Hot isostatic pressing (HIP) is a manufacturing process used to densify metal and ceramic parts. It is based on applying high levels of pressure (up to 2,000 bar / 200Mpa) and temperature (up to 2,000 °C) through an inert atmosphere to mainly metallic and ceramic parts and components, in order to densify them and give them excellent mechanical properties.

Improves the properties of critical components
Thanks to the densification of the structure, the material develops better mechanical properties such as fatigue life, resilience or ductility. In addition, these and the rest of the mechanical properties present less variability and better consistency, thus obtaining more reliable components.
HIP processing is fully complementary and synergistic with different manufacturing techniques such as Casting; Metal Injection Moulding (MIM); Powder Metallurgy (PM) including Near-Net-Shape (NNS) forming; Diffusion Bonding (DB) and the different Additive Manufacturing technologies (AM).
It allows parts to be developed that reach the quality standards required by sectors interested in manufacturing precision components to be subjected to extreme working conditions. The aerospace, oil and gas, nuclear, automotive, medical implants, defense or industrial sectors are the main beneficiaries of HIP technology.