What You Need to Know About Flexible Heaters

Flexible heaters are often used in industries that require low-to-medium temperature conditions for a prolonged period of time. They are also an economical alternative to conventional heaters. These heaters offer chemical and moisture resistance and can be cured to fit on 3D applications. To learn more about flexible heaters, continue reading this article.

Flexible heaters are used in places that require constant, low-to-medium temperatures during the work period

Flexible heaters are used in medical and aerospace applications, as well as in foodservice applications. The mounting method of a flexible heater is very important because it can affect the performance of a component. The weight of the mounting attachment may be too much for the part to function properly. Hence, the mounting method must provide unlimited heat transfer capabilities. Factory vulcanized mountings are a better choice, as they provide the highest maximum heat transfer.

Flexible heaters can be front or bottom-inlet, or recessed in the wall. There are also architectural convectors, which are designed to blend in with interior spaces. If aesthetics are the most important factor, you may choose a front-inlet heater. However, you need to balance the aesthetics of a front-inlet heater with the convenience of cleaning the equipment. Alternatively, you may install a recess-mounted cabinet heater, which may be a good option.

They offer chemical and moisture resistance

Flexible heaters are used in a wide variety of applications. The silicone material used to make them offers chemical and moisture resistance. They are used in endoscopic and fluid warmers. They are also used for other medical applications. Due to their chemical and moisture resistance, they are ideal for use in medical settings.

The advantages of flexible heaters include the versatility of use and the ease of installation. They can be fabricated into almost any shape or size. In addition, they are highly flexible and are able to be bonded directly to an application. Their thin profiles, uniform heating distribution, and low thermal mass make them a popular choice for many applications. In addition to standard models, thereĀ  flexible heaters are also ultra-thin models that are available, which are suitable for applications with limited space.

They are cost-effective

One of the main benefits of flexible heaters is their cost-effectiveness. Compared to wire or etched foil elements, flexible heaters can be designed in many different densities and patterns. This flexibility allows them to heat materials more efficiently and concentrate power where it is needed. For example, a flexible heater rated at 200 Watts will draw 1.6 Amps when operated at 120V.

Flexible heaters are ideal for small spaces. They are easily applied to surfaces, including curved and bulky machinery. The heaters are typically fitted with temperature-sensing devices, which ensure that they are always operating at the desired temperature. Depending on the type, they can be made of polyimide, silicone rubber, or polyester.