The Future of Efficient, Sustainable Heating is Here
HIT is not just another heating solution-it’s a revolution in energy-efficient, adaptable, and resilient radiant heating technology. Whether used in electronics, industrial applications, or consumer products, HIT is the smart choice for a more efficient future.
Revolutionizing Radiant Heating with HIT
The heating industry has long relied on outdated methods that come with significant drawbacks, including:
Expensive Production Process
Traditional heating solutions are costly to manufacture and install.
Limited
Customization
Standard heating elements are difficult to adapt to unique and specific shapes.
Restricted Geometric Applications
Many heating elements cannot be effectively applied to complex or non-standard shapes.
HIT makes heating more efficient, customizable, and reliable than ever before.
How it Works
HIT utilizes advanced conductive heating technology to deliver efficient customizable, and reliable radiant heat. Its innovative design allows for seamless integrations into various applications
Customizable
Application
HIT can be screen printed, sprayed, brushed, rolled, or dipped onto different surfaces, making it adaptable to a wide range of materials and products.
Precision Power &
Temperature Control
Operates between 5V and 220V, allowing it to be used in both low-power and high-power applications.
Offers a temperature range from 75°F to 415°F, depending on the substrate, ensuring optimal heat performance.
Self-Regulating
Resistance
The thickness of the application determines resistance levels, meaning HIT can reach its target temperature without requiring external controllers.
Flexible & Durable
Performance
Unlike traditional heating elements, HIT is resistant to punctures and tears. If damaged, the energy automatically reroutes around the affected area, maintaining consistent performance.
Seamless Integration Into
Your Products
HIT can be incorporated into existing products that require radiant heating, enhancing their performance without extensive redesign.
