市場調查報告書
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1273595
到 2028 年非晶軟磁材料市場預測 - 按類型、應用和地區分列的全球分析Amorphous Soft Magnetic Materials Market Forecasts to 2028 - Global Analysis By Type, By Application and By Geography |
根據Stratistics MRC,預計2022年全球非晶軟磁材料市場規模將達到6.526億美元,2028年將達到10.185億美元,預測期預計增長至期間複合年增長率為 7.7%
容易磁化和退磁的材料稱為軟磁材料。 非晶軟磁材料往往具有高磁導率、低渦流、低磁滯損耗、低剩磁、低矯頑力、低渦流等特點。 由於其優異的磁性,這些材料適用於廣泛的應用,例如電子產品的傳感器、高頻電感器、變壓器、屏蔽和監控系統。
根據國際能源署的數據,2018 年中國有 45% 的電動汽車上路,而 2017 年這一比例為 39%。
非晶合金和納米晶合金都因其卓越的機械和功能特性而受到科學家的歡迎。 這些材料中的每一種都具有出色的性能,但必須克服延展性和熱穩定性差等基本問題。 因此,為了實現具有優異磁性能、高熱穩定性和延展性的非晶-納米晶合金,正在研究將兩種材料融合的新製造技術。
軟磁材料市場包括範圍廣泛的其他軟磁材料,例如鐵/粉芯、顆粒取向電工鋼、無取向電工鋼、軟鐵氧體、Ni-Fe 和 CO-Fe。 它還用於製造電氣和電子元件。 軟磁材料,結合粒狀電工鋼和無取向電工鋼,佔據了全球80%以上的市場份額。 另一方面,非晶合金和納米晶合金僅佔軟磁材料總產量的2-3%。 因此,非晶軟磁材料全球市場擴張的主要障礙是替代軟磁材料的可用性和普及。
鐵、鎳和鈷是非晶合金的初始投資金屬,還有硼、碳、磷和矽。 工業用戶正在使用由非晶合金製成的磁性元件來更有效地運行他們的過程,節約能源,並節省運營成本。 非晶軟磁材料的特點是高頻下鐵損小、導磁率高且範圍寬、工作溫度高、矯頑磁場低、能夠減輕鐵芯重量和體積、耐腐蝕性好、通用性好、機械性能好,是理想的大多數電氣和電子應用都歸功於其強度、磁通密度和各種磁滯迴線等重要特性。 預計這將有助於進一步擴大這一市場。
非晶軟磁材料行業的參與者在中短期預測中必須解決的關鍵問題包括在預計的經濟衰退情景中改變消費者偏好,以及反映日益增長的環境問題的產業政策。由於原材料成本大幅波動當前的地緣政治緊張局勢和預計的經濟動盪。
COVID-19 的爆發極大地增加了對呼吸機、MRI 機器和 CT 掃描儀等醫療設備的需求。 2020 年 3 月,重症監護協會預測,在美國大流行期間,約有 960 萬人將使用呼吸機。 本地呼吸機製造商已提高產能以滿足激增的需求。 自 COVID-19 爆發以來,GE Healthcare 將其生產能力提高了一倍,並與福特合作,簡化其當前的呼吸機設計並迅速投入生產。 因此,醫療應用中使用的電動機、磁性開關和磁性傳感器的生產商預計將需要更多此類軟磁材料。
由於其出色的強度重量比,變壓器類別有望在預測期內佔據最大的市場份額。 此外,非晶金屬鐵芯極大地有助於變壓器整體重量的減輕和能源效率的提高。 此外,減少能源使用和工作溫度有助於保持低二氧化碳排放量。 因此,非晶態金屬變壓器已成為構建可持續能源分配方法的必要條件。 然而,預計在預測期內,對這些變壓器的需求將增加對非晶軟磁材料的需求。
鐵係由於具有高飽和磁感應強度、磁導率、電阻率、低矯頑力和低鐵損等優點,預計在預測期內將有良好的增長。 鐵基非晶/納米晶軟磁合金廣泛應用於通信、計算機等高科技行業。
亞太地區在 2019 年引領全球非晶軟磁材料市場,預計將在未來幾年主導該市場。 在該地區,中國已成為非晶金屬變壓器的主要生產國之一。 因此,全國對這些資源的需求不斷增長。 此外,電動汽車的普及有望為中國市場帶來新的增長潛力。 此外,對智能製造、電動汽車和向可持續能源的轉變的日益關注導致該行業不斷專注於為製造和汽車行業開發電子解決方案。
由於電動汽車在世界範圍內的普及及其作為世界電子和電氣元件製造中心的地位,預計亞太地區在預測期內將實現盈利增長。 此外,特斯拉等主要電動汽車製造商已開始投資中國市場,以利用潛在的市場前景。 因此,預計在預測期內,中國對用於生產電動汽車零部件的非晶軟磁材料的需求將增加。
2018年1月,日立金屬開發出顯著降低鐵損的新產品“磁疇控制型鐵基非晶金屬MaDC-A”。
According to Stratistics MRC, the Global Amorphous Soft Magnetic Materials Market is accounted for $652.6 million in 2022 and is expected to reach $1018.5 million by 2028 growing at a CAGR of 7.7% during the forecast period. Materials that are easily magnetised and demagnetized are known as soft magnetic materials. Amorphous soft magnetic materials often have high permeability, low eddy current, low hysteresis losses, little remnant magnetization, low coercivity, and low eddy current. These materials' remarkable magnetic capabilities make them suitable for a wide range of uses, including sensors, high-frequency inductors, transformers, shielding, and electronic article surveillance systems.
According to the International Energy Agency, in 2018, 45% of the electric cars were on the road in China, as compared to 39% in 2017.
Both amorphous and nanocrystalline alloys were popular among scientists due to their superior mechanical and functional qualities. Although each of these materials performs well on its own, some underlying problems like poor ductility and decreased thermal stability need to be resolved. In order to create amorphous-nanocrystalline alloys with outstanding magnetic characteristics, high thermal stability, and ductility, ongoing research is being conducted to develop new manufacturing techniques that integrate these two material types.
The market for soft magnetic materials has an extensive range of other soft magnetic materials, including iron/powder core, grain-oriented electrical steel, non-oriented electrical steel, soft ferrites, Ni-Fe, and CO-Fe. The production of electrical and electronic components also employs them. Together, grain-oriented electrical steel and non-oriented electrical steel hold more than 80% of the market share for soft magnetic materials worldwide. Amorphous and nanocrystalline alloys, on the other hand, only make for 2-3% of the total output of soft magnetic materials. Therefore, a major obstacle to the expansion of the global market for amorphous soft magnetic materials is the availability and widespread acceptance of substitute soft magnetic materials.
Iron, nickel, and/or cobalt are the initial investment metals in amorphous alloys, together with boron, carbon, phosphorus, or silicon. Industrial users are using magnetic components made from amorphous alloys to operate processes more effectively, save energy, and save operating costs. Amorphous soft magnetic materials are ideal for the majority of electrical and electronic applications due to important characteristics like lower core losses at higher frequencies, higher & wide range of permeability, increased operational temperatures, low coercive field, core weight & volume reduction ability, excellent corrosion resistance, versatility, good mechanical strength, flux density, and various hysteresis loops, among others. It would fuel the expansion of this market further.
The key issues that the players in the amorphous soft magnetic materials industry have to deal with over the short and medium-term forecast include shifting consumer preferences in a scenario of projected economic downturn, changes to industrial policies to reflect growing environmental concerns, enormous fluctuations in raw material costs caused by current geo-political tensions, and anticipated economic turbulences.
The COVID-19 outbreak has abruptly increased the need for medical equipment, including ventilators, MRI machines, and CT scanners. The Society of Critical Care Medicine predicted in March 2020 that during the pandemic in the United States, around 9,60,000 individuals would be placed on ventilators. Local ventilator manufacturers improved their production capacity to keep up with the escalating demand. Since the COVID-19 outbreak, GE Healthcare has doubled its production capacity and partnered with Ford to streamline the current ventilator design and quickly produce it. As a result, it is anticipated that producers of electrical motors, magnetic switches, and magnetic sensors for use in medical applications will require more of this kind of soft magnetic material.
Due to its outstanding strength-to-weight ratio, the transformer category is anticipated to have the largest market share over the forecast period. The amorphous metal core also contributes significantly to the reduction of the overall weight of the transformer and provides enhanced energy efficiency. Additionally, reduced energy use and operating temperatures also assist in maintaining low CO2 emissions. As a result, amorphous metal transformers are essential for creating sustainable approaches to energy distribution. However, during the predicted period, the demand for amorphous soft magnetic materials would increase due to the demand for these transformers.
The Fe-based segment is estimated to witness lucrative growth over the forecast period due to its benefits, such as high saturation magnetic induction, magnetic permeability, resistivity, low coercivity, and low iron core loss. Fe-based amorphous/ nanocrystalline soft magnetic alloys are widely used in high-tech industries, including communications and computers.
Asia Pacific led the global market for amorphous soft magnetic materials in 2019 and is anticipated to dominate the market over the next few years. China is one of the top producers of amorphous metal transformers in this region. As a result, there is an increasing demand for these resources across the nation. Additionally, it is anticipated that growing electric vehicle use will offer new growth prospects for the Chinese market. Moreover, due to an increased focus on smart manufacturing, e-mobility, and a shift to sustainable energy, the industry is constantly concentrating on developing electronics solutions for the manufacturing and automotive industries.
Due to the rise in electric vehicle use worldwide and the region's position as the world's manufacturing hub for electronic and electrical components, the Asia-Pacific region is predicted to experience profitable growth over the course of the forecast period. Additionally, leading electric vehicle producers like Tesla have initiated investments in the Chinese market to take advantage of potential market prospects. Therefore, it is anticipated that during the projection period, China will experience a growth in demand for amorphous soft magnetic materials used in the production of electric vehicle components.
Some of the key players in Amorphous Soft Magnetic Materials market include: Advanced Technology & Materials Co., Ltd., AMES SA, Arnold Magnetic Technologies, Bomatec AG, China Amorphous Technology Co., Ltd., GKN Sinter Metals, Hitachi Metals, Ltd., MK Magnetics, Inc., Powder Metal Group (PMG), Steward Advanced Materials, Toshiba Materials Co., Ltd. and Vacuumschmelze GmbH & Co. KG.
In January 2018, Hitachi Metals developed a Magnetic Domain Control Type Fe-base Amorphous Metal, MaDC-A, a new product with significantly reduced core loss.