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到 2030 年陶瓷磁铁(铁氧体磁铁)市场预测:按类型、按产品、按方向、按应用、按最终用户和按地区进行全球分析Ceramic Magnet Market Forecasts to 2030 - Global Analysis By Type, Product, Orientation, Application, End User and By Geography |
根据Stratistics MRC 的数据,2023 年全球陶瓷磁体(铁氧体磁体)市场规模将达到97 亿美元,预测期内復合年增长率为9%,到2030 年将达到163亿美元预计达到
金属磁铁可以用陶瓷磁铁替代,成本低廉。 由于生产成本低以及耐腐蚀和抗退磁,这些磁铁被广泛应用于各种领域。 按重量计算,陶瓷磁体占全球永磁体需求量的75%以上。 陶瓷磁体耐腐蚀,不需要额外的涂层即可保持良好状态。 天然磁铁比陶瓷磁铁弱。 烧製氧化铁和碳酸锶来製造金属氧化物并使用陶瓷磁体。 陶瓷磁铁非常坚固,如果掉落在坚硬的表面上,可能会破裂或以其他方式损坏。
陶瓷磁体的最大终端客户之一是汽车行业,因为陶瓷磁体广泛用于电机、传感器和发电机等各种应用。 随着电动汽车的普及,汽车行业对陶瓷磁体的需求预计将增长。 陶瓷磁体的另一个重要最终用户是飞机领域,陶瓷磁体用于各种应用,例如执行器、传感器和发电机。 航空航天业对轻质高性能材料不断增长的需求预计将推动对陶瓷磁体的需求。
钕磁铁比陶瓷磁铁更贵,但效果更好。 陶瓷磁体市场的扩张预计将受到钕磁体等替代品的限制。 此外,陶瓷磁体中发现的两种有毒元素铅和镉可能对环境有害。
陶瓷磁体的另一个重要最终用户是电气和电子领域,它们用于扬声器、电机和发电机等各种设备。 随着电子产品和电器的普及,电气和电子行业对陶瓷磁体的需求预计将增长。 预计陶瓷磁体市场在医疗器械领域具有巨大的发展潜力。 陶瓷磁体用于许多医疗设备,包括经常用于检测和治疗多种疾病的 MRI 机器。
许多最终用途行业都使用陶瓷磁体,但这些材料的提取和製造可能会导致危险的产品变化。 它们通常源自稀土金属。 然而,预测期内这些原材料的供应有限预计也将抑制全球陶瓷磁体市场的扩张。
预计各向异性部分在预测期内将占据最大份额。 就取向而言,最理想的磁体是各向异性陶瓷磁体,因为它们可以在一个方向上产生磁力并将其指向该方向。 各向异性陶瓷磁体是一种高矫顽力的各向异性陶瓷磁体,由于箭头磁化方向简单,在方向段占据主导地位,因而受到青睐。
汽车行业预计在预测期内将实现利润丰厚的增长。 汽车工业正在推动陶瓷磁体市场。 这是因为门锁系统、雨刷器和电动车窗都使用了陶瓷磁铁。 磁铁是电机最重要的部件之一。 此外,磁铁通常是电机的固定部件,提供产生圆周和线性运动所需的排斥力。 因此,汽车行业受到上述关键变量的推动。
亚太地区以日本、中国、韩国等地区主要国家为主,在电子电气行业陶瓷磁体市场占据主导地位,广泛应用于家电和製造中心。所占份额最大。 因此,以下国家大规模消费陶瓷磁体。 此外,中国和印度的汽车工业正在迅速扩张,在电机、雨刷器电机、后视镜调节、车窗电机和门锁系统等广泛的汽车应用领域获得发展势头。
预计北美在预测期内将出现良好增长。 由于生产成本降低以及耐热能力(高达 250 摄氏度)等因素,陶瓷磁体在一般应用中已变得相当流行。 此外,这些磁体的固有矫顽力预计将使它们更能抵抗外部磁场的退磁。 这些因素预计将刺激该地区美国市场的扩张。
2022 年 12 月,日立金属将与製造商合作开发电动汽车电机,减少稀土的使用,稀土主要来自中国。
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According to Stratistics MRC, the Global Ceramic Magnet Market is accounted for $9.7 billion in 2023 and is expected to reach $16.3 billion by 2030 growing at a CAGR of 9% during the forecast period. Metallic magnets can be replaced at a lower cost with ceramic magnets. Due to their low production costs and resistance to corrosion and demagnetization, these magnets are employed in a variety of applications. By weight, ceramic magnets account for over 75% of the world's need for permanent magnets. Ceramic magnets are resistant to corrosion and do not need any extra coatings to keep them that way. Natural magnets are weaker than ceramic magnets. Iron oxide and strontium carbonate are calcined to create metallic oxide using ceramic magnets. Ceramic magnets are incredibly strong, and if dropped on a hard surface, they may break or suffer other damage.
One of the largest end customers of ceramic magnets is the automobile industry, as these magnets are extensively used in many different applications, including motors, sensors, and generators. The need for ceramic magnets in the automotive industry is anticipated to rise along with the popularity of electric vehicles. Another significant end-user of ceramic magnets is the aircraft sector, which employs these magnets in a variety of actuator, sensor, and generator applications. Ceramic magnet demand is anticipated to be driven by the aerospace industry's growing need for lightweight, high-performance materials.
Neodymium magnets are more expensive than ceramic magnets however work better. The expansion of the ceramic magnet market is anticipated to be constrained by the availability of substitutes such neodymium magnets. Moreover, lead and cadmium, two toxic elements found in ceramic magnets, can be hazardous to the environment.
Another significant end-user of ceramic magnets is the electrical and electronic sector, where these magnets are utilized in a variety of devices like speakers, motors, and generators. The need for ceramic magnets in the electrical and electronics industry is anticipated to rise along with the popularity of electronic gadgets and appliances. The market for ceramic magnets is anticipated to have tremendous development potential in the medical device sector. Many medical devices, including MRI machines, which are frequently employed in the detection and treatment of numerous disorders, use ceramic magnets.
Many end-use industries use ceramic magnets, however, the extraction and manufacture of these materials can have hazardous byproducts. They are often taken out of rare earth metals. However, during the projected period, the limited supply of these raw materials will also restrain the expansion of the worldwide ceramic magnets market.
Anisotropic segment is expected to hold largest share over the forecast period. The most desired magnet in terms of orientation is an anisotropic ceramic magnet because it offers magnetic force in a certain direction and may be directed in that direction. They are popular and have high coercitivity anisotropic ceramic magnets that dominate in the orientation segment because the arrow's magnetization direction is simple.
Automotive segment is expected to have lucrative growth over the forecast period. The market for ceramic magnets is driven by the automotive industry. Since door locking systems, windshield wipers, and electric windows all use ceramic magnets. A magnet is one of a motor's most important parts. Additionally, magnets are often the static component of motors and provide the rejection force needed to produce circular or linear movement. Because of this, the automobile segment is being driven by the above-mentioned primary variables.
The Asia Pacific region held the largest share during the period of dominance because the leading nations in the region, such as Japan, China, and South Korea, dominate the ceramic magnet market in the electronic and electrical industries and are extensively used in home appliances and manufacturing centers. As a result, the following nations consume ceramic magnets on a large scale. Furthermore, the automotive industries in China and India are expanding rapidly and are gaining momentum in a wide range of vehicle applications, including motors, wiper motors, mirror adjustments, window motors, door locking systems, and many more.
North America is expected to have lucrative growth over the projection period. Ceramic magnets are quite popular for use in common applications due to factors including their reduced cost of production and capacity to endure heat (up to 250 degrees Celsius). Additionally, it is anticipated that these magnets' intrinsic coercivity will increase their resistance to demagnetization by outside magnetic fields. These elements are anticipated to stimulate the US market's expansion in this region.
Some of the key players in Ceramic Magnet market include Dura Magnetic, Inc. , All Star Magetic LLC, Maruwa Co., Ltd., Adams Magnet Production, Bunting, Hangzhou Permanent Magnet Group, JPMF Guangdong Co. Ltd, Ferroxcube, TDK Corporation, DMEGC, Samwha Electronics, Hitachi Metals Ltd., Alliance LLC, Neo Magnequench, Arnold Magnetic Technologies and Rocell.
In December 2022, Hitachi Metals is working with manufacturers to develop motors for electric vehicles that use fewer rare earth metals, which are largely obtained from China.
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Note: Tables for North America, Europe, APAC, South America, and Middle East & Africa Regions are also represented in the same manner as above.