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全球丁二烯市场按产品类型、最终用户、地区、竞争、预测和机会,2028 年Global Butadiene Market By Product Type, By End User, By Region, Competition, Forecast and Opportunities, 2028 |
2022 年全球丁二烯市场估值达到 128 亿美元,预计在预测期内将实现强劲增长,到 2028 年复合年增长率 (CAGR) 为 4.00%。全球丁二烯市场预计将达到2028 年规模将达到161.4 亿美元。丁二烯是一种高反应性无色气体,在合成橡胶和塑胶的生产中发挥关键作用。这些材料广泛应用于汽车、建筑、包装、消费品和防护服等行业。该市场的成长主要受到终端使用领域需求增加、具有成本效益的功能以及汽车数量不断增长等因素的推动。此外,丁二烯的多功能性,特别是其用于电气工业绝缘的卓越弹性特性,进一步有助于市场扩张。丁二烯在轮胎胎面、高尔夫球、鞋类、工业零件、汽车零件、橡胶隔离器和各种其他应用的生产中的利用预计将促进整体市场的成长。儘管如此,页岩油发现造成的产量下降、潜在的不利影响、原材料价格波动以及严格的监管要求等挑战可能会阻碍市场的进步。从积极的方面来看,汽车和电子等关键产业对尼龙 66 树脂的需求不断增长,加上对开发 1,3 丁二烯生产的生物基路线的关注,为市场提供了充满希望的机会。
市场概况 | |
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预测期 | 2024-2028 |
2022 年市场规模 | 128亿美元 |
2028F 市场规模 | 161.4亿美元 |
2023-2028 年复合年增长率 | 4% |
成长最快的细分市场 | 丁苯橡胶 |
最大的市场 | 亚太地区 |
近年来,汽车产业发生了重大转变,其特点是转向可持续、高效和技术先进的车辆。丁二烯是一种重要的化合物,主要来自石油精炼和碳氢化合物裂解,在合成橡胶生产中发挥关键作用。这包括广泛使用的变体,例如丁苯橡胶 (SBR) 和聚丁二烯橡胶 (PBR),广泛应用于轮胎製造,这是汽车领域的基石。此外,丁二烯还可用于各种汽车零件,如软管、皮带、垫圈和密封件,从而增强车辆的整体功能和安全性。其化学适应性也使其成为塑胶、树脂和各种化学中间体的重要组成部分。严格的排放法规促进了电动和混合动力汽车的发展;然而,即使这些替代推进系统也依赖丁二烯衍生的橡胶零件,这凸显了非燃烧引擎系统对丁二烯的持久需求。随着汽车製造商努力提高燃油效率,同时维护安全标准,人们越来越关注减轻车辆重量。通常采用丁二烯衍生的塑胶和复合材料的轻质材料在追求这些目标的过程中越来越受到关注。此外,自动驾驶汽车的发展需要先进的感测器和光达技术,其中许多技术依赖于基于丁二烯的保护性塑胶材料。随着自动驾驶汽车的普及,这一趋势有望进一步刺激需求。随着汽车产业朝着更智慧、更安全、更环保的设计发展,丁二烯在实现这些进步方面的关键作用变得越来越明显。汽车产业与全球丁二烯市场之间的相互连结凸显了合作与创新在塑造交通运输未来的重要性。
近年来,全球对丁二烯的需求显着上升,主要是由于各行业对黏合剂和密封剂的需求不断升级。丁二烯是一种重要的石化化合物,已成为生产弹性体、塑胶和其他有价值产品不可或缺的原料。需求激增可归因于黏合剂和密封剂在汽车、建筑、包装和电子等行业的多样化应用。全球对永续基础设施和节能建筑的重视导致了创新建筑材料和技术的采用。黏合剂和密封剂在建立气密密封、绝缘结构和提高整体建筑性能方面发挥关键作用。随着建筑业的不断扩张,对这些材料的需求同步增长,推动了对丁二烯衍生产品的需求。包装和电子产业也正在经历向更先进、更有效率产品的转变。黏合剂和密封剂在确保各种包装商品和电子设备的安全性、完整性和功能性方面发挥着至关重要的作用。在包装中,黏合剂为食品、药品和消费品提供安全密封。在电子产品中,它们有助于组装精密组件,防止潮湿和灰尘,并提高整体产品的耐用性。随着这些行业的发展,对源自丁二烯衍生物的高性能黏合剂和密封剂的需求日益突出。虽然对黏合剂和密封剂的需求持续增长,但人们越来越意识到传统石化来源对环境的影响。这种意识促使业界探索更永续的替代品,包括生物基和环保黏合剂和密封剂。这种转变可能会带来丁二烯市场动态的变化,鼓励创新生产方法的开发和替代原料的采用。
丁二烯市场持续面临的挑战是供需之间的微妙平衡。丁二烯主要来自原油精炼或石脑油蒸气裂解,两者都与石油和天然气产业有着复杂的关联。因此,能源市场的任何中断或波动都会直接影响丁二烯的供应。相反,需求与汽车产业密切相关,汽车产业消耗了全球丁二烯产量的很大一部分用于轮胎製造。因此,汽车製造和轮胎生产的波动可能导致市场内的需求衝击。这些因素的相互作用往往会导致供需失衡,导致价格波动并影响下游产业的获利能力。
能源价格,特别是原油和天然气,构成石化产业的基石。丁二烯是合成橡胶生产的关键原料,是透过原油成分石脑油的蒸汽裂解过程获得的。因此,原油价格的波动直接影响丁二烯的生产成本。此外,天然气价格影响丙烯生产(丁二烯的另一种重要原料)以及石化设施的整体营运成本。丁二烯是一种全球贸易商品,供应链跨越多个国家和地区。能源价格的突然变化可能会扰乱这些供应链,导致生产和分销延迟。製造商可能会在确保原材料持续供应方面遇到困难,从而影响其满足客户需求和履行合约承诺的能力。
丁二烯市场最显着的趋势之一是对永续生产流程的日益重视。传统的丁二烯生产方法,例如石脑油或碳氢化合物原料蒸气裂解,通常需要大量能源并导致大量排放。然而,催化剂技术和製程优化的进步正在产生更环保的生产方法。其中包括利用再生原料生产生物基丁二烯等创新技术以及采用碳捕获和利用(CCU)技术,有效减少与丁二烯生产相关的碳足迹。此外,催化剂在丁二烯生产中发挥关键作用。催化剂设计和工程的最新进展提高了合成过程中的选择性、提高了产率并降低了能耗。现在,催化剂可根据特定反应和条件进行定制,从而形成更有效、更永续的丁二烯合成方法。
2022年,丁二烯市场主要由丁苯橡胶主导,预计未来几年将继续扩张。苯乙烯丁二烯橡胶 (SBR) 由丁二烯衍生并与天然橡胶相结合,是轮胎製造的主要成分。这些橡胶聚合物的物理和化学特性有助于提高轮胎的性能,例如滚动阻力、磨损和牵引力。在各种工业应用中,SBR橡胶通常用作天然橡胶的直接替代品。 SBR 值得注意的属性包括卓越的老化特性、抗裂性和耐磨性。此外,苯乙烯-丁二烯表现出显着的耐水性和抗压缩形变性。 SBR 最初是作为一种合成共聚物开发的,用于替代轮胎中的天然橡胶,是透过 BD 与苯乙烯结合生产的。目前,SBR 与天然橡胶一起占全球橡胶消费量的 90%。它的使用范围涉及水、液压油或酒精,应用范围从轮胎和内胎到压缩机和传送带覆盖物。
2022年,汽车工业领域主导丁二烯市场,预计在可预见的未来将维持扩张。丁二烯广泛用于生产合成橡胶和弹性体,例如聚丁二烯橡胶 (PBR)、丁腈橡胶 (NR)、苯乙烯-丁二烯橡胶 (SBR) 和聚氯丁二烯 (Neoprene)。这些材料随后用于製造各种商品和原材料。当丁二烯橡胶用作起始材料时,它成为丙烯腈-丁二烯-苯乙烯(ABS)树脂的重要组成部分,该树脂在塑胶生产中有多种应用。值得注意的是,聚丁二烯广泛用于轮胎製造,占全球生产的所有轮胎的70%以上。它在轮胎中的应用,特别是在胎侧,有助于减少使用过程中连续弯曲引起的应变。因此,在可预见的未来,汽车产业对丁二烯的需求预计将会成长。
亚太地区已成为全球丁二烯市场的领导者。在快速工业化以及汽车和橡胶应用中对丁二烯的需求增加的推动下,预测期内的预期成长率预计将是该地区最高的。在该地区国家中,中国是成长最快的市场,丁二烯消费量最大,其次是印度和其他东南亚国家。这种增长可归因于蓬勃发展的汽车製造业。根据中国汽车工业协会统计,2021年4月,商用车产销分别完成50.1万辆和46.8万辆,较上季大幅增加91%和73.8%。这些趋势为丁二烯市场的参与者创造了充满希望的机会。此外,丁二烯衍生物在纺织业中不断扩大用于生产鞋子、手套和皮带也有助于该区域市场的扩张。
在本报告中,除了以下详细介绍的产业趋势外,全球丁二烯市场也分为以下几类:
公司简介:全球丁二烯市场主要公司的详细分析。
全球丁二烯市场报告以及给定的市场资料,技术科学研究根据公司的具体需求提供客製化服务。该报告可以使用以下自订选项:
The Global Butadiene Market achieved a valuation of USD 12.8 billion in 2022 and is projected to experience robust growth during the forecast period, exhibiting a Compound Annual Growth Rate (CAGR) of 4.00% through 2028. The Global Butadiene market is expected to reach the market size of USD 16.14 billion in 2028. Butadiene, a highly reactive colorless gas, plays a pivotal role in the production of synthetic rubber and plastics. These materials find widespread applications across industries such as automotive, construction, packaging, consumer products, and protective clothing. The market's growth is primarily propelled by factors including increased demand from end-use sectors, cost-effective functionality, and the growing number of automobiles. Moreover, the versatility of butadiene, particularly its exceptional elastic properties used for insulation in the electrical industry, further contributes to market expansion. The utilization of butadiene in the production of tire treads, golf balls, footwear, industrial parts, automotive components, rubber isolators, and various other applications is expected to foster overall market growth. Nonetheless, challenges such as declining production due to shale oil discoveries, potential adverse effects, volatile raw material prices, and stringent regulatory requirements may impede market progress. On a positive note, the rising demand for nylon 66 resin in key industries like automotive and electronics, coupled with the focus on developing bio-based routes for 1,3 butadiene production, presents promising opportunities for the market.
Market Overview | |
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Forecast Period | 2024-2028 |
Market Size 2022 | USD 12.8 billion |
Market Size 2028F | USD 16.14 billion |
CAGR 2023-2028 | 4% |
Fastest Growing Segment | Styrene Butadiene Rubber |
Largest Market | Asia Pacific |
Recent years have witnessed a significant transformation in the automotive sector, marked by a shift towards sustainable, efficient, and technologically advanced vehicles. Butadiene, a crucial chemical compound primarily derived from petroleum refineries and hydrocarbon cracking, assumes a pivotal role in synthetic rubber production. This includes widely used variants such as styrene-butadiene rubber (SBR) and polybutadiene rubber (PBR), extensively employed in tire manufacturing, a cornerstone of the automotive domain. Furthermore, butadiene finds applications in various automotive components like hoses, belts, gaskets, and seals, enhancing overall vehicle functionality and safety. Its chemical adaptability also positions it as a crucial building block in plastics, resins, and various chemical intermediates. Stringent emission regulations have catalyzed the development of electric and hybrid vehicles; however, even these alternative propulsion systems rely on butadiene-derived rubber components, highlighting the enduring demand for butadiene in non-combustion engine systems. As automakers strive to enhance fuel efficiency while upholding safety standards, the focus on reducing vehicle weight is intensifying. Lightweight materials, often incorporating plastics and composites derived from butadiene, are gaining traction in pursuit of these goals. Furthermore, the growth of autonomous vehicles mandates advanced sensor and LiDAR technologies, many of which rely on protective butadiene-based plastic materials. With the proliferation of self-driving vehicles, this trend is poised to further stimulate demand. As the automotive industry evolves towards smarter, safer, and more environmentally friendly designs, the pivotal role of butadiene in enabling these advancements becomes increasingly evident. The interconnectedness between the automotive industry and the global butadiene market underscores the significance of collaboration and innovation in shaping the future of transportation.
In recent times, there has been a noteworthy upswing in global demand for butadiene, predominantly driven by the escalating requirement for adhesives and sealants across various sectors. Butadiene, a crucial petrochemical compound, has become an indispensable raw material for producing elastomers, plastics, and other valuable products. The surge in demand can be attributed to the diverse applications of adhesives and sealants in industries such as automotive, construction, packaging, and electronics. The global emphasis on sustainable infrastructure and energy-efficient buildings has led to the adoption of innovative construction materials and techniques. Adhesives and sealants play a pivotal role in establishing airtight seals, insulating structures, and enhancing overall building performance. As the construction sector continues to expand, the demand for these materials grows in tandem, propelling the need for products derived from butadiene. The packaging and electronics industries are also experiencing a shift towards more advanced and efficient products. Adhesives and sealants play a critical role in ensuring the safety, integrity, and functionality of various packaged goods and electronic devices. In packaging, adhesives provide secure seals for food items, pharmaceuticals, and consumer goods. In electronics, they aid in assembling delicate components, safeguard against moisture and dust, and enhance overall product durability. As these industries evolve, the demand for high-performance adhesives and sealants sourced from butadiene derivatives gains prominence. While the demand for adhesives and sealants continues to rise, there is a growing awareness regarding the environmental impact of conventional petrochemical sources. This awareness has prompted industries to explore more sustainable alternatives, including bio-based and eco-friendly adhesives and sealants. Such a shift may bring about changes in the dynamics of the butadiene market, encouraging the development of innovative production methods and the adoption of alternative raw materials.
A persistent challenge in the butadiene market is the delicate balance between supply and demand. Butadiene is primarily sourced from crude oil refining or naphtha steam cracking, both intricately linked to the oil and gas sector. Consequently, any disruptions or fluctuations in energy markets can directly impact the supply of butadiene. Conversely, demand is closely tied to the automotive industry, which consumes a substantial portion of global butadiene production for tire manufacturing. Consequently, fluctuations in automotive manufacturing and tire production can lead to demand shocks within the market. The interplay of these factors often results in supply-demand imbalances, contributing to price volatility and affecting the profitability of downstream industries.
Energy prices, particularly crude oil and natural gas, form the bedrock of the petrochemical industry. Butadiene, a pivotal feedstock in synthetic rubber production, is obtained through the steam cracking process of naphtha, a component of crude oil. As a result, fluctuations in crude oil prices directly influence the cost of butadiene production. Additionally, natural gas prices impact propylene production, another crucial feedstock for butadiene, as well as the overall operational costs of petrochemical facilities. Butadiene is a globally traded commodity, with supply chains spanning multiple countries and regions. Sudden shifts in energy prices can disrupt these supply chains, resulting in production and distribution delays. Manufacturers may encounter difficulties in securing a consistent supply of raw materials, impacting their capacity to meet customer demands and fulfill contractual commitments.
One of the most notable trends in the butadiene market is the growing emphasis on sustainable production processes. Conventional methods of butadiene production, such as naphtha or hydrocarbon feedstock steam cracking, often demand substantial energy and lead to significant emissions. However, advancements in catalyst technology and process optimization are yielding more environmentally friendly production methods. These include innovative techniques like bio-based butadiene production from renewable feedstocks and the adoption of carbon capture and utilization (CCU) technologies, effectively reducing the carbon footprint associated with butadiene production. Moreover, catalysts play a pivotal role in butadiene production. Recent progress in catalyst design and engineering has resulted in improved selectivity, higher yields, and reduced energy consumption in the synthesis process. Catalysts are now tailored to specific reactions and conditions, resulting in a more efficient and sustainable approach to butadiene synthesis.
In 2022, the market for Butadiene was predominantly led by styrene butadiene rubber and is anticipated to continue its expansion in the years ahead. Styrene Butadiene Rubber (SBR), derived from butadiene and combined with natural rubber, serves as the primary constituent in tire manufacturing. The physical and chemical properties of these rubber polymers contribute to tire performance aspects such as rolling resistance, wear, and traction. In various industrial applications, SBR rubber is commonly employed as a direct substitute for natural rubber. Noteworthy attributes of SBR include exceptional aging characteristics, crack resistance, and abrasion resistance. Moreover, styrene-butadiene exhibits remarkable resistance to water and compression set. Initially developed as a synthetic copolymer to replace natural rubber in tires, SBR is produced through the combination of BD with styrene. Presently, SBR, in conjunction with natural rubber, accounts for a significant 90% of global rubber consumption. Its utilization spans scenarios involving water, hydraulic fluids, or alcohol, with applications ranging from tires and tubes to compressors and conveyor belt coverings.
In 2022, the automobile industries segment dominated the Butadiene market and is expected to sustain its expansion in the foreseeable future. Butadiene finds extensive use in the production of synthetic rubbers and elastomers, such as polybutadiene rubber (PBR), nitrile rubber (NR), styrene-butadiene rubber (SBR), and polychloroprene (Neoprene). These materials are subsequently employed in manufacturing a wide array of goods and raw materials. When butadiene-based rubber is used as a starting material, it becomes a crucial component of acrylonitrile-butadiene-styrene (ABS) resin, which finds diverse applications in plastics production. Notably, polybutadiene is widely used in tire manufacturing, accounting for over 70% of all tires produced globally. Its application in tires, particularly in sidewalls, helps reduce strain caused by continuous bending during use. Consequently, the demand for butadiene in the automotive sector is projected to grow in the foreseeable future.
The Asia Pacific region has emerged as the leader in the Global Butadiene Market. The anticipated growth rate during the forecast period is projected to be the highest in this region, propelled by rapid industrialization and increased demand for butadiene in automotive and rubber applications. Among the countries in the region, China stands out as the fastest-growing market, consuming the largest amount of butadiene, followed by India and other South-East Asian nations. This growth can be attributed to the flourishing car manufacturing industry. According to the China Association of Automobile Manufacturers (CAAM), sales and production of commercial vehicles reached 501,000 and 468,000 units in April 2021, respectively, representing significant growth of 91% and 73.8% compared to March. These trends create promising opportunities for participants in the butadiene market. Additionally, the expanding utilization of butadiene derivatives in the textile industry for producing shoes, gloves, and belts is also contributing to the regional market's expansion.
In this report, the Global Butadiene Market has been segmented into the following categories, in addition to the industry trends which have also been detailed below:
Company Profiles: Detailed analysis of the major companies present in the Global Butadiene Market.
Global Butadiene Market report with the given market data, Tech Sci Research offers customizations according to a company's specific needs. The following customization options are available for the report: