The Future of Composite Materials in Rail Infrastructures
![Image](https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEjJeVxvFc27TE0WdJZF9_mVLYddSfjQy-jzZ4W3AHQHDLc00KpVkjiayUGKV-gJnGse4MuCN4857aIdu_yVu7qsLxH6Ehj4yH-Ec90KymxMKG5O2j9mRi30Y2L8ASdxSL0ZG-Qg-U6dJ14VjDtO6E1rSnnV32eyk2BYvtbfNld3XxJDro9iIVBjgdXkNGQ/w491-h325/compo.webp)
Growing population and expanding urbanization worldwide require more sustainable mobility solutions to tackle global resource scarcity and climate change. As one of the most sustainable transportation modes, rail-based transport systems are taking an ever-increasing share of the mobility demand. According to the International Transport Forum (ITF) Transport Outlook 2019, the global passenger transport demand will more than double, and freight transport is expected to triple in the next 30 years. Growing Passenger Demand Requires Advanced Rail Infrastructure Composite materials are already playing an increasingly important role within the transport industries due to their lightweight nature, durability, and low environmental footprint. Composites offer significant improvements over traditional materials and provide innovative and sustainable solutions for various critical infrastructure projects. Many countries, either with well-established or rapidly growing rail networks, are explori