynamics shaping material selection and deployment