Bridge Experts Solution & Technology (B.E.S.T)

Our team is committed to bringing the best innovations from around the world to our clients and local communities. Contact us today to learn more about how you can incorporate sustainable materials into your next project.

FRP reinforcing bars and strands are composite products that replace steel bars and significantly reduce the damage caused by corrosion of rebar in corrosive and acidic environments. Made of a combination of different substances, including plastic resin and fibers of glass or carbon, FRP rebar is suitable for applications requiring a lightweight and long-lasting material that has high tensile strength, with non-corrosive and non-conductive properties

FRP can be used in the construction of bridge decks. These decks are made of a combination of high-strength fibers (such as carbon, glass, or aramid fibers) and a polymer matrix (such as epoxy or polyester resin). FRP bridge decks have many advantages over traditional bridge decking materials, including high strength-to-weight ratio, corrosion resistance, lower maintenance requirements, and provide greater design flexibility.

The benefits of using carbon fiber fabric to strengthen structures are numerous. The material's high strength-to-weight ratio, corrosion resistance, flexibility, durability, and cost-effectiveness make it an ideal choice for a wide range of applications. Whether you are retrofitting an older building or reinforcing a new structure, carbon fiber fabric can provide long-lasting reinforcement and protection against potential damage.

SUHPC has a compressive strength of over 150 megapascals (MPa), which is much higher than that of regular concrete (usually around 20-30 MPa). It also has a high tensile strength and excellent durability, making it suitable for use in bridges, tunnels, and other structures that require high-performance concrete. SUHPC allows for the construction of thinner and lighter structures that can still withstand heavy loads and harsh environmental conditions.

Voided biaxial slabs, also known as hollow core slabs or hollow slabs, are designed with strategically placed voids or hollow sections within the concrete, resulting in a more efficient and lightweight structure. By incorporating these voids, the weight of the slab is significantly reduced while maintaining its load-bearing capacity. This innovative design offers several benefits, including improved spanning capabilities, reduced material usage, enhanced thermal insulation, and better acoustics.

We are advancing the industry through education, innovation, certification program and other educational resources use of recycled material, such as fly ash, slag cement, and crushed glass, in concrete production has become a growing trend in the industry. additionally, carbon capture and utilization technologies, energy-efficient production methods, and sustainable design practices are all emerging as important practices in the quest for sustainability. life cycle assessment is begin used to