
Cartridge and Specialty Heating Elements
Heatron stands as a global leader in designing and manufacturing custom heating elements like cartridge and specialty heaters which drive product performance for precise industrial applications. With advanced production capabilities, our engineering yields thermal control solutions reliably tailored to your exact production demands and requirements. We offer a diverse product lineup which includes thick film metal and ceramic, flexible silicone, etched mica, and DuPont™ Kapton® Polyimide Film or all-Polyimide etch foil heaters.
Custom flexible heaters are built according to FDA and MIL-SPEC standards and an ISO 9001 certification, featuring process control, documentation, and knowledge of agency requirements.
Explore our product pages below to find the exact thermal solution for your project or contact a heating specialist to discuss specifications.
Deep Drawn Cartridge Heating Elements | High-Performance Cartridge Heaters by Heatron
Heatron's Deep Drawn Cartridge Heating Elements are designed for high-altitude and high-stress applications. With a seamless metal jacket ensuring superior sheath integrity and eliminating weld failure risks, these heaters deliver unmatched reliability. Explore Heatron’s customizable options for transforming visions into high performance solutions and contact us for a design consultation.Download Datasheet pdf, 949 kB.
Heat Exchanger Heating Elements | High-Performance Cartridge Heaters by Heatron
Heatron’s heat exchanger heating elements feature a high-density cartridge design that delivers efficient, reliable heat transfer for liquids, gases, and oils. Encased in a durable metal jacket, these compact, high-performance solutions offer greater watt density and dielectric strength than tubular alternatives, helping optimize system performance. Explore Heatron’s customizable options for transforming visions into high performance solutions and contact us for a design consultation.Download Datasheet pdf, 288 kB.
High Density Cartridge Heating Elements | High-Performance Cartridge Heaters by Heatron
Heatron’s high-density cartridge heating elements are engineered for dependable performance in industrial environments. Their compact, high watt density design provides fast, precise, and consistent heat transfer. A range of tailored features, including value-added controls and specialized coatings or finishes, then allow each heater to be optimized for your specific project or budget requirements and operating conditions.
- More options for higher performance heaters
- Internal thermostats, thermal fuses, thermocouples and temperature sensors
- Non-Stick Coating
- Controlled Heat Profile
- Electropolish and passivation
Immersion Cartridge Heating Elements | High-Performance Cartridge Heaters by Heatron
Heatron’s immersion cartridge heating elements are designed for both direct immersion in liquids and also fluid heating applications requiring efficient thermal transfer in compact spaces. These cartridge heaters are engineered for minimal assembly and ease of service in the field, with smaller fittings than tubular versions for applications where tight spaces won’t pose a problem. Explore Heatron’s customizable options for transforming visions into high performance solutions and contact us for a design consultation.Download Datasheet pdf, 713 kB.
Specialty Heating Elements | High-Performance Cartridge Heaters by Heatron
Heatron’s specialty heating elements are custom designed and manufactured to meet demanding performance goals where standard heating solutions are not sufficient. As an OEM partner, our engineering foresight delivers precise thermal control, reliability, and efficiency for complex operating environments like advanced heat dispersion to improve thermal performance and extend heater life. Heatron teams with customers for application-specific heaters that align with exact operating conditions, system constraints, and performance objectives.
- Integrated heat sink for faster heat dispersion and longer life
- Increased surface area reduces sheath temperature in closed systems
- Optimized for rapid forced-convection heat transfer
- Hybrid design for efficient thermal performance