Overview
Our vision is to become a global leader in advanced materials, revolutionizing industries with our pioneering fiber solutions.
We aim to drive the future of innovation by developing materials that meet market needs and integrate with existing technologies, paving the way for a more sustainable tomorrow.
Our mission is to make advanced materials sustainable, affordable, and within everyone’s reach.
Fibernx differs from other manufacturers in three ways:
Prices that match steel manufacturing costs, allowing industries to switch to carbon fibers without additional expenses.
Producing 68% fewer emissions compared to traditional PAN carbon fibers.
Customizable properties for each industry, so manufacturers don’t have to overspend on carbon fiber that exceeds their needs.
Why Carbon Fiber?
Carbon fibers offer the highest strength-to-weight ratio while being significantly lighter than steel, aluminum, or fiberglass. They provide high strength, high stiffness, low weight, corrosion and weather resistance, and thermal stability, making them the superior choice for advanced applications. These exceptional properties revolutionize industries like aerospace, automotive, sports equipment, and renewable energy. Carbon fibers enable the production of high-performance components while improving fuel efficiency and reducing emissions. At Fibernx, we harness these benefits to drive innovation and deliver advanced, eco-friendly solutions tailored to industry needs.
Why Carbon Nanofiber?
Carbon nanofibers (CNFs) exhibit high tensile strength and elasticity while being extremely lightweight. Their excellent electrical and thermal conductivity makes them useful in electronic applications, including conductive composites, sensors, and energy storage devices. Additionally, their chemical stability and resistance to corrosion and wear enhance the durability and longevity of materials incorporating CNFs. The high surface area of CNFs is advantageous for catalysis, filtration, and as electrodes in batteries and capacitors. These attributes make CNFs crucial in developing advanced composites for aerospace and automotive industries, improving energy storage solutions in batteries and supercapacitors, and advancing flexible electronics and sensors.