Logo for: Fibox

If you are reading this, you’re probably wondering “Should I use a polycarbonate enclosure or a fiberglass enclosure?” This is a very valid question to have.

Often we find companies continue to use fiberglass because they are unaware of the advantages of working with plastic enclosures; and, the inherent value in using this versatile thermal set plastic.

When it comes to the NEMA ratings, a 4X enclosure is a 4X enclosure when it leaves the factory, regardless of the material. How well the enclosure performs during its service life will determine your return on investment.

Today, polycarbonate is one of the most versatile types of plastic used in industrial applications throughout the world.

Impact Resistance

Polycarb can withstand an impact of over 900 psi; fiberglass comparatively can only withstand about 225 psi. As a thermal set plastic, polycarb flexes and return to its original shape, while fiberglass can shatter with on impact.

Winner: Polycarbonate

UV Resistance

When exposed to UV light for prolonged periods of time, the color of fiberglass material will fade. This process is called as photodegradation or more commonly known as “sun bleaching’ or “bleaching.”

Photodegradation occurs when ultraviolet rays break down the chemical bonds of the dyes in an object and the colors fade.

More importantly, however, fiberglass can also delaminate with prolonged UV exposure, this more commonly known as “blooming.”  Delamination is when the layers of fiberglass strands and resin separate from each other or from the core sandwiched between the layers, exposing the glass fibers on the surface of the enclosure. It gives the enclosure a rough or fuzzy texture.

Delamination is a common problem and can eventually compromise the overall structural integrity of the enclosure – resulting in a system failure of the internal components. Replacing either the enclosure or the entire unit may be required, costing time and money.

Plastic injection molded enclosures do not have layers to delaminate. Fibox uses a specially formulated plastic with UV inhibitors to withstand prolonged exposure to the sun.

Fibox took part in a UV exposure resistance study. The results showed that although a slight “bleaching effect” may occur over time, the Fibox enclosures became more durable in the field. This result is due to a chemical reaction that the plastic has with the UV rays.

In some cases, Fibox clients have begun upgrading the internal components of their designs with a subsequent generation on-site while continuing to use their original enclosing investment. Recycling the enclosure saves time and money with a longer lasting Fibox enclosure.

Winner: Polycarbonate

Modifications

A stock enclosure does not remain stock for long. At some point, an engineer or technician will alter the box with holes, cutouts, and recesses. These changes are necessary to make the enclosures functional. Fiberglass and polycarb respond differently to such modifications.

Fiberglass is comprised of layers of resin and glass fibers. When cut, drilled, or otherwise modified, it can splinter like wood, resulting in a rough, chipped edge (image 1).

Fiberglass and polycarbonate enclosures side-by-side
Image 1: The same 1 ½ inch hole saw was used on both a fiberglass (left) and a Fibox PC (right) enclosure cover. You can see which material had a cleaner cut.
Transparent polycarbonate covers
Image 2: Examples of transparent covers in a variety of sizes.

Moreover, the cutting process produces a dust containing glass particles. This dust can irritate the eyes and any exposed skin. Inhaling the dust can impact respiratory function. Handling fiberglass modifications require the user to “suit up” to ensure safety. Conversely, modifying polycarbonate produces larger specks of material that are too heavy to become airborne. These specks will not irritate the skin and can be easily swept up or vacuumed. Additionally, if a transparent cover is required, this is easily accomplished with a polycarbonate enclosure. Fibox offers many transparent cover options and can easily install a transparent cover. (Image 2).

Winner: Polycarbonate

Weight

Fiberglass outweighs plastics by varying amounts. Fiberglass enclosures have thicker walls than a plastic enclosure. For example, a 16x14x8 Fibox enclosure weighs 7.3 pounds. Compare that to a smaller sized, 16x14x6 fiberglass enclosure which weighs 8.9 pounds.

The costs associated with greater weight can go well beyond the initial shipping costs from the supplier’s warehouse until the unit arrives at its final destination. Shipping costs can quickly increase the overall product cost – not to mention the additional strain on human resources when carrying heavier enclosures.

These costs are magnified when working with larger sized boxes. Using a polycarb enclosure will save money on shipping and human resources right off the bat.

Winner: Polycarbonate

Cost

Polycarbonate and fiberglass are comparably priced, however, with all the factors stated above fiberglass can cost you and your company more in time and money. These possible cost drivers include shipping, potential redoing modifications and a shorter, less reliable field life.

Winner: Polycarbonate