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Material Design

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Do you want to design and produce more compact, high-performance electromagnetic components?
The intensifying electrification trend in the automotive industry along with calls for high-efficiency, low-cost industrial applications will drive the demand for energy- and cost-efficient electromagnetic components. Electromagnetic components of soft magnetic composite (SMC) materials play a fundamental role in this conversion, making it possible to manufacture more compact and cost-efficient motor and inductor solutions compared to using traditional designs. SMC materials are made of iron powder particles coated with an electrically insulating layer and can be formed into complex shapes by means of powder metallurgy, thereby allowing three-dimensional magnetic circuit design. 
 

The main benefits of soft magnetic composite solutions for both motor design and production processes are: 

  • Compact design – both size and weight of the components can be reduced
  • High performance – can meet the highest efficiency requirements
  • Excellent cost efficiency – the compact designs require less material and enable simple net shaping production process with minimum waste and reduced need for subsequent operations

MaxLLG offers design services in combination with a wide range of soft magnetic composite material modules, to develop unique 3D flux properties, ideal for new product designs. Electromagnetic components made from soft magnetic composite materials can provide unique values to a number of electric applications for automotive as well as industrial use.

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Application areas

Magnetic Devices

Design and optimize microwave and millimeter wave magnetic devices

MaxLLG’s full wave electromagnetic solver helps you optimize designs by investigating effects such as electromagnetic wave propagation and resonance effects in high-frequency magnetodielectric applications. Use the LLG Module for understanding and predicting the performance of magnetic devices used in the RF, microwave, and millimeter-wave industries.

Designers of RF and microwave devices need to ensure that the electromagnetics-based products are reliable and robust. Traditional electromagnetics modeling lets you examine electromagnetic wave effects alone, but no real-world product operates under ideal operational conditions. To see how other physics phenomena affect the design, you need nonlinear modelling, which allows extending your analysis to include effects such as high power impact on device performance.

With the LLG Module platform, you can analyze RF designs in ideal or multiphysics scenarios, including microwave and RF radiation, all within the same software environment.

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Application areas

Fundamental Properties

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MaxLLG provides resources to help researchers.

Simulation adoption continues to grow across industries and engineering departments, transforming product development and optimization workflows. On college campuses, many of the world’s problems are solved, our greatest companies are founded, and our brightest minds are shaped.

MaxLLG helps companies and researchers to solve the unsolvable. We offer low-cost, multiphysics bundles with our industry-leading software, to take your research work to the next level. Knowledge and research experience with MaxLLG simulation tools make you more attractive to leading employers, helping you achieve greater success in your career.

Our research products are designed with researchers in mind. Product bundles are packaged by application area to support your needs and include high performance computing (HPC), with the ability to add more. Universities can benefit from our cloud-based campus-wide solutions built for larger scale deployment, addressing both teaching and research needs across departments. Our tutorial examples, videos and courses make it easy to learn how to use MaxLLG simulation and associated tools.

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