市场调查报告书
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1423528
全球聚氨酯市场 - 2024-2031Global Polyurethane Market - 2024-2031 |
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概述
2023年全球聚氨酯市场规模达822亿美元,预计2031年将达到1.175亿美元,2024-2031年预测期间CAGR为4.5%。
聚氨酯是一种多功能聚合物,广泛应用于建筑、汽车、家具、电子和鞋类等各种最终用途行业。市场的成长是由对轻质耐用材料、能源效率和卓越性能特征不断增长的需求所推动的。聚氨酯产品,包括泡棉、涂料、黏合剂和弹性体,具有广泛的性能,例如绝缘性、柔韧性和弹性,使其成为众多消费品和工业产品中不可或缺的组成部分。
亚太地区经历了显着的工业扩张,特别是在建筑、汽车和电子产业,促进了推动聚氨酯市场成长的合作。一个值得注意的例子是领先的聚氨酯製造商TMT,它于2022年12月2日与科思创合作成功推出了1000台聚氨酯风力发电机。这项里程碑符合中国雄心勃勃的五年计划,旨在到2025 年将风能和太阳能发电量翻一番。在风力涡轮机叶片中使用聚氨酯是传统环氧树脂的一种创新且经济高效的替代品,展示了其在推进永续解决方案方面的关键作用在再生能源领域。
动力学
建筑业生物基聚氨酯的兴起
在快速发展的建筑材料领域,生物基聚氨酯的使用显着激增,特别是泡沫和涂料的形式。生物聚氨酯泡沫以其出色的隔热性能而闻名,越来越成为建筑项目中墙壁、屋顶和地板的首选材料。这种环保替代方案不仅提高了建筑物的能源效率,还有助于大幅降低暖气和冷气成本。
建筑业对永续性的高度关注刺激了对创新建筑材料的需求不断增长,这些材料不仅满足性能标准,而且符合环境目标。生物基材料在建筑领域的整合是一个值得注意的趋势,从生物基多元醇、发泡剂、催化剂和异氰酸酯作为传统材料替代品的探索中可以看出。向生物聚氨酯的转变与更广泛的行业倡议相一致,以减少碳足迹并创建对环境负责的结构。
一项重要的研究途径涉及掺入生物基奈米粒子,特别是源自木质纤维素的奈米粒子,以增强聚氨酯泡沫 (PUF) 的隔热性能。奈米技术在实现先进 PUF 方面发挥关键作用,这些 PUF 不仅满足永续发展目标,而且还提供卓越的隔热性能。本章深入探讨了生物基奈米颗粒在提升 PUF 性能方面的关键作用,让我们一窥永续建筑材料的未来。
聚氨酯在包装产业的应用不断成长
聚氨酯提供广泛的应用,可根据各种包装需求进行客製化。它可以配製为软质泡沫、硬质泡沫、弹性体和涂料,这使其适用于多种包装应用。聚氨酯重量轻但高度耐用,可为运输和储存过程中的易碎和敏感货物提供出色的保护。其减震特性有助于防止搬运和运输过程中的损坏。
保护性包装解决方案供应商 Storopack 推出了 FOAMplus 5504RC,这是一种含有可再生成分的新型聚氨酯泡沫,旨在降低其对环境的影响。例如,2020 年 9 月 22 日,泡棉包含从可再生资源获得的糖基材料,占总重量 0.30 磅/英尺3。一旦膨胀和硬化,泡沫就会呈现出包装物品的形状,这使得它适合缓衝、填充空隙和减震。
影响聚氨酯产业成长的环境挑战
聚氨酯产业的扩张面临着源自环境问题的重大挑战。聚氨酯的生产和发展严重依赖不可再生的石化产品,导致环境恶化。此外,某些聚氨酯泡棉在製造过程中会释放挥发性有机化合物(VOC),加剧室内空气污染并引发潜在的健康问题。
除了这些挑战之外,一些聚氨酯变体具有易燃性,暴露在空气中时会释放有毒气体,造成火灾危险。虽然阻燃添加剂通常用于减轻这些风险,但它们会带来额外的环境和健康问题,造成复杂的权衡。这些环境因素的累积影响对聚氨酯市场的成长构成了巨大的障碍。
应对这些挑战需要整体方法,促进生产流程创新,探索石化产品的可持续替代品,并开发更安全的配方,最大限度地减少环境和健康风险。该行业对这些担忧的回应将在塑造聚氨酯市场的未来轨迹方面发挥关键作用。
Overview
Global Polyurethane Market reached US$ 82.2 billion in 2023 and is expected to reach US$ 117.5 million by 2031, growing with a CAGR of 4.5% during the forecast period 2024-2031.
Polyurethane is a versatile polymer that finds widespread applications in various end-use industries such as construction, automotive, furniture, electronics and footwear. The market's growth is driven by the increasing demand for lightweight and durable materials, energy efficiency and superior performance characteristics. Polyurethane products, including foams, coatings, adhesives and elastomers, offer a wide range of properties, such as insulation, flexibility and resilience, making them integral components in numerous consumer and industrial products.
Asia-Pacific experienced significant industrial expansion, particularly in construction, automotive and electronics sectors, fostering collaborations that drive the growth of the polyurethane market. A noteworthy example is TMT, a leading polyurethane manufacturer, which, on December 2, 2022, marked the successful launch of 1000 polyurethane wind turbines in partnership with Covestro. The milestone aligns with China's ambitious five-year plan aiming to double its wind and solar power output by 2025. The use of polyurethane in wind turbine blades presents an innovative and cost-effective alternative to traditional epoxy, showcasing its pivotal role in advancing sustainable solutions within the renewable energy sector.
Dynamics
Rise in Bio-Based Polyurethane for Construction Industries
In the rapidly evolving landscape of construction materials, there is a notable surge in the utilization of bio-based polyurethane, particularly in the form of foams and coatings. Bio-polyurethane foam, known for its outstanding thermal insulation properties, is increasingly becoming the material of choice for walls, roofs and floors in construction projects. The eco-friendly alternative not only enhances energy efficiency in buildings but also contributes to a significant reduction in heating and cooling costs.
The construction industry's heightened focus on sustainability has spurred a growing demand for innovative building materials that not only meet performance standards but also align with environmental goals. The integration of bio-based materials in the construction sector is a noteworthy trend, as seen in the exploration of bio-based polyols, blowing agents, catalysts and isocyanates as substitutes for traditional counterparts. The shift towards bio-polyurethane aligns with broader industry initiatives to reduce carbon footprints and create structures that are environmentally responsible.
One significant avenue of research involves the incorporation of bio-based nanoparticles, particularly those derived from lignocellulosic sources, to enhance the thermal insulation properties of polyurethane foams (PUFs). Nanotechnology plays a pivotal role in achieving advanced PUFs that not only meet sustainability objectives but also provide superior thermal insulation. The chapter delves into the pivotal role of bio-based nanoparticles in elevating the performance of PUFs, offering a glimpse into the future of sustainable construction materials.
Growing Applications of Polyurethane in packaging Industry
Polyurethane offers a wide range of applications that are customized for various packaging needs. It can be formulated as flexible foams, rigid foams, elastomers and coatings, which makes it suitable for diverse packaging applications. Polyurethane is lightweight yet highly durable, providing excellent protection for fragile and sensitive goods during transportation and storage. Its shock-absorbing properties help prevent damage during handling and shipping.
Storopack, a protective packaging solution provider introduced FOAMplus 5504RC, a new polyurethane foam with renewable content that aims to lower its impact on the environment. For instance, on 22 Sept 2020, the foam includes sugar-based material obtained from renewable sources and makes up 0.30lb/ft3 of the total weight. Once expanded and hardened, the foam takes on the shape of the packaged goods, which makes it suitable for cushioning, void filling and shock absorption.
Environmental Challenges Impacting Polyurethane Industry Growth
The expansion of the polyurethane industry faces significant challenges rooted in environmental concerns. The production and advancement of polyurethane heavily rely on non-renewable petrochemicals, contributing to environmental degradation. Moreover, certain polyurethane foams emit volatile organic compounds (VOCs) during manufacturing, exacerbating indoor air pollution and raising potential health issues.
Adding to these challenges, some polyurethane variants possess flammability, releasing toxic gases when exposed to air, posing fire hazards. While fire-retardant additives are commonly employed to mitigate these risks, they introduce additional environmental and health concerns, creating a complex trade-off. The cumulative impact of these environmental factors presents formidable obstacles to the growth of the polyurethane market.
Addressing these challenges requires a holistic approach, fostering innovation in production processes, exploring sustainable alternatives to petrochemicals and developing safer formulations that minimize environmental and health risks. The industry's response to these concerns will play a pivotal role in shaping the future trajectory of the polyurethane market.
The global polyurethane market is segmented based on raw material, product form, end-user and region.
Polyurethane Offers a Significant Advancement in Bedding and Furniture Industries
Polyurethane Foam stands as a remarkable innovation in the bedding and furniture industries, offering unparalleled advancements in comfort and support. The inherent ability of polyurethane foams to conform to the body's contours provides sleepers with a personalized and comfortable experience, effectively reducing pressure points and enhancing overall sleep quality. Recognized for their durability and resilience, polyurethane foams prove ideal for crafting long-lasting mattresses and bedding products that can endure regular use without compromising their shape or support.
In a noteworthy development, Evonik, a leading chemical company, has pioneered an efficient chemical recycling process designed to convert flexible polyurethane foams back to their original polyol raw material. The breakthrough, announced on November 12, 2021, underscores Evonik's commitment to sustainability within the global flexible polyurethane industry. By focusing on reducing waste and increasing the utilization of renewable raw materials in production, Evonik's efforts align with broader environmental expectations, reflecting a significant stride toward a more sustainable and eco-friendly future for polyurethane applications in the bedding and furniture sectors.
Renewable Energy and Sustainable Manufacturing Surge In Asia-Pacific is Driving the Market
In Asia-Pacific, there is a discernible shift towards emphasizing renewable energy and energy efficiency solutions, significantly impacting the demand for polyurethanes. The versatile polymers are gaining prominence for their applications in thermal insulation for buildings and energy-efficient appliances.
The growing awareness and commitment to sustainability are driving the adoption of polyurethanes in various sectors, contributing to the region's efforts in reducing carbon footprints. Research and development initiatives in the Asia-Pacific are instrumental in introducing innovative polyurethane products with enhanced properties, further fueling the market's growth.
A notable instance of this trend is Walkaroo, a leading footwear brand, which recently completed the renovation and expansion of its manufacturing plant in Dobbaspet, Karnataka. The expansion, completed on October 27, 2022, resulted in a significant boost in production capacity, increasing the daily output of polyurethane footwear from 30,000 to 50,000 pairs. With a total of 14 manufacturing units, the Karnataka plant now serves as Walkaroo's central production hub for polyurethane footwear, catering to both domestic and export markets. The expansion not only reflects the increasing demand for polyurethane products in the region but also showcases the industry's commitment to sustainable and energy-efficient manufacturing practices.
The major global players include BASF SE, Covestro AG, Chemtura Corporation, DOW Chemical Company, FMC Corporation, Huntsman Corporation, Manali Petrochemicals Ltd., Mitsui Chemicals Inc., Wanhua Chemical Group Co., Ltd., Woodbridge Foam Corporation.
COVID-19 pandemic has unleashed unprecedented challenges on the polyurethane industry, primarily through travel restrictions and nationwide lockdowns that led to factory closures in various regions. The disruption in operational continuity has significantly impacted the supply chain of essential raw materials and chemicals crucial for polyurethane production. The resultant shortages and delays have posed formidable obstacles for manufacturers, hindering their ability to fulfill customer demands in a timely manner. As a ripple effect, economic uncertainties triggered by the pandemic have caused a palpable reduction in consumer spending, particularly on non-essential goods. Industries heavily reliant on polyurethane products, such as automotive, construction and furniture, have borne the brunt of reduced demand due to the pandemic's broader impact on the global economy.
In response to these challenges, polyurethane manufacturers are now compelled to navigate a landscape marked by supply chain complexities and changing consumer behaviors. Adapting to the new normal requires strategic reassessment of supply chain resilience, exploration of alternative sourcing options and a commitment to innovation. Resilient strategies implemented during this period will be instrumental in steering the polyurethane industry towards recovery and sustainable growth in a post-pandemic era.
Russia-Ukraine War Impact
Russia-Ukraine conflict has left a profound impact on both the physical and economic landscapes of the affected regions. Infrastructure, including buildings, roads, bridges and utilities, has suffered extensive damage due to bombings, shelling and military operations, necessitating significant reconstruction efforts once the conflict subsides. Concurrently, ongoing construction projects face suspension or delays, driven by heightened security concerns.
Beyond the immediate physical toll, armed conflicts introduce economic instability within the affected regions. The instability has the potential to disrupt investments, impede business operations and alter consumer demand patterns, consequently influencing the demand and production of polyurethane. The resultant changes in the geopolitical landscape may further lead to shifts in market dynamics, impacting the polyurethane industry on a broader scale.
As the situation evolves, navigating the challenges posed by geopolitical unrest requires adaptability and strategic planning within the polyurethane sector. Assessing and responding to these external factors will be crucial in mitigating potential disruptions and charting a resilient course for the industry in the face of geopolitical uncertainties.
Scope
The global polyurethane market report would provide approximately 65 tables, 68 figures and 185 Pages.
Target Audience 2024
LIST NOT EXHAUSTIVE