With an ever-increasing demand for more environmentally friendly options in construction, many leading fiberglass manufacturers are turning to chemical resistance or “breaking tenacity” as a way to improve the strength and durability of the finished product. Fiberglass is one of the most durable lightweight materials used in construction today. In addition, its tensile strength surpasses that of even stainless steel, which makes it an ideal building material.
But, as with any material, fiberglass has its drawbacks. The biggest problem faced by the structural engineer or contractor when using fiberglass in an environment is breakage. Breakage leads to large expenditures to repair the system, and further delays in project completion. Many fiberglass suppliers, therefore, must turn to chemical resistance as a way to improve break strength and reduce the possibility of additional expenses in future construction projects.
There are several different methods for increasing breaking tenacity. These include surface treatment, which improves the tenacity of the individual fibers. This is achieved by application of coatings, such as polyurethane or ethylene propylene diene monomer (EPDM), or by mechanical cutting or compressive heating. Additionally, some fibers are coated with antioxidants, which improve their breaking strength and resistance to damage from oxygen, sunlight, and moisture. Resin coating is also a popular method of improving breaking tenacity.
Fiberglass-coated pipes and tubing are often used in applications requiring extreme toughness, such as desalinization plants and marine applications. The coating prevents the pipes and tubing from deforming after they have been exposed to seawater, preventing damage. Another way to improve breaking tenacity of the fiberglass used is by forming layers with fiberglass based compounds. These compounds, often consisting of diamond particles, create a physical barrier between the inside of the pipe or tubing and the outside, preventing moisture and oxygen from reaching the inside of the material. While pipes and tubing made from fiberglass do not offer excellent break strength, their superior hardness and tenacity make them highly useful for applications requiring incredible breaking strengths.
Fiberglass is extremely dense, which makes it difficult to cut. However, when cut, the grains of the material can be spun into long threads, which provide excellent strength. Because of fiberglass’s high density and tensile strength, it is frequently used to build ships, bridges, and many other structures. Fiberglass is also used in thermal insulation, because of its thermal conductivity, which ensures that heat is dissipated away from a structure. In addition to these uses, fiberglass is often found in brake pads, clutch plates, clutch liner liners, and many other automotive applications. These materials are made by many different fiberglass manufacturers throughout the United States.
If you want the highest quality product, you should always work with a supplier that comes from a reputable area of the country. Some of the best fiberglass suppliers are located in the New England states, as well as New York, where there are some of the most advanced equipment and processes. These fiberglass suppliers have years of experience and know how to deliver the products that customers need. You will find that these suppliers offer a large variety of products, many of which are custom made. Many also offer a wide variety of services, including cutting, drilling, filling, bonding, and many other finishing techniques. You will not be disappointed when you work with a supplier that has this type of experience and is able to offer you the products and services that you need.