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市场调查报告书
商品编码
1662722
2030 年氯化聚乙烯市场预测:按等级、应用和地区进行的全球分析Chlorinated Polyethylene Market Forecasts to 2030 - Global Analysis By Grade, Application and By Geography |
根据 Stratistics MRC 的数据,全球氯化聚乙烯市场预计在 2024 年将达到 7.2087 亿美元,到 2030 年将达到 12.981 亿美元,预测期内的复合年增长率为 10.3%。
氯化聚乙烯(CPE)是一种透过氯化合成聚乙烯生产的多功能热塑性聚合物。这种改质使 CPE 具有了改进的品质,例如更好的耐化学品、耐油和劣化,使其能够用于各种工业应用。其优异的柔韧性、耐用性和耐候性使其成为屋顶膜、电线涂层、输送机和汽车零件的理想材料。
根据国际能源总署(IEA)的报告,到2030年,全球对聚乙烯(包括其氯化衍生物)的需求预计将达到1.2亿吨。
对耐久材料的需求日益增加
消费品、汽车和建筑等领域对于能够承受紫外线、高温、极端天气和各种化学物质等恶劣环境条件的材料的需求正在日益增长。 CPE具有优异的耐化学性,使其成为暴露于油、化学品和户外环境中的产品的理想选择。此外,随着各行各业转向永续耐用的材料以降低维护成本并延长产品寿命,对 CPE 的需求也在增加。
製造成本高
与替代材料相比,CPE 的製造成本相对较高,这是限制市场的主要因素之一。聚乙烯氯化製程需要较高的能耗和专用的设备,增加了运作成本。此外,生产CPE所需的原料,如氯和聚乙烯的成本也可能会根据市场情况而变化。如果市场上有更便宜的替代品,那么寻求成本效益解决方案的行业可能不会被 CPE 所吸引。
CPE製造技术的创新
随着製造技术的不断发展,氯化聚乙烯对环境的影响、成本效益和生产效率可能会得到改善。增强氯化程序、绿色化学策略和节能製造技术等新发展可能会降低 CPE 的整体成本,并使其相对于其他材料更具竞争力。此外,复合技术和聚合物混合物的进步使得生产商能够根据特定应用客製化 CPE,从而有可能提高品质并扩大工业应用。
不同物质之间的竞争日益激烈
热可塑性橡胶(TPE)、PVC 和其他工程塑胶是各种应用领域中与 CPE 竞争的材料之一。随着製造商和产业寻找性能更佳、成本更低、环境效益更好的替代品,这些材料可能会面临更激烈的竞争。例如,TPE 和其他合成聚合物的创新可以以较低的成本提供类似的品质,如柔韧性、抗衝击性和耐化学性。此外,随着替代材料的开发和性能的提高,CPE 可能会发现维持市场占有率变得更加困难,特别是在价格敏感的领域和寻求更环保解决方案的领域。
由于製造工厂暂时关闭、工业活动放缓以及全球供应链中断,COVID-19 疫情严重影响了氯化聚乙烯 (CPE) 市场。在疫情初期,由于需求放缓或依赖 CPE 的几个行业(包括消费品、建筑和汽车行业)的营运停止,消费量下降。此外,聚乙烯和氯等原材料生产中断也导致了延误和成本上升。然而,随着復苏工作的进展以及各行各业适应新的健康和安全法规,包装和汽车等行业对 CPE 的需求增加。
预计预测期内氯化聚乙烯 (CPE) 135A 细分市场将成为最大的细分市场。
氯化聚乙烯 (CPE) 135A 预计将在预测期内占据最大的市场占有率,因为它经常用于涉及抗衝击改性的应用中。 PVC 管路、配件和型材通常由 CPE 135A 製成,以增强抗衝击强度、韧性和耐候性。 CPE135A 因其优异的耐化学性和热稳定性而受到基础设施和建筑行业的青睐。此外,随着电气和汽车行业的扩张,CPE 135A 出色的绝缘性能和耐热、耐油性能使其在软管、密封件和电缆领域广受欢迎。
预测期内,抗衝击改质剂领域预计将以最高复合年增长率成长
抗衝改质剂领域在改善各种聚合物产品的功能性方面发挥着至关重要的作用,尤其是在汽车和建筑行业,预计在预测期内将出现最高的成长率。 CPE 是一种抗衝击改质剂,可显着提高 PVC 和其他硬质塑胶的韧性、耐久性和抗衝击性,这使其对于管道、窗框和墙板等建筑领域的应用极为重要。此外,人们对持久可持续材料的日益关注,加速了 CPE 作为抗衝改质剂的使用,支持了其强劲的成长轨迹。
预计在预测期内,亚太地区将占据最大的市场占有率,这得益于该地区工业、汽车和建筑业的蓬勃发展。主要贡献者包括中国、印度和日本。这是由于广泛的製造地、大型基础设施计划以及各种应用对耐用材料的需求不断增长。原料的充足、廉价的劳动力以及发达的聚合物加工技术为该地区带来了优势。此外,亚太地区对都市化和工业化的日益重视增强了其在全球市场的主导地位,从而不断增加从汽车零件到建筑材料等广泛应用领域对 CPE 的需求。
预计北美地区在预测期内将呈现最高的复合年增长率。基础设施计划对于耐候性和耐衝击性材料的需求日益增加,以及鼓励使用阻燃和耐火材料的严格法规,极大地推动了 CPE 在电线电缆护套、软管和黏合剂等应用中的采用。此外,汽车产业对轻量材料和永续解决方案的关注也刺激了对 CPE 作为抗衝击改质剂的需求。此外,由于多种因素,北美 CPE 市场正在迅速扩张,包括成熟的终端使用行业的存在、聚合物加工的技术突破、以及节能建筑的日益增长的趋势。
According to Stratistics MRC, the Global Chlorinated Polyethylene Market is accounted for $720.87 million in 2024 and is expected to reach $1298.10 million by 2030 growing at a CAGR of 10.3% during the forecast period. Chlorinated Polyethylene (CPE) is a multipurpose thermoplastic polymer that is produced by chlorinating synthetic polyethylene. Because of the improved qualities this modification imparts, including increased resistance to chemicals, oils, and aging, CPE can be used in a variety of industrial applications. It is the perfect material for use in roofing membranes, wire coatings, conveyor belts, and automotive parts because of its exceptional flexibility, durability, and weather ability.
According to a report by the International Energy Agency (IEA), the global demand for polyethylene, including its chlorinated derivatives, is projected to reach 120 million metric tons by 2030.
Growing need for long-lasting materials
The demand for materials that can survive harsh environmental conditions, like UV rays, high temperatures, extreme weather, and exposure to different chemicals, is rising in sectors like consumer goods, automotive, and construction. Because of its remarkable resistance to chemicals, CPE is highly prized and perfect for products exposed to oils, chemicals, and outdoor environments. Moreover, CPE is becoming more and more in demand as industries shift to sustainable and durable materials to lower maintenance costs and extend product life spans.
Expensive production costs
The relatively high production cost of CPE in comparison to alternative materials is one of the main factors limiting the market. High energy consumption and specialized equipment are needed for the chlorination process of polyethylene, which raises operating costs. Additionally, the cost of the raw materials required to produce CPE, such as chlorine and polyethylene, can change depending on the state of the market. Industries looking for cost-effective solutions may find CPE less appealing when there are less expensive alternatives on the market because these high production costs are frequently passed on to end users.
Innovations in technology for CPE production
Significant prospects exist for enhancing the environmental impact, cost-effectiveness, and production efficiency of chlorinated polyethylene through ongoing developments in manufacturing technologies. New developments like enhanced chlorination procedures, green chemistry strategies, and energy-efficient manufacturing techniques may lower the cost of CPE overall and increase its competitiveness with other materials. Furthermore, advancements in compounding technologies and polymer blends may enable producers to tailor CPE for particular uses, enhancing its qualities and expanding its industry application.
Growing competition from different substances
Thermoplastic elastomers (TPE), PVC, and other engineering plastics are among the materials that compete with CPE in various applications. These materials may become more competitive as manufacturers and industries look for substitutes that provide better performance, reduced costs, or increased environmental benefits. Innovations in TPEs and other synthetic polymers, for instance, provide comparable qualities like flexibility, impact resistance, and chemical resistance, frequently at a lower cost. Moreover, CPE might find it difficult to hold onto market share as substitute materials develop and get better, especially in sectors that are price-sensitive or looking for more environmentally friendly solutions.
Due to temporary shutdowns of manufacturing facilities, decreased industrial activity, and disruptions in global supply chains, the COVID-19 pandemic had a major effect on the market for chlorinated polyethylene (CPE). A decline in consumption resulted from slowed demand or halted operations in several CPE-dependent industries, including consumer goods, construction, and the automobile industry, during the early phases of the pandemic. Furthermore, contributing to delays and cost increases were interruptions in the production of raw materials like polyethylene and chlorine. Demand for CPE, however, increased in industries like packaging and automotive as recovery efforts got underway and industries adjusted to new health and safety regulations.
The Chlorinated Polyethylene (CPE) 135A segment is expected to be the largest during the forecast period
The Chlorinated Polyethylene (CPE) 135A segment is expected to account for the largest market share during the forecast period because it is frequently used in applications involving impact modification. PVC pipes, fittings, and profiles are frequently made with CPE 135A because it increases their impact strength, toughness, and resistance to weather. It is favored in the infrastructure and construction industries, which are the main sources of demand, due to its exceptional chemical resistance and thermal stability. Because of its superior insulation qualities and resistance to heat and oils, CPE 135A has also become increasingly popular in flexible hoses, seals, and cables as a result of the expansion of the electrical and automotive industries.
The Impact Modifier segment is expected to have the highest CAGR during the forecast period
Over the forecast period, the Impact Modifier segment is predicted to witness the highest growth rate, motivated by its vital role in enhancing the functionality of different polymer products, especially in the automotive and construction industries. CPE is crucial for applications like pipes, window profiles, and siding in the construction sector because it acts as an impact modifier, greatly increasing the toughness, durability, and impact resistance of PVC and other rigid plastics. Furthermore, the increased focus on long-lasting and sustainable materials has accelerated the use of CPE as an impact modifier, supporting its strong growth trajectory.
During the forecast period, the Asia-Pacific region is expected to hold the largest market share, propelled by the region's thriving industrial, automotive, and construction sectors. Leading contributors include China, India, and Japan because of their extensive manufacturing bases, massive infrastructure projects, and rising demand for durable materials in a variety of applications. Raw material availability, affordable labor, and developments in polymer processing technologies all contribute to the region's dominance. Furthermore, the Asia-Pacific region's dominant position in the global market has been cemented by the ongoing demand for CPE in applications ranging from automotive components to construction materials brought about by the increased emphasis on urbanization and industrialization throughout the region.
Over the forecast period, the North America region is anticipated to exhibit the highest CAGR. The adoption of CPE in applications such as wire and cable jacketing, hoses, and adhesives has been greatly accelerated by the increasing need for weather-durable and impact-resistant materials in infrastructure projects, as well as strict regulations encouraging the use of materials that are resistant to flames and ignition. The demand for CPE as an impact modifier is also being accelerated by the region's emphasis on lightweight materials and sustainable solutions in the automotive industry. Moreover, the CPE market in North America is expanding rapidly due to a number of factors, including the existence of well-established end-use industries, technological developments in polymer processing, and the growing trend toward energy-efficient buildings.
Key players in the market
Some of the key players in Chlorinated Polyethylene market include Evonik Industries AG, Arkema Group, LG Chem Ltd., Hangzhou Keli Chemical Co., Ltd., Nippon Paper Chemicals Co., Ltd., Sumitomo Chemical Co., Ltd., Dow Chemicals, S&E Specialty Polymers, LLC, Weifang Yaxing Chemical Co., Ltd., ExxonMobil Chemical Company, Kaneka Corporation, Lianda Corporation, Novista Group Co., Ltd., Resonac Holdings Corporation and Showa Denko K.K.
In November 2024, LG Chem Ltd. has signed an initial agreement to secure a key battery material from US multinational gas and oil company ExxonMobil Corp. The two companies have signed a non-binding memorandum of understanding (MOU) for a multi-year offtake agreement for up to 100,000 metric tons of lithium carbonate over 10 years from 2030.
In May 2024, Arkema has agreed to acquire Dow's flexible packaging laminating adhesives business, one of the leading producers of adhesives for the flexible packaging market, generating annual sales of around US$250 million. The proposed acquisition will significantly expand Arkema's portfolio of solutions for flexible packaging, enabling the Group to become a key player in this attractive market.
In March 2024, Evonik Vland Biotech, a new joint venture between Evonik China and Shandong Vland Biotech, began operations. The venture aims to expand the market presence of their livestock probiotics in Greater China and develop new products. Evonik's biotech platform is dedicated to creating biosolutions for healthier living.