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到 2030 年陶瓷磁鐵(鐵氧體磁鐵)市場預測:按類型、按產品、按方向、按應用、按最終用戶和按地區進行全球分析Ceramic Magnet Market Forecasts to 2030 - Global Analysis By Type, Product, Orientation, Application, End User and By Geography |
根據Stratistics MRC 的數據,2023 年全球陶瓷磁體(鐵氧體磁體)市場規模將達到97 億美元,預測期內復合年增長率為9%,到2030 年將達到163億美元預計達到
金屬磁鐵可以用陶瓷磁鐵替代,成本低廉。 由於生產成本低以及耐腐蝕和抗退磁,這些磁鐵被廣泛應用於各種領域。 按重量計算,陶瓷磁體佔全球永磁體需求量的75%以上。 陶瓷磁體耐腐蝕,不需要額外的塗層即可保持良好狀態。 天然磁鐵比陶瓷磁鐵弱。 燒製氧化鐵和碳酸鍶來製造金屬氧化物並使用陶瓷磁體。 陶瓷磁鐵非常堅固,如果掉落在堅硬的表面上,可能會破裂或以其他方式損壞。
陶瓷磁體的最大終端客戶之一是汽車行業,因為陶瓷磁體廣泛用於電機、傳感器和發電機等各種應用。 隨著電動汽車的普及,汽車行業對陶瓷磁體的需求預計將增長。 陶瓷磁體的另一個重要最終用戶是飛機領域,陶瓷磁體用於各種應用,例如執行器、傳感器和發電機。 航空航天業對輕質高性能材料不斷增長的需求預計將推動對陶瓷磁體的需求。
釹磁鐵比陶瓷磁鐵更貴,但效果更好。 陶瓷磁體市場的擴張預計將受到釹磁體等替代品的限制。 此外,陶瓷磁體中發現的兩種有毒元素鉛和鎘可能對環境有害。
陶瓷磁體的另一個重要最終用戶是電氣和電子領域,它們用於揚聲器、電機和發電機等各種設備。 隨著電子產品和電器的普及,電氣和電子行業對陶瓷磁體的需求預計將增長。 預計陶瓷磁體市場在醫療器械領域具有巨大的發展潛力。 陶瓷磁體用於許多醫療設備,包括經常用於檢測和治療多種疾病的 MRI 機器。
許多最終用途行業都使用陶瓷磁體,但這些材料的提取和製造可能會導致危險的產品變化。 它們通常源自稀土金屬。 然而,預測期內這些原材料的供應有限預計也將抑制全球陶瓷磁體市場的擴張。
預計各向異性部分在預測期內將佔據最大份額。 就取向而言,最理想的磁體是各向異性陶瓷磁體,因為它們可以在一個方向上產生磁力並將其指向該方向。 各向異性陶瓷磁體是一種高矯頑力的各向異性陶瓷磁體,由於箭頭磁化方向簡單,在方向段佔據主導地位,因而受到青睞。
汽車行業預計在預測期內將實現利潤豐厚的增長。 汽車工業正在推動陶瓷磁體市場。 這是因為門鎖系統、雨刷器和電動車窗都使用了陶瓷磁鐵。 磁鐵是電機最重要的部件之一。 此外,磁鐵通常是電機的固定部件,提供產生圓周和線性運動所需的排斥力。 因此,汽車行業受到上述關鍵變量的推動。
亞太地區以日本、中國、韓國等地區主要國家為主,在電子電氣行業陶瓷磁體市場佔據主導地位,廣泛應用於家電和製造中心。所佔份額最大。 因此,以下國家大規模消費陶瓷磁體。 此外,中國和印度的汽車工業正在迅速擴張,在電機、雨刷器電機、後視鏡調節、車窗電機和門鎖系統等廣泛的汽車應用領域獲得發展勢頭。
預計北美在預測期內將出現良好增長。 由於生產成本降低以及耐熱能力(高達 250 攝氏度)等因素,陶瓷磁體在一般應用中已變得相當流行。 此外,這些磁體的固有矯頑力預計將使它們更能抵抗外部磁場的退磁。 這些因素預計將刺激該地區美國市場的擴張。
2022 年 12 月,日立金屬將與製造商合作開發電動汽車電機,減少稀土的使用,稀土主要來自中國。
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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.