PRODUCTS > AIRCRAFT AND THERMAL INSULATION
Axim Mica’s Ax-Therm M and P are advanced fire protection and thermal insulation solutions for aircraft are designed to meet the critical demands of the aerospace sector. Through in-depth consultations, Axim Mica’s team helps customers navigate the unique challenges of fire protection and heat management in aviation.
From insulating wiring to engine components and critical structural elements, our custom-engineered mica products offer superior fire resistance with a lightweight design, ensuring enhanced operational and safety performance and compliance with industry regulations.
Our solutions improve overall system reliability, prevent fire hazards, and enhance the operational efficiency of aircraft. Through tailored designs and expert guidance, Axim Mica ensures the highest levels of protection against heat and fire, making us a trusted partner in aerospace safety.
Fire-resistant cables and wire (mica tape).
Heat shields and gaskets made with High Performance Ax Therm M and P.
Fire doors and barriers.
Mica blankets.
Mica is a natural mineral known for its exceptional heat resistance, electrical insulation properties, and chemical stability, making it an ideal material for aerospace applications where fire protection and thermal insulation are critical.
In the aviation industry, standard materials may not always provide the specialized performance required in high-risk environments. This is where custom-designed fire protection and thermal insulation solutions come in. Tailored to meet the specific challenges of aerospace applications, these solutions leverage the unique properties of mica to provide optimal protection in demanding conditions.
North America’s leading mica supplier, Axim Mica is your trusted partner for advanced mica solutions in the aerospace industry. Our comprehensive services cover everything from material selection and design consultation to manufacturing, ensuring a streamlined process that meets the demanding requirements of modern aviation.
With years of industry expertise and a robust inventory of high-quality mica materials, we guide you every step of the way — helping you select the optimal solutions for fire resistance and heat management in aircraft systems. Our tailored products are engineered to improve safety, reduce weight, and enhance overall performance, providing reliable protection in extreme conditions.
Count on Axim Mica to deliver high-performance, custom-designed fire protection and thermal insulation solutions that elevate the safety and efficiency of your aircraft applications.
Ready to move forward? Our engineering team collaborates with clients to develop optimal solutions for their specific applications, ensuring every component meets exact specifications and performance requirements.
Mica insulators are essential components in various industries due to their unique combination of electrical, thermal, and chemical properties. Their ability to withstand high temperatures and voltages makes them indispensable in applications ranging from electronics to aerospace. Aircraft Fire Protection is critical. This guide provides a comprehensive overview of mica insulators, covering their properties, types, applications, and best practices for selection and maintenance. Understanding these aspects is crucial for ensuring optimal performance and longevity of systems relying on mica insulation.
Mica insulators are known for their exceptional electrical insulation, high thermal stability, and chemical inertness. These properties make them ideal for applications requiring reliable performance under extreme conditions. Mica also exhibits excellent dielectric strength, allowing it to withstand high voltages without breakdown. Its layered structure provides flexibility and ease of fabrication. Mica's resistance to moisture and most chemicals further enhances its durability.
Real Results: In high-voltage transformers, mica insulators prevent electrical arcing, ensuring continuous operation and reducing the risk of costly failures.
Takeaway:
Choose mica insulators for applications requiring high electrical insulation, thermal stability, and chemical resistance.
Mica boasts a superior dielectric strength compared to many common insulators like paper or plastic. This means it can withstand a higher electric field before breaking down. Dielectric strength often exceeds 200 kV/mm, making it suitable for high-voltage applications. Other insulators may require significantly greater thicknesses to achieve comparable insulation. This advantage allows for compact designs in electrical equipment. Its robust insulation properties make it a preferred choice.
Real Results: Compared to polymer insulators, mica can withstand 3x higher voltages without failure in testing, leading to safer electrical designs.
Takeaway:
Opt for mica insulators when high dielectric strength is a critical requirement for your application.
The two primary types of mica are muscovite and phlogopite, each with distinct characteristics. Muscovite mica is known for its excellent electrical properties and high dielectric strength. Phlogopite mica, on the other hand, offers superior thermal stability and can withstand higher temperatures. Synthetic mica is also available, offering enhanced properties and purity. Choosing the right type depends on the specific application requirements, such as operating temperature and voltage levels.
Real Results: Phlogopite mica is used in applications exceeding 600°C, where muscovite mica would degrade, ensuring reliable performance.
Takeaway:
Select the appropriate type of mica (muscovite, phlogopite, or synthetic) based on your application's temperature and electrical demands.
Temperature significantly affects the performance of mica insulators, with phlogopite mica being more stable at higher temperatures than muscovite. Elevated temperatures can degrade the electrical properties of some materials, but mica retains its insulating capabilities up to certain limits. Exceeding these temperature limits can lead to breakdown and failure. Therefore, selecting the correct mica type for the operating temperature is critical. Reliable Mica Solution is vital.
Real Results: Muscovite mica begins to degrade around 600°C, while phlogopite can withstand temperatures up to 1000°C without significant loss of insulation.
Takeaway:
Consider the operating temperature range when choosing a mica insulator to ensure long-term performance and reliability.
Mica exhibits excellent resistance to chemical degradation, making it suitable for use in harsh environments. It is largely unaffected by most acids, alkalis, and solvents. This chemical inertness ensures that the insulator maintains its properties over time, even when exposed to corrosive substances. However, prolonged exposure to strong oxidizing agents should be avoided. Its resistance to degradation makes it a reliable choice for many applications.
Real Results: Mica insulators used in chemical processing plants show no signs of degradation after years of exposure to various chemicals.
Takeaway:
Use mica insulators in environments where chemical resistance is crucial to prevent premature failure.
Copyright © 2025 Axim Mica Enterprises Inc All Rights Reserved.
