Stratview Research announces the launch of a new research report on Global Composite Process Materials Market by End-Use Industry Type (Aerospace & Defense, Wind Energy, Marine, Transportation, and ...

Researchers have created a self-healing composite that is tougher than materials currently used in aircraft wings, turbine blades and other applications—and can repair itself more than 1,000 times.

Composite materials have revolu­tionised a wide range of industries, including aerospace and automotive, offering unrivalled strength, lightness and design flexibility compared to more conventional ...

A groundbreaking initiative breathes new life into retired aircraft parts, transforming them into valuable resources for ...

Fiber-reinforced composite wing components, commonly stacked with aluminum and titanium, can challenge the machining process, including cutting tool security and final surface quality. Source (All ...

Composite materials, notably those reinforced with carbon or glass fibres, are increasingly utilised in engineering applications due to their high strength-to-weight ratio and durability. However, ...

Polymer matrix composites (PMCs) are made by reinforcing a polymer-based matrix with glass, carbon, or aramid fibers. PMCs are classified into thermosetting and thermoplastic resins based on the type ...

In this age of lightweighting vehicles to meet ever stricter Corporate Average Fuel Economy standards in the automotive industry, carbon fiber is looking to come out a big winner.

Composite materials are engineered by fusing different materials, typically consisting of a matrix (a polymer, metal, or ceramic) and a reinforcement (such as fibers, particles, or flakes) that ...

How do you decide on the “right” fastener type for a component or assembly involving composite and plastic materials in a time-efficient way? To define which materials and concepts a fastener type is ...