全球建築隔熱材料市場（2024-2031年）

受永續性措施、產業整合和不斷變化的建築規範的推動，隔熱材料正經歷變革性成長。

本報告對建築業使用的隔熱材料進行了全面分析。這些材料能夠提高建築物的能源效率並減少熱傳遞。報告涵蓋了市場上廣泛使用的各種隔熱材料材料，包括隔熱材料卷材和保溫墊、吹入式和填充式隔熱材料、硬質發泡板、噴塗隔熱材料發泡隔熱材料、結構隔熱材料板 (SIP) 以及某些具有隔熱性能的石膏。本研究涵蓋了所有常用的保溫材料，從玻璃棉和岩絨等隔熱材料到隔熱材料 （發泡聚苯乙烯）和 EPS（發泡聚苯乙烯）等現代材料，也專門介紹了木絲、纖維素和麻纖維等生物基材料。報告利用區域估算數據建立了全球市場規模，評估了 2024 年和 2031 年主要地區每種材料的收入和銷售量。此外，檢驗了過去五年中的主要併購，並指出了產業相關人員目前正在實施的最相關的永續性策略。此預測模型整合了多種促進因素​​，包括建設活動水平、隔熱產品的市場滲透率、建築物規模和高度的變化、保溫性能的提高、不斷變化的法規結構和價格趨勢，研究期從 2024 年（基準年）到 2025 年至 2031 年的預測期。

摘要：建築隔熱材料市場

2024年全球建築隔熱材料市場規模預估為286億美元，預估至2031年將達366億美元，2025年至2031年的複合年成長率為3.6%。對節能建築的日益重視、不斷發展的建築規範以及永續性建築實踐是推動建築隔熱材料市場成長的主要因素。

關鍵市場趨勢與洞察

• 2024年，歐洲在全球建築隔熱材料市場中佔據了主要佔有率，這主要得益於嚴格的能源效率法規和高水準的維修活動。
• 在北美，住宅和商業建築中隔熱材料升級改造的日益普及支撐了穩定的需求。
• 按材料類型，由於礦物棉和泡沫塑膠隔熱材料材料具有隔熱和防火性能，預計到 2024 年，這兩種材料將佔據最大的市場佔有率。
• 在脫碳目標的背景下，人們對生物基和再生隔熱材料的興趣日益濃厚，這影響了籌資策略。
• 預計亞太地區在預測期內將實現最快成長，這主要得益於快速的都市化和不斷擴大的建設活動。

市場規模及預測

• 2024年市場規模：286億美元
• 2031年市場規模預測：366億美元
• 複合年成長率（2025-2031年）：3.6%
• 歐洲：一個成熟且主導的市場
• 亞太地區：成長最快的地區

建築基礎設施的現代化，以及人們對節能和氣候適應能力的日益重視，正在加速全球對保溫解決方案的需求。隨著各國政府和相關人員將降低能源消耗和排放碳排放作為優先事項，建築隔熱材料市場日益被視為永續建築的重要組成部分。材料性能、回收和低碳製造技術的持續進步，預計將支撐建築隔熱材料市場在新建和維修項目中的長期穩定成長。

市場概覽：建築隔熱材料市場

建築隔熱材料市場是全球建築材料生態系統的核心，它能夠幫助住宅、商業和工業建築提高能源效率、減少熱傳遞並提升室內舒適度。隔熱材料能夠有效阻隔熱量，降低暖氣和冷氣需求，同時有助於滿足不斷變化的建築節能法規。

建築隔熱材料市場的結構性變革正受到永續性和不斷演變的建築規範的推動，這些規範對保溫性能（R值）提出了更高的要求。歐洲和北美各國政府正在強制推行更嚴格的能源效率標準，而新興市場也逐漸將保溫材料納入更廣泛的城市發展和氣候政策。這些監管措施正將隔熱材料從可選項轉變為必要項。

市場也受到材料創新和整合的影響。雖然玻璃絨、岩棉、聚苯乙烯和聚氨酯等傳統隔熱材料仍佔據大部分市場佔有率，但纖維素、木纖維、大麻和再生丹寧布料等生物基材料因其低碳和循環經濟優勢而備受關注。同時，領先的製造商正透過收購和技術升級來拓展產品線，以更好地實現永續性目標。

影響建築隔熱材料市場的另一個關鍵趨勢是已開發地區既有建築維修的日益普及。老舊建築存量、不斷上漲的能源成本以及政府的獎勵政策正在加速隔熱材料升級。加之異地模組化建造方式的日益普及，這些因素正在重塑市場需求，並鞏固隔熱材料在全球建築價值鏈中的長期重要性。

分析範圍：建築隔熱材料市場

本建築隔熱材料市場分析涵蓋全球產業，以 2024 年為基準年，預測期為 2025 年至 2031 年。所有市場價值均以美元表示，收入按製造商級別計算，以確保不同地區和材料類別之間的一致性。

範圍涵蓋建設產業廣泛使用的隔熱材料，包括礦棉、泡沫塑膠、酚醛樹脂、氣凝膠和生物基隔熱材料，適用於室內和室外保溫應用，包括用於牆壁、屋頂、地板、建築幕牆和承重斷熱板(SIP) 的產品。

從區域上看，建築隔熱材料市場分析涵蓋北美、歐洲、亞太地區、拉丁美洲以及中東和非洲，這些地區代表了市場成熟度、監管實施和隔熱材料滲透率的不同階段。

估算市場規模的方法結合了二手資料研究、產業檢驗、區域建設活動分析和價格趨勢評估。預測中納入了建築需求成長、監管變化、隔熱材料滲透率和材料性能提升等關鍵促進因素，以確保對全球建築隔熱材料市場進行全面而真實的評估。

收入與預測：建築隔熱材料市場

預計到2024年，全球建築隔熱材料市場規模將達到約286億美元，反映全球住宅、商業和基礎建設建設活動的穩定需求。支出水準與建築量、建築圍護結構要求以及能源效率標準的監管執行密切相關。

預計2031年，建築隔熱材料市場規模將達366億美元，預測期內複合年成長率約為3.6%。這種緩慢但穩定的成長反映了已開發地區市場相對成熟的態勢，但新興經濟體不斷擴大的建設活動和隔熱材料材料普及率的提高抵消了部分成長。

支出成長將受益於維修計劃、不斷提高的保溫性能標準以及向高階永續保溫解決方案的逐步轉型。雖然保溫性能的提升可能會減少每棟建築的材料用量，但價格趨勢和增值功能預計將在整個預測期內維持收入成長。

市場區隔分析：建築隔熱材料市場

建築隔熱材料市場按材料類型、應用和地理區域進行細分，包括礦物棉（玻璃絨和岩絨）、泡沫塑膠（發泡聚苯乙烯、押出成型聚苯乙烯、聚氨酯、聚異氰酸酯）、酚醛發泡、氣凝膠以及不斷成長的生物基隔熱材料領域。

礦物棉因其防火、隔音和可回收等優點，在商業和工業建築中廣泛使用。泡沫塑膠因其優異的隔熱和防潮性能，被廣泛用於屋頂、牆壁和地板材料。同時，隨著永續性因素在採購決策中日益重要，生物基隔熱材料也越來越受到重視。

在應用方面，隔熱材料既用於新建築，也用於維修計劃。在成熟市場，對現有建築進行維修，作為一種降低排放和能源消耗的經濟有效手段，正變得越來越重要。不同地區的採用模式差異顯著，這反映了施工實踐、氣候條件和法規結構的差異。

總體而言，市場細分突顯了一種市場結構，該結構平衡了以性能為導向的材料選擇和新興的永續性優先事項，從而強化了隔熱材料在各種建築環境中的戰略作用。

成長要素：建築隔熱材料市場

推動建築隔熱材料市場成長的因素有很多。

首先，全球建設活動持續擴張，尤其是在亞太地區、中東和拉丁美洲的部分地區，直接增加了對隔熱材料的需求。

其次，建築能源標準和永續性法規正在不斷提高，尤其是在北美和歐洲，這些法規強制要求更高的隔熱標準。

第三，能源成本上漲促使建築業主投資進行隔熱材料升級，以降低長期營運成本。

第四，氣候變遷調適策略強調隔熱材料在應對熱壓力和極端天氣事件中的作用。

最後，人們對碳減排和循環經濟原則的認知不斷提高，推動了建築隔熱材料市場對低碳和生物基隔熱材料的興趣。

成長限制因素：建築隔熱材料市場

儘管有這些有利因素，建築隔熱材料市場仍面臨許多限制。隨著時間的推移，保溫材料性能的提升減少了達到相同保溫效果所需的材料用量，從而限制了基於銷量的成長。建築設計、規模和高度的變化也會影響隔熱材料的需求，使得市場成長與建築面積的相關性降低。

此外，發展中地區建築規範執行力度不均在某些情況下會減緩新型保溫材料的普及，而高昂的測試和認證成本也會阻礙創新隔熱材料的商業化進程。這些因素共同限制了建築隔熱材料市場的成長動能。

競爭格局：建築隔熱材料市場

建築隔熱材料市場集中度適中，但競爭激烈。全球有超過250家製造商和供應商，其中許多企業的年銷售額超過100萬美元。競爭強度因地區、材料類型和應用領域而異，這反映了建築規範、安裝規範和隔熱材料滲透率的差異。大規模跨國公司與區域性製造商並存，它們在價格競爭力、強大的本地分銷網路和針對特定應用的解決方案方面競爭。

建築隔熱材料市場的競爭主要受成本效益、隔熱性能、產品可靠性、創新能力和永續性等因素所驅動。隨著隔熱材料對法規遵循和碳減排目標的貢獻日益增強，製造商正加大對低碳生產製程、再生材料的使用以及防火隔音性能提升的投入。強大的技術支援、安裝人員培訓和長期的客戶關係也是重要的競爭因素，尤其是在商業和基礎設施計劃中。

影響競爭策略的關鍵終端使用者群體包括住宅建築、商業建築、工業設施和公共基礎設施計劃。大型住宅開發和維修專案的需求促使供應商拓展產品組合，涵蓋礦棉、泡沫塑膠和新興的生物基保溫解決方案。同時，流通結構通常結合了直銷、分銷商網路、批發商和零售通路，從而能夠覆蓋專業人士和DIY用戶群體，實現廣泛的市場覆蓋。

策略性併購和產能擴張持續重塑建築隔熱材料的競爭格局。領先製造商正透過收購來鞏固其地理優勢、確保原料供應並加速永續保溫技術的創新。隨著監管壓力的加大以及客戶日益關注產品性能、生命週期價值和環境影響，預計未來競爭將更加激烈。這將進一步加速建築隔熱材料市場從以銷售主導的競爭轉向以價值為導向的差異化競爭的轉變。

目錄

成長環境：建築隔熱材料的革命

• 調查範圍
• 精彩片段
• 分析範圍
• 分割
• 概述
• 為什麼經濟成長變得越來越困難？
• 策略要務
• 三大戰略挑戰對建築隔熱材料產業的影響

建築隔熱材料產業生態系統

• 價值鏈
• 競爭環境
• 主要競爭對手（依材料分類）
• 建築隔熱材料的永續性
• 隔熱材料和異地施工
• 新產品
• 麻
• 羊毛
• 建築隔熱材料產業協會

建築隔熱材料的成長促進因素

• 成長指標
• 成長促進因素
• 成長抑制因素
• 預測考慮因素、數量和價格
• 成長指標：模型變數、區域和全球
• 預測假設
• 營收和銷售量預測
• 按材料分類的銷售預測
• 成長指標：按材料和地區分類的收入，2024 年和 2031 年
• 按材質數量預測
• 按材質和地區分類的成長指標，2024 年和 2031 年
• 按地區分類的收入預測
• 按地區分類的銷售量預測
• 亞太地區建築隔熱材料市場
• MEASA建築隔熱材料市場
• 拉丁美洲建築隔熱材料市場
• 北美建築隔熱材料市場
• 歐洲建築隔熱材料市場
• 按用途分類的佔有率預測：新建和維修，2024 年和 2031 年
• 維修
• 收益分成
• 2020年至2025年市場趨勢

建築隔熱材料領域的成長機遇

• 成長機會1：用於保護住宅免受熱浪侵襲的太陽能反射塗層
• 成長機會2：非石化燃料隔熱材料
• 成長機會3：已開發國家的維修
• 成長機會 4：模組化建築
• 成長機會 5：丹寧布料和棉質隔熱材料

附錄與後續步驟

Insulation Materials are Experiencing Transformational Growth due to Sustainability, Consolidation, and Evolution in Building Codes

This document presents a comprehensive analysis of thermal insulation materials used in the construction industry, which enhance energy efficiency and reduce heat transmission within buildings. It encompasses a wide range of commonly commercialized insulation forms, including batts and rolls, blown-in or loose-fill insulation, rigid foam boards, sprayed foam, structural insulated panels (SIPs), and certain plasters with insulating properties. The study covers all widely used insulation materials, from traditional options such as glass and stone wool to materials such as XPS and EPS, alongside a dedicated segment for bio-based materials, including wood wool, cellulose, and hemp. The analysis constructs global market totals based on regional estimates, evaluating revenue and volume for each material across key regions for 2024 and 2031. In addition, the document reviews significant mergers and acquisitions over the past 5 years and identifies the most relevant sustainability strategies currently implemented by industry participants. The forecast model integrates multiple drivers, including construction activity levels, market penetration of insulation products, changes in building size and height, improvements in insulation performance, evolving regulatory frameworks, and price trends. The study period spans from 2024, serving as the base year, through the forecast horizon of 2025-2031.

Report Summary: Building Insulation Materials Market

The global building insulation materials market size was estimated at USD 28.6 billion in 2024 and is projected to reach USD 36.6 billion by 2031, growing at a CAGR of 3.6% from 2025 to 2031. The increasing emphasis on energy-efficient buildings, evolving building codes, and sustainability-driven construction practices are key factors driving the growth of the Building Insulation Materials Market.

Key Market Trends & Insights

• Europe accounted for a significant share of the global building insulation materials market in 2024, supported by stringent energy efficiency regulations and high retrofit activity.
• In North America, rising adoption of insulation upgrades in residential and commercial buildings is reinforcing steady demand.
• By material type, mineral wool and plastic foam insulation held the largest adoption share in 2024 due to their thermal performance and fire resistance properties.
• Growing interest in bio-based and recycled insulation materials is shaping procurement strategies amid decarbonization goals.
• Asia Pacific is expected to witness the fastest growth over the forecast period, driven by rapid urbanization and expanding construction activity.

Market Size & Forecast

• 2024 Market Size: USD 28.6 Billion
• 2031 Projected Market Size: USD 36.6 Billion
• CAGR (2025-2031): 3.6%
• Europe: Mature and regulation-driven market
• Asia Pacific: Fastest-growing region

The modernization of building infrastructure, coupled with rising awareness of energy conservation and climate resilience, is accelerating demand for insulation solutions globally. As governments and private stakeholders prioritize lower energy consumption and reduced carbon emissions, the building insulation materials market is increasingly viewed as a foundational element of sustainable construction. Continued advancements in material performance, recycling, and low-carbon manufacturing are expected to support stable long-term growth of the Building Insulation Materials Market across both new construction and retrofit applications.

Market Overview: Building Insulation Materials Market

The Building Insulation Materials Market forms a critical part of the global construction materials ecosystem, enabling improved energy efficiency, reduced heat transfer, and enhanced indoor comfort across residential, commercial, and industrial buildings. Insulation materials are used to create an effective thermal envelope, reducing heating and cooling demand while supporting compliance with evolving building energy regulations.

Structural shifts in the building insulation materials market are being driven by sustainability imperatives and the evolution of building codes that require higher thermal resistance (R-values). Governments across Europe and North America are mandating stricter energy efficiency standards, while emerging markets are gradually introducing insulation requirements as part of broader urban development and climate policies. These regulatory developments are transforming insulation from a discretionary component into a mandatory building element.

The market is also influenced by material innovation and consolidation. Traditional insulation materials such as glass wool, stone wool, polystyrene, and polyurethane continue to dominate volumes, but bio-based materials-including cellulose, wood fiber, hemp, and recycled denim-are gaining attention due to lower embodied carbon and circular economy benefits. At the same time, large manufacturers are expanding portfolios through acquisitions and technology upgrades to address sustainability targets.

Another important trend shaping the Building Insulation Materials Market is the growing role of retrofitting in developed regions. Aging building stock, rising energy costs, and government incentive programs are accelerating insulation upgrades. Combined with increased adoption of off-site and modular construction methods, these factors are reshaping demand patterns and reinforcing the long-term importance of insulation materials in the global construction value chain.

Scope of Analysis: Building Insulation Materials Market

This analysis of the building insulation materials market covers the global industry over a study period from 2024 to 2031, with 2024 as the base year and 2025-2031 as the forecast period. All market values are presented in US dollars, and revenues are calculated at the manufacturer level to ensure consistency across regions and material categories.

The scope includes insulation materials widely used in the construction industry, encompassing mineral wool, plastic foams, phenolics, aerogels, and bio-based insulation materials. Both internal and external insulation applications are considered, including products used in walls, roofs, floors, facades, and structural insulated panels.

Geographically, the Building Insulation Materials Market is analyzed across North America, Europe, Asia Pacific, Latin America, and the Middle East & Africa. These regions represent varying stages of market maturity, regulatory enforcement, and insulation penetration.

Methodologically, market estimates are derived using a combination of secondary research, industry validation, regional construction activity analysis, and pricing trend assessment. Forecasts incorporate key drivers such as construction growth, regulatory changes, insulation penetration rates, and material performance improvements, ensuring a comprehensive and realistic outlook for the global building insulation materials market.

Revenue & Spending Forecast: Building Insulation Materials Market

The global building insulation materials market generated revenue of approximately USD 28.6 billion in 2024, reflecting steady demand from residential, commercial, and infrastructure construction activities worldwide. Spending levels are closely linked to construction volume, building envelope requirements, and regulatory enforcement of energy efficiency standards.

By 2031, the Building Insulation Materials Market is projected to reach USD 36.6 billion, growing at a CAGR of about 3.6% over the forecast period. This moderate but stable growth reflects the market's relatively mature nature in developed regions, offset by expanding construction activity and rising insulation penetration in emerging economies.

Spending growth is expected to be supported by retrofitting programs, higher insulation performance standards, and gradual shifts toward premium and sustainable insulation solutions. Although improvements in insulation performance may reduce material volume per building, pricing trends and value-added features are expected to sustain revenue expansion across the forecast horizon.

Market Segmentation Analysis: Building Insulation Materials Market

The Building Insulation Materials Market is segmented by material type, application form, and geographic region. By material type, the market includes mineral wool (glass wool and stone wool), plastic foams (expanded and extruded polystyrene, polyurethane, and polyisocyanurate), phenolic foams, aerogels, and a growing category of bio-based insulation materials.

Mineral wool remains widely adopted due to its fire resistance, acoustic performance, and recyclability, particularly in commercial and industrial buildings. Plastic foams are extensively used in roofing, walls, and floors due to their high thermal resistance and moisture control properties. Meanwhile, bio-based insulation materials are gaining traction as sustainability considerations become more prominent in procurement decisions.

In terms of application, insulation materials are used in new construction as well as retrofit projects. Retrofit applications are increasingly important in mature markets, where upgrading existing buildings offers a cost-effective pathway to reduce emissions and energy consumption. Regionally, adoption patterns vary significantly, reflecting differences in construction practices, climate conditions, and regulatory frameworks.

Overall, segmentation highlights a market balancing performance-driven material selection with emerging sustainability priorities, reinforcing the strategic role of insulation materials across diverse construction environments.

Growth Drivers: Building Insulation Materials Market

Several factors are driving growth in the building insulation materials market.

First, global construction activity continues to expand, particularly in Asia Pacific, the Middle East, and parts of Latin America, directly increasing demand for insulation materials.

Second, tightening building energy codes and sustainability regulations are mandating higher insulation standards, especially in North America and Europe.

Third, rising energy costs are encouraging building owners to invest in insulation upgrades to reduce long-term operational expenses.

Fourth, climate change adaptation strategies are elevating the role of insulation in managing heat stress and extreme weather conditions.

Finally, increasing awareness of carbon reduction and circular economy principles is driving interest in low-carbon and bio-based insulation materials within the Building Insulation Materials Market.

Growth Restraints: Building Insulation Materials Market

Despite favorable drivers, the Building Insulation Materials Market faces several restraints. Improvements in insulation performance over time reduce material volumes required to achieve the same thermal outcomes, limiting volume-based growth. Variability in building design, size, and height also affects insulation demand, making growth less directly correlated with construction area.

In addition, uneven enforcement of building codes in developing regions slows adoption, while high testing and certification costs can delay the commercialization of innovative insulation materials. These factors collectively moderate growth momentum in the building insulation materials market.

Competitive Landscape: Building Insulation Materials Market

The building insulation materials market is characterized by a moderately consolidated yet highly competitive environment, with more than 250 active manufacturers and suppliers globally, many generating annual revenues exceeding USD 1.0 million. Competition intensity varies by region, material type, and application, reflecting differences in building codes, construction practices, and insulation penetration rates. Large multinational players coexist with regional manufacturers that compete on pricing, local distribution strength, and application-specific solutions.

Competitive differentiation within the Building Insulation Materials Market is primarily driven by cost efficiency, thermal performance, product reliability, innovation capabilities, and sustainability credentials. As insulation materials increasingly contribute to regulatory compliance and carbon reduction goals, manufacturers are investing in low-carbon production processes, recycled content, and improved fire and acoustic performance. Strong technical support, installer training, and long-term customer relationships are also critical competitive factors, particularly in commercial and infrastructure projects.

Key end-user verticals shaping competitive strategies include residential construction, commercial buildings, industrial facilities, and public infrastructure projects. Demand from large-scale housing developments and retrofit programs has encouraged suppliers to expand portfolios across mineral wool, plastic foams, and emerging bio-based insulation solutions. At the same time, distribution structures typically combine direct sales, distributor networks, wholesalers, and retail channels, enabling broad market reach across both professional and do-it-yourself segments.

Strategic mergers, acquisitions, and capacity expansions continue to reshape the competitive environment in the building insulation materials market. Leading manufacturers pursue acquisitions to strengthen geographic presence, secure raw material access, and accelerate innovation in sustainable insulation technologies. Looking ahead, competition is expected to intensify as regulatory pressure increases and customers prioritize performance, lifecycle value, and environmental impact, reinforcing the shift from volume-driven competition toward value-based differentiation in the Building Insulation Materials Market.

Table of Contents

Growth Environment: Transformation in Building Insulation Materials

• Research Scope
• Highlights
• Scope of Analysis
• Segmentation
• Descriptions
• Why Is It Increasingly Difficult to Grow?
• The Strategic Imperative 8™
• The Impact of the Top 3 Strategic Imperatives on the Construction Insulation Materials Industry

Ecosystem in the Building Insulation Materials Sector

• Value Chain
• Competitive Environment
• Key Competitors by Material
• Sustainability in Construction Insulation
• Insulation and Off-Site Construction
• New Products
• Hemp
• Sheep's Wool
• Trade Organizations in the Construction Insulation Sector

Growth Generator in Building Insulation Materials

• Growth Metrics
• Growth Drivers
• Growth Restraints
• Forecast Considerations, Volume and Pricing
• Growth Metrics: Model Variables, Regional and Global
• Forecast Assumptions
• Revenue and Volume Forecast
• Revenue Forecast by Material
• Growth Metrics: Revenue by Material, Regional and Global, 2024 and 2031
• Volume Forecast by Material
• Growth Metrics: Volume by Material, Regional and Global, 2024 and 2031
• Revenue Forecast by Region
• Volume Forecast by Region
• APAC Construction Insulation Market
• MEASA Construction Insulation Market
• Latin American Construction Insulation Market
• North American Construction Insulation Market
• European Construction Insulation Market
• Volume Share Forecast by Use: New Build or Retrofit, 2024 and 2031
• Retrofitting
• Revenue Share
• Movements in the Market, 2020-2025

Growth Opportunity Universe in Building Insulation Materials

• Growth Opportunity 1: Solar Reflective Coatings to Future-proof Homes from Heat Waves
• Growth Opportunity 2: Non-fossil Insulation Materials
• Growth Opportunity 3: Retrofitting in Developed Countries
• Growth Opportunity 4: Modular Construction
• Growth Opportunity 5: Insulation from Denim and Cotton

Appendix & Next Steps

• Benefits and Impacts of Growth Opportunities
• Next Steps
• List of Exhibits
• Legal Disclaimer