Alfa Romeo Racing links up with Quintus Technologies
Sauber Motorsport AG, which operates and manages the Alfa Romeo Racing team in the Formula One World Championship, is delighted to announce a new partnership with Quintus Technologies, the world leader in high pressure systems technology.
Quintus technologies specialises in designing, manufacturing, installing, and supporting high pressure systems for sheet metal forming and densification of advanced materials and critical industrial components. Headquartered in Västerås, Sweden, and represented in 45 countries worldwide, the company has delivered more than 1,900 systems to customers across the globe within industries such as aerospace, automotive, energy, and medical implants.
Frédéric Vasseur, Team Principal Alfa Romeo Racing and CEO Sauber Motorsport AG: “We are proud to welcome Quintus Technologies to the Alfa Romeo Racing family. They are a company at the leading edge of a crucial field and there are many synergies our two organisations can explore. We are looking forward to the innovation and quality they can bring to our team.”
Christoph Hansen, Head of Technical Development, Sauber Engineering AG: “The partnership with Quintus is an important milestone on Sauber Engineering’s Additive Manufacturing journey. The implementation of the Hot Isostatic Pressing (HIP) process adds massive value in bringing performance to our car as well for the demanding needs of our customers. By using Quintus’s HIP technology, the Sauber Group will be able to push the boundaries of what we do even further and bring the materials we produce to an outstanding level.”
Jan Söderström, CEO of Quintus Technologies: “We are excited to be partnering up with a leading Formula One racing team. This collaboration brings together two organizations at the forefront of advancing development and product innovation in the AM field. Working with Sauber Motorsport and Alfa Romeo Racing also gives us at Quintus a unique opportunity to show a large audience how well the modern HIP technology optimizes material properties.”