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到 2030 年 MRO 防护涂料市场预测:按细分市场和地区分類的全球分析MRO Protective Coatings Market Forecasts to 2030 - Global Analysis By Product, Resin Type, Formulation, Application, End User and By Geography |
根据Stratistics MRC的数据,2023年全球MRO防护涂料市场规模将达到58.1亿美元,预计到2030年将达到96.3亿美元,预测期内年复合成长率为7.5%。
MRO 防护涂料是轻质防护涂料,主要用于钢材、混凝土和其他金属,以提高某些属性,包括导电性、耐候性和耐腐蚀。 MRO 涂层涂布数百个零件,包括消耗品、替换零件、安全设备和实验室设备。这些屏蔽涂层不仅可以保护零件免受污染,还可以延长产品的使用寿命并减少可能干扰其功能的污染物量。
据印度品牌股权基金会 (IBEF) 称,到 2022 年,涂料行业预计将吸引价值 250 亿美元的探勘和生产投资。
在土木工程和建筑/基础设施领域,防护漆用于地板材料、木器饰面材料、内外墙、桥樑、水池、门、天花板等。防护涂料透过在涂布表面形成薄层来延长建筑物的寿命和稳定性。桥樑和道路等基础设施项目通常需要长期稳定,并能够承受酸雨等恶劣天气条件。这些行业不断增长的需求正在推动市场需求。
限制防护涂料使用的法规日益严格,迫使製造商生产挥发性有机化合物 (VOC) 更低、固态含量更高、有毒除生物剂更少的产品。 REACH、绿色印章、溶剂排放指令 (SED) 和除生物剂指令 (BPD) 是严格的环境法规,限制挥发性有机化合物 (VOC) 和有害空气污染物 (HAP) 的排放。这给溶剂型涂料的涂布带来了技术问题并阻碍了市场需求。
应用保护涂层以延长目前基材的寿命。有些系统在多个领域连续运作。其中包括使用恶劣的材料和暴露在不断变化的气候条件下。结果,设备结构劣化,工艺效率下降,导致工厂关闭和所有活动暂停。防护涂层可以帮助避免这些问题并节省设备维修和停机费用。
防护涂层非常昂贵,其製造成本随着能源成本的上升而上升。原油价格波动和外汇波动正在推高原物料价格。生产保护膜所用原料的成本差异很大。除了原材料价格上涨之外,製造商还必须支付由于能源税增加而产生的额外成本。高成本和低收益方面了市场的成长。
COVID-19 一直是全球涂料产业最具颠覆性的力量。贸易限制扰乱了供应链,世界各地政府关闭导致需求下降。儘管大多数油漆生产设施正在逐步恢復运营,但顶级油漆和涂料製造商仍对病例持续增加和需求下降感到担忧。在所有地区中,亚太地区是跌幅最大的市场。该市场受到客户关闭、消费者支出历史低点以及缺乏资本投资等要素的显着影响。建筑、汽车和运输业的扩张也促进了市场的成长。
环氧树脂领域预计将出现良好的成长。环氧涂层是坚韧的保护材料,用于抵抗碳钢储存槽外装的劣化。环氧涂层具有出色的耐磨性、抗湍流性、耐腐蚀性化学物质和极端温度性能。环氧涂料因其耐高温的能力而受到高度讚扬。环氧树脂也能快速干燥,最大限度地减少涂层固化时的生产停机时间。此外,环氧树脂能够抵抗化学暴露、漏油和表面刮痕。这可以防止漆膜劣化和维护的需要。
预计基础设施和领域在预测期内将出现最快的年复合成长率。 MRO 涂层旨在承受磨损和衝击,使其能够承受回填期间安装的管道接触到的岩石和其他碎片的力量。保护涂层应用于结构以提高其耐用性并保护其免受紫外线辐射、火灾和腐蚀。用于工业项目,以提高耐热性并最大限度地减少腐蚀性气体的影响。预计该市场将受到不断扩大的建设产业以及机械上对这些涂料的需求的推动,以防止劣化并提高脆弱区域的性能。
由于中国和印度政府在基础设施项目上的支出增加,预计亚太地区在预测期内将占据最大的市场占有率。特别是,这些配合措施包括铁路、机场、港口和桥樑的建设。非常需要用于阻止和减缓恶劣天气模式引起的腐蚀的保护涂层。基础设施和建筑、电力、汽车、石油、天然气、工业和船舶等最终用途领域的需求不断增长,预计将推动该地区的市场发展。
预计北美在预测期内的年复合成长率最高。由于消费者对电动车的需求不断增加,该地区的汽车预计将扩大。强劲的美国经济和商业房地产行业的有利扩张预计将加强非住宅建筑行业。此外,联邦和州政府对基础设施项目和教育设施的投资正在增加。商业建筑和汽车行业不断增长的需求预计将推动该市场。
According to Stratistics MRC, the Global MRO Protective Coatings Market is accounted for $5.81 billion in 2023 and is expected to reach $9.63 billion by 2030 growing at a CAGR of 7.5% during the forecast period. MRO Protective Coatings are light protective coatings used mostly on steel, concrete, and other metals to improve certain attributes including conductivity, weather resistance, and corrosion resistance. MRO coatings are applied on hundreds of components, including consumables, replacement parts, safety equipment, and laboratory equipment. These shielding coatings not only shield the components from contamination but also increase product longevity and lessen the amount of contaminants that interfere with functioning.
According to the India Brand Equity Foundation (IBEF), the coatings industry is expected to attract investments worth USD 25 billion in exploration and production by 2022.
In the civil building and infrastructure sector, protective coatings are used for flooring, wood finishes, interior and external walls, bridges, swimming pools, doors and ceilings. Protective coatings are used to extend the life and stability of buildings by forming a thin layer on the surfaces to which they are applied. In general, infrastructure projects like bridges and roads need to be stable over a long period of time and be able to survive adverse weather, such acid rain. The rising demand from these industries is fuelling the market demand.
Manufacturers have been forced to create products with low volatile organic compounds (VOCs), high solid content, and fewer toxic biocides as a result of increasingly strict rules limiting the use of protective coatings. REACH, Green Seal, the Solvent Emissions Directive (SED), and the Biocidal Products Directive (BPD) are tough environmental rules that restrict the emission of volatile organic compounds (VOCs) and hazardous air pollutants (HAPs). This has caused technical issues with the application of solvent-based coatings which is thereby hindering the market demand.
In order to prolong the lifespan of the current substrates, protective coatings are applied. There are systems that operate continuously in several sectors. A few of these include the usage of harsh materials or exposure to changing climatic conditions. As a result, the equipment's structure degrades or the process becomes less efficient, leading to the shutdown of the plant or a halt in all activities. Protective coatings aid in averting these problems, saving on the expense of equipment repair and shutdown.
Protective coatings are quite expensive, and the cost of producing them is rising along with the cost of energy. The price of raw materials has increased as a result of fluctuating crude oil prices and shifting foreign exchange rates. The cost of the raw ingredients used to make protective coatings varies greatly. Manufacturers must pay additional expenses owing to increasing energy taxes on top of the pricing of raw materials, which leads to greater operational costs and reduced profit margins. The high cost and low profits aspect is hampering the market growth.
COVID-19 has been the most disruptive force for the global coatings industry. Trade restrictions interrupted supply chains, and worldwide government-imposed lockdowns caused demand to fall. Although most paint production facilities have gradually restarted operations, the top paint and coating makers are concerned about the ongoing rise in instances and declining demand. Of all the regions, Asia-Pacific has had the greatest market drop. The market is being significantly impacted by factors including customer closures, historically low consumer spending, and a lack of capital investments. The expansion of the construction, automotive, and transportation industries has also been contributing to the market's growth.
The epoxy segment is estimated to have a lucrative growth. Epoxy coating is a tough, protective material used to stop the deterioration of carbon steel tanks' exterior. The resilience of epoxy coatings to abrasion, turbulence, corrosive chemicals, and extreme temperatures is superior. The capacity of epoxy coatings to endure intense temperatures makes them highly valued. Epoxy also has the benefit of drying quickly, which minimizes production pauses while the coating cures. Additionally, epoxy is resistant to chemical exposition, oil leaks, and surface scratches. This prevents the coating from deteriorating and needing maintenance.
The infrastructure & construction segment is anticipated to witness the fastest CAGR growth during the forecast period. The MRO coating can withstand the force of rocks and other debris that installed pipes come into contact with during backfilling since it has been designed to resist abrasion and impact. Protective coatings are applied to structures to increase their durability and to shield them from UV rays, fire, and corrosion. To increase heat resistance and minimize the impact of corrosive gases, they are used in industrial projects. The market is anticipated to be driven by the expanding construction industry and the need for these coatings on machinery to protect it from deterioration and enhance its performance in vulnerable regions.
Asia Pacific is projected to hold the largest market share during the forecast period owing to the rising government spending on infrastructure projects in China and India. Among other things, these initiatives involve building railroads, airports, harbours, and bridges. There is a high need for protective coatings that are used to stop and slow down corrosion brought on by severe weather patterns. The increase in demand from end-use sectors including infrastructure & construction, power, automotive, oil & gas, industrial, and marine is expected to boost the market in the area.
North America is projected to have the highest CAGR over the forecast period. The automotive industry in the region is expected to expand as the demand for electric vehicles is increasing among consumers. Due to the U.S.'s strong economy and the favourable expansion of the commercial real estate sector, it is projected that the non-residential building industry will strengthen. Additionally, there is an increase in federal and state investment in infrastructure projects and educational facilities. It is projected that the market will be prompted by the rising demand from the commercial building and automotive industries.
Some of the key players profiled in the MRO Protective Coatings Market include: Akzo Nobel N.V., The Sherwin-Williams Company, Axalta Coating Systems, Henkel AG & Co. KGaA, Basf Se, H.B. Fuller, Nippon Paint Holdings Co Limited, Jotun, Hempel A/S, General Magnaplate Corporation, Teknos Group, Weilburger Coatings GmbH, Sika Ag, Chugoku Marine Paints Limited, RPM International Inc., Kansai Paint Co Limited, Rema Tip Top, Belzona International Limited and Chemco International Limited.
In July 2023, Nippon Paint Automotive Coatings Co., Ltd. launches dry film coating technology to address the needs of automotive industry customers for innovative and sustainable coatings and delivered a keynote speech entitled "Film Coating: New Generation Coating Method in Automotive Manufacturing" at the SURCAR.
In May 2023, AkzoNobel launched bisphenol-free internal coating for beverage can ends. Can makers and coil coaters ramping up their bisphenol-free transition have a ready alternative in a new BPA-NI (Bisphenol A non-intent)* internal coating for beverage can ends, from AkzoNobel Packaging Coatings.
In August 2022, Global coatings company RPM International Inc. announced the launch of its new RPM Industrial Coatings Group, comprised of five coatings and finishing brands. The group consists of Mohawk Finishing Products, FinishWorks, TCI Powder, Morrells Woodfinishes and Kop-Coat Protection Products.
Note: Tables for North America, Europe, APAC, South America, and Middle East & Africa Regions are also represented in the same manner as above.