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市场调查报告书
商品编码
1403429
到 2030 年黏结磁体市场预测:按产品、製程、应用、最终用户和地区进行的全球分析Bonded Magnet Market Forecasts to 2030 - Global Analysis By Product (Ferrite, Rare Earth Magnets, Hybrid and Other Products), Process, Application, End User and By Geography |
根据Stratistics MRC预测,2023年全球黏结磁体市场规模将达24亿美元,预计2030年将达到36亿美元,预测期内复合年增长率为6.1%。
黏结磁铁是一种将含有钕或铁氧体粉末的磁性颗粒与聚合物黏合剂结合而製成的磁铁。将此混合物模製或压缩成所需的形状,然后加热以形成固体磁性材料。透过将磁性颗粒黏合在一起的粘合剂,可以实现传统磁铁製造技术不可能实现的复杂形状和尺寸。这些磁铁具有高度耐腐蚀和适应性,可满足汽车、电子和医疗保健行业的特定需求。
根据全球风力发电理事会的数据,全球拥有 743GW 的风电容量,这可能会在全球整体减少约 11 亿吨二氧化碳排放。
汽车领域需求不断成长
黏结磁铁广泛应用于汽车行业的各种应用,例如马达、感测器和致动器。在电动车(EV) 马达和感测器中,它们的多功能性提高了效率并促进组件合理化和小型化。此外,其经济性和设计弹性为製造商提供了创造性的选择,以满足汽车行业电动驱动不断变化的需求。因此,这些方面正在推动市场扩张。
有限的温度稳定性
黏结磁体在高温下磁性能会变差,因此不建议在高温下使用。这些磁铁在高温下会失去一些磁性,从而降低其功能,并可能永久失去磁化强度。这些磁铁的结构完整性可能会因将它们粘合在一起的聚合物和树脂的劣化而受到损害。这些点都阻碍了市场的扩张。
环境法规
日益严格的环境法规正在增加对黏结磁体的需求。黏结磁铁的高磁性和稀土元素使用量的减少使得黏结磁铁成为永续的替代品。生产中使用可回收材料,因此对环境的影响最小。支持节能技术的法规以及对环境永续性的担忧鼓励在各种节能应用中使用黏结磁体。
易于腐蚀
有些黏结磁铁容易受到腐蚀。由于黏结磁铁由聚合物和磁性颗粒组成,因此它们在潮湿或磨蚀区域容易劣化和氧化。这一弱点会降低使用寿命和磁性性能,使其在需要高耐用性的环境中不太有用。这些问题阻碍了市场扩张。
这场流行病扰乱了全球供应链,影响了生产黏结磁体所需的原料和零件的供应。运输和物流限制导致延误和短缺。社交距离要求和封锁措施影响了製造设施,导致产能减少和暂时关闭。这种中断影响了黏结磁体的整体生产。
预计射出成型产业在预测期内将是最大的
预计射出成型产业在预测期内将是最大的产业。黏结磁铁的射出成型可以精确成型复杂的形状,从而实现复杂的设计和严格的公差。可以进行大规模生产,从而减少製造时间和成本。此工艺可提供一致的磁性和可靠的性能。此外,结合多种材料的能力使得磁铁的特性可以针对特定应用进行客製化。
预计感测器产业在预测期内复合年增长率最高。
预计感测器产业在预测期内复合年增长率最高。磁铁具有高磁强度和稳定性,可实现精确可靠的感测能力。它非常耐用,即使在恶劣的环境下也能长时间使用。它可以适应不同的形状和尺寸,使其适用于各种感测器应用。整体而言,黏结磁体感测器具有强大的性能、成本效益和多功能的感测技术。
由于汽车、电子和医疗保健等行业对各种应用的需求不断增加,预计北美在预测期内将占据最大的市场占有率。技术进步、对节能产品的需求以及再生能源来源的推广等因素正在促进该地区的市场成长。此外,它们还受到促进使用永续和环保材料的环境法规和倡议的影响。
由于工业化程度提高、技术进步以及汽车、电子和能源等行业需求增加等多种因素,亚太地区预计在预测期内将维持最高复合年增长率。随着对风能等再生能源来源的日益重视以及电动车的日益普及,这些产业对黏结磁体的需求预计将进一步推动该地区的市场。
According to Stratistics MRC, the Global Bonded Magnet Market is accounted for $2.4 billion in 2023 and is expected to reach $3.6 billion by 2030 growing at a CAGR of 6.1% during the forecast period. A bonded magnet is a kind of magnet created by combining a polymer binder with magnetic granules, including neodymium or ferrite powders. After shaping or compressing this mixture into the required shape, it is heated to produce a solid, magnetic substance. Complex forms and sizes that would not be possible with conventional magnet production techniques are made possible by the binding agent, which aids in holding the magnetic particles together. These magnets are corrosion resistant, adaptable, and may be made to fit specific needs in the automotive, electronics, and healthcare sectors.
According to the Global Wind Energy Council, there is 743 GW of wind power capacity around the world, which is likely to result in the prevention of close to 1.1 Bn tons of CO2 emissions globally.
Bonded magnets are widely used in the automobile industry for a variety of purposes, including motors, sensors, and actuators. Their versatility in electric vehicle (EV) motors and sensors provides increased efficiency, facilitating component rationalization and downsizing. Furthermore, their affordability and design flexibility provide manufacturers creative options that meet the changing demands of the automobile industry's electrification push. Thus, these aspects are driving the market's expansion.
High temperatures can cause bonded magnets to lose their magnetic characteristics, hence they are not recommended for use in high-temperature situations. These magnets lose some of their magnetic characteristics at high temperatures, which might cause them to function worse and perhaps lose their magnetization permanently. These magnets' structural integrity may be compromised by degradation of the polymer or resin that binds them. These aspects are preventing the market from expanding.
Increased environmental laws are driving more demand for bonded magnets. With their high magnetic qualities and reduced requirement for rare earth elements, these magnets provide a sustainable substitute. Because recyclable materials are used in their manufacture, the environmental effect is minimized. The usage of bonded magnets in different energy-saving applications is encouraged by rules supporting energy-efficient technology and an increased focus on environmental sustainability.
Some bonded magnets are more prone to corrosion, especially in high-moisture or chemically exposed situations. Because they are composed of a polymer and magnetic granules, they are easily degraded and oxidized in humid or abrasive settings. Due to this weakness, they are less useful in environments where great endurance is required because of their reduced lifetime and magnetic performance. The market's expansion is being hampered by these issues.
The pandemic disrupted global supply chains, affecting the availability of raw materials and components necessary for bonded magnet production. Restrictions on transportation and logistics created delays and shortages. Social distancing requirements and lockdown measures affected manufacturing facilities, leading to reduced production capacity or temporary closures. This disruption impacted the overall output of bonded magnets.
The injection molding segment is expected to be the largest during the forecast period. Bonded magnet injection molding offers precise shaping of complex geometries, allowing intricate designs and tight tolerances. It enables high-volume production, reducing manufacturing time and cost. The process facilitates consistent magnetic properties, enhancing performance reliability. Additionally, it permits the incorporation of various materials, leading to customized magnet properties for specific applications.
The sensors segment is expected to have the highest CAGR during the forecast period. They possess high magnetic strength and stability, enabling precise and reliable sensing capabilities. Their durability allows for extended use in harsh environments. Their adaptability to various shapes and sizes makes them versatile for different sensor applications. Overall, bonded magnet sensors provide robust performance, cost efficiency, and versatility in sensing technology.
North America is projected to hold the largest market share during the forecast period due to the increased demand for various applications across industries like automotive, electronics, and healthcare. In this region, factors like technological advancements, the need for energy-efficient products, and the push for renewable energy sources have contributed to the growth of the market. Moreover, the market is influenced by environmental regulations and initiatives promoting the use of sustainable and eco-friendly materials.
Asia Pacific is projected to hold the highest CAGR over the forecast period due to various factors such as increasing industrialization, technological advancements, and rising demand in sectors like automotive, electronics, and energy. With the growing emphasis on renewable energy sources like wind power and the increasing adoption of electric vehicles, the demand for bonded magnets in these sectors is expected to further boost the market in the region.
Some of the key players in Bonded Magnet market include Dura Magnetics, Inc., Super Magnet Co., Ltd., Adams Magnetic Products, SDM Magnetics Co., Ltd., Ningbo Yunsheng Co. Ltd., Advanced Technology Materials Co. Ltd., MP Material, MMC Magnetics Corp, Arnold Magnetic Technologies, Alliance LLC, Dexter Magnetic Holdings, LLC , TDK Corporation, Stanford Magnets and Allstar Magnetics.
In April 2023, Arnold Magnetic Technologies Corporation and leading global manufacturer of high-performance magnets and more for mission critical applications, announced its partnership with Cyclic Materials, a pioneer in developing more sustainable domestic supply chains for rare earth elements.
In March 2022, Dexter Magnetic Holdings, LLC has announced the acquisition of Torrance, California-based Magnetic Component Engineering, LLC ("MCE"). The transaction brings together two of the leading designers and manufacturers of permanent magnets and magnetic assemblies in North America.
Note: Tables for North America, Europe, APAC, South America, and Middle East & Africa Regions are also represented in the same manner as above.