BESPOKE ALUMINIUM FOR THE ROBOTICS MARKET
The advancement if the robotics industry owes a lot to the development of aluminium from the mid-20th Century onwards. Without the strength, durability, longevity, light weight and adaptability of aluminium, robotics would not be where it is today.
Aluminium is a vital part in the automated manufacturing process, as well as being used in a wider range of robotic components. From small, machined components through to large, automated machines and even the robots used to construct them, aluminium helps provide solutions where other materials cannot.
Through the development of specialised solutions within robotics and aluminium, Simmal has helped manufacturers and designers get the best out of their products and projects.
Simmal’s experts can help you get the perfect metal components to complete your design. Contact us today for further information on our services and how we can help you.
OUR SERVICES
If you are looking to get bespoke pieces for use within the aerospace industry, or for any other use, get in touch with us today. We are always glad to help and our highly skilled and experienced team can help your ideas become reality.
ALUMINIUM USES IN
THE ROBOTICS INDUSTRY
In the robotics industry, aluminium is transforming the way robots are designed and built, delivering an unmatched combination of strength, flexibility, and lightweight performance. Its exceptional strength-to-weight ratio is critical for developing agile robots capable of performing complex tasks without being hindered by heavy components, ensuring efficiency in both movement and energy consumption.
Aluminium’s malleability and machinability make it a top choice for creating intricate, precise components essential to the functionality of robotic systems. Robotic arms, frames, and joints rely on aluminium for their structural integrity and precision, allowing robots to handle tasks with high accuracy.
Additionally, aluminium’s natural corrosion resistance ensures durability in diverse operating environments, from high-humidity manufacturing facilities to outdoor operations and underwater applications. Its ability to withstand wear and tear under such conditions extends the lifespan of robotic systems, reducing maintenance and replacement costs.