CRYOGENICS
We design and build high-precision mechanical and electromechanical devices adapted to operate in extreme cryogenic environments. We provide comprehensive solutions that ensure maximum thermal and structural stability for advanced scientific research projects, such as particle accelerators and astrophysics.
CORE CRYOGENIC CAPABILITIES
THERMAL STABILITY ENGINEERING
Custom-engineered support structures and thermal shielding designed to minimize heat load and ensure precise dimensional stability at ultra-low temperatures.
CRYOSTAT INTEGRATION
End-to-end design, procurement, and assembly of complex cryostat systems, tailored for seamless integration into particle accelerators and cutting-edge research facilities.
VACUUM & UHV TECHNOLOGY
Specialized in components operating under Ultra-High Vacuum (UHV) conditions, utilizing rigorous material selection and cleaning protocols to prevent outgassing.
MATERIALS & PRECISION STANDARDS
Our cryogenic engineering relies on strict manufacturing standards and specialized materials to guarantee zero-failure performance in extreme environments:
OFHC COPPER
Oxygen-Free High Thermal Conductivity materials integrated for absolute optimal heat transfer.
STAINLESS STEEL 316LN
Specialized in 316LN and 304L alloys, providing high structural strength and low magnetic permeability for scientific environments.
UHV COMPATIBLE ASSEMBLIES
All components are processed under strict Ultra-High Vacuum standards, including specialized cleaning and outgassing prevention protocols.
CRYO-ACTUATION & SENSING
Precision integration of electromechanical actuators and thermal sensors designed to operate reliably at 4K and below.