Product Main Parameters

Parameter	Value
Curie Temperature	570℃
Crystallization Temperature	520℃
Saturation Magnetostriction Coefficient	< 2×10-6
Density	7.2g/cm3
Resistivity	130μΩ·cm
Operating Temperature Range	-50℃~180℃

Common Product Specifications

Application	Specification
Transformers	High magnetic permeability, low core loss
Inductors	High inductance, low losses
Magnetic Sensors	High permeability, low coercivity
EMI Suppression	Effective in high-frequency ranges
EV Components	High frequency operation

Product Manufacturing Process

The manufacturing process of nanocrystalline cores, such as the Nanocrystalline Core M-117 from Zhejiang Jingjing, typically involves rapid solidification techniques like melt spinning. During this process, the molten alloy is quickly cooled to form a fine-grained structure essential for achieving superior magnetic properties. According to authoritative research, this fine grain size in nanocrystalline materials results in high magnetic permeability and low coercivity, making them ideal for high-frequency applications. Additionally, the rapid solidification process helps in minimizing core losses by limiting the formation of eddy currents and reducing hysteresis. Overall, the manufacturing process ensures high efficiency and reliability, aligning with the company's commitment to providing top-quality products.

Product Application Scenarios

Nanocrystalline Core M-117 by Zhejiang Jingjing finds applications in numerous high-frequency, high-efficiency scenarios. In transformers, these cores contribute to reduced energy loss and improved efficiency due to their high magnetic permeability and low core loss. They are also vital in inductors used in power electronic circuits, where high inductance with minimal losses is crucial. Magnetic sensors benefit from the high permeability and low coercivity of these cores, making them suitable for current transformers and magnetometers. Additionally, their effectiveness in EMI suppression, particularly in high-frequency ranges, makes them essential for automotive electronics and new energy vehicles. As technology evolves, the role of such advanced materials in various high-performance applications continues to grow.

Product After-Sales Service

Zhejiang Jingjing offers comprehensive after-sales service for the Nanocrystalline Core M-117. Our team of experts is available to provide technical support, troubleshooting, and maintenance guidance to ensure the optimal performance of our products. We are committed to customer satisfaction and offer warranty and repair services as needed.

Product Transportation

Our nanocrystalline cores are securely packaged to prevent damage during transportation. We offer various shipping options to ensure timely and efficient delivery according to the customer's requirements. Our logistics team handles all aspects of transportation, ensuring that the products reach you in perfect condition.

Product Advantages

• High Magnetic Permeability
• Low Core Loss
• High Saturation Magnetization
• Thermal Stability
• Low Coercivity
• Energy Efficiency
• Enhanced Performance
• Space Efficiency

Product FAQ

What is the composition of Nanocrystalline Core M-117?

The Nanocrystalline Core M-117 is composed of iron-based alloys combined with elements like silicon, boron, and niobium. Our manufacturer ensures a fine-grained structure through rapid solidification techniques.

What are the main advantages of using Nanocrystalline Core M-117 in transformers?

Benefits include high efficiency, reduced energy losses, superior temperature stability, and compact size. Our manufacturer ensures high magnetic permeability and low coercivity.

How does the low coercivity of Nanocrystalline Core M-117 improve performance?

Low coercivity allows the material to be easily magnetized and demagnetized, which is beneficial for applications requiring rapid switching of magnetic states. Our manufacturer emphasizes this property for improved performance.

Can Nanocrystalline Core M-117 be used in electric vehicles?

Yes, its high-frequency operation and efficiency make it suitable for EV power conversion systems and charging stations. Our manufacturer supports applications in the evolving EV market.

What is the operating temperature range for Nanocrystalline Core M-117?

The operating temperature range is -50℃ to 180℃, ensuring reliable performance under varying thermal conditions. Our manufacturer guarantees thermal stability.

What types of transformers utilize Nanocrystalline Core M-117?

High-frequency transformers, medical equipment transformers, and power electronics transformers benefit from the high magnetic permeability and low core loss of these cores. Our manufacturer caters to various transformer applications.

Is Nanocrystalline Core M-117 effective in EMI suppression?

Yes, it is highly effective in high-frequency ranges due to its excellent magnetic properties. Our manufacturer ensures that it meets EMI suppression requirements.

What is the density of Nanocrystalline Core M-117?

The density is 7.2g/cm³, contributing to its lightweight and compact design. Our manufacturer focuses on providing space-efficient solutions.

How does the rapid solidification process improve Nanocrystalline Core M-117?

The rapid cooling ensures a fine-grained structure, enhancing magnetic properties like permeability, coercivity, and core loss. Our manufacturer employs advanced techniques for optimal results.

What makes Nanocrystalline Core M-117 suitable for high-frequency applications?

High permeability, low core loss, and thermal stability make it ideal for applications like transformers, inductors, and magnetic sensors. Our manufacturer highlights these features in high-frequency scenarios.

Product Hot Topics

How is Nanocrystalline Core M-117 revolutionizing power transformers?

Nanocrystalline Core M-117, provided by leading manufacturer Zhejiang Jingjing, is transforming power transformers by enhancing energy efficiency and reducing core losses. Its high magnetic permeability allows for efficient magnetic flux conduction, while its low coercivity minimizes hysteresis losses. These properties are particularly beneficial in high-frequency transformers used in power electronics, where reduced size and heat generation are critical. The core's thermal stability ensures reliable operation across varying temperatures, making it a preferred choice for demanding applications. As power needs evolve, the innovative features of Nanocrystalline Core M-117 are setting new standards in transformer technology.

The role of Nanocrystalline Core M-117 in electric vehicle efficiency

Nanocrystalline Core M-117, produced by Zhejiang Jingjing, plays a pivotal role in enhancing the efficiency of electric vehicles (EVs). The core's high-frequency capabilities and low core losses make it ideal for EV power conversion systems and charging infrastructures. With the rise of EVs, there is a growing demand for components that can handle higher frequencies while maintaining energy efficiency. The high saturation magnetization and thermal stability of Nanocrystalline Core M-117 contribute to deeper integration into EV systems, ensuring consistent performance and reliability. As EV technology advances, the contribution of nanocrystalline cores from reputed manufacturers like Zhejiang Jingjing will be crucial for sustainable transportation solutions.

Advancements in nanocrystalline materials: A focus on Nanocrystalline Core M-117

Nanocrystalline materials like the Nanocrystalline Core M-117, provided by Zhejiang Jingjing, represent a significant advancement in magnetic core technology. The fine-grained structure achieved through rapid solidification techniques enhances magnetic properties such as high permeability, low coercivity, and minimized core loss. These improvements are essential for high-frequency applications, including transformers, inductors, and EMI suppression. The compact size and lightweight design of these cores also contribute to more efficient and space-saving electronic devices. As industries seek better performance and energy efficiency, nanocrystalline cores from leading manufacturers are becoming increasingly vital.

Why choose Nanocrystalline Core M-117 for inductors?

When selecting materials for inductors, the Nanocrystalline Core M-117 from Zhejiang Jingjing stands out due to its superior magnetic properties. High inductance values with low losses are critical in power electronic circuits, and this core delivers on both fronts. The material's high permeability allows for efficient magnetic flux conduction, while its low core loss reduces energy expenditure. Additionally, its thermal stability ensures reliable performance under various operating conditions. For applications in switch-mode power supplies (SMPS) and high-frequency DC-DC converters, the Nanocrystalline Core M-117 provides the efficiency and performance needed, supported by a manufacturer known for quality.

The significance of low coercivity in Nanocrystalline Core M-117

Low coercivity is a key feature of the Nanocrystalline Core M-117, produced by Zhejiang Jingjing, making it highly desirable for applications requiring rapid magnetic state switching. Coercivity indicates the resistance of a material to changes in magnetization. Lower values mean the material can be easily magnetized and demagnetized, which is crucial for high-frequency applications like transformers and inductors. This property reduces hysteresis losses, contributing to higher energy efficiency and better overall performance. For industries aiming for advanced and efficient electronic components, the low coercivity of Nanocrystalline Core M-117 offers significant advantages.

Nanocrystalline Core M-117: A solution for EMI suppression

In the realm of electromagnetic interference (EMI) suppression, Nanocrystalline Core M-117 from Zhejiang Jingjing offers an effective solution. These cores exhibit excellent magnetic properties, particularly in high-frequency ranges, making them ideal for mitigating EMI in various electronic systems. The high permeability of the core enables it to absorb and redirect electromagnetic waves efficiently, reducing interference and noise. This is especially beneficial in automotive electronics, smart grids, and consumer electronics. As the demand for EMI suppression grows, the role of advanced materials like Nanocrystalline Core M-117 becomes increasingly critical, highlighting the contributions of leading manufacturers.

Thermal stability of Nanocrystalline Core M-117 in diverse applications

The thermal stability of Nanocrystalline Core M-117, developed by Zhejiang Jingjing, is a standout feature for diverse applications. Operating across a wide temperature range from -50℃ to 180℃, this stability ensures consistent performance even under varying thermal conditions. Such reliability is crucial in high-frequency transformers, inductors, and other components used in industries like automotive and renewable energy. The ability to maintain magnetic properties under different temperatures enhances the durability and longevity of electronic systems. As industries push for more robust and reliable components, the thermal stability of nanocrystalline cores from reputed manufacturers becomes a defining factor.

Comparing Nanocrystalline Core M-117 to traditional magnetic materials

When comparing Nanocrystalline Core M-117 from Zhejiang Jingjing to traditional magnetic materials like silicon steel or ferrite, the advantages are clear. Nanocrystalline materials exhibit significantly higher magnetic permeability and lower core losses, leading to enhanced efficiency and performance. The fine-grained structure achieved through rapid solidification contributes to these superior properties. Additionally, the compact size and lightweight design of nanocrystalline cores make them more suitable for modern electronic applications where space and efficiency are critical. For cutting-edge applications in power electronics, transformers, and EMI suppression, the advanced properties of Nanocrystalline Core M-117 provide substantial benefits over traditional materials.

The future of nanocrystalline materials: Insights from Nanocrystalline Core M-117

The future of nanocrystalline materials looks promising, with products like Nanocrystalline Core M-117 from Zhejiang Jingjing leading the way. As technology continues to advance, the demand for high-efficiency, low-loss magnetic materials grows. The unique properties of nanocrystalline cores, such as high permeability, low coercivity, and excellent thermal stability, position them as essential components in next-generation electronic devices. Applications ranging from electric vehicles and renewable energy systems to consumer electronics and smart grids benefit from these advanced materials. As industries evolve, the innovation and quality provided by manufacturers like Zhejiang Jingjing will play a crucial role in shaping the future of nanocrystalline technology.

The impact of Nanocrystalline Core M-117 on energy efficiency

Energy efficiency is a critical factor in modern electronic systems, and Nanocrystalline Core M-117 from Zhejiang Jingjing significantly contributes to this goal. By reducing core losses through high magnetic permeability and low coercivity, these cores enhance the efficiency of transformers, inductors, and other components. This translates to lower energy consumption and heat generation, which is vital for sustainable development. In applications like electric vehicles, renewable energy systems, and power electronics, the improved energy efficiency offered by Nanocrystalline Core M-117 supports the broader objective of reducing environmental impact. As energy efficiency becomes increasingly important, nanocrystalline cores from leading manufacturers will play a pivotal role.

Image Description

There is no picture description for this product