Current research projects

Testing of mobile leak detectors according to DIN EN 14624

Intelligent innovative power supply for superconducting coils

Influenced melting point of water by magnetic field

Optimizing HVAC operation with machine learning

High Capacity Pulse Tube Cooler

Combined building and system simulation

Cryogenic liquid piston pumps for cold liquefied gases like LIN, LOX, LHe, LH2, LNG, LAr

Hybrid- Fluid for CO2-Sublimation Cycle

Innovative Parahydrogen Generator Based on Magnets

Calibration of Low Temperature Sensors

Certification of efficient air conditioning and ventilation systems through the new "indoor air quality seal" for non-residential buildings

Solar Cooling

Reducing the filling quantity

Panel with indirect evaporative cooling via membrane

Test procedures for electrical components

Low Temperature Measuring Service

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Certifiable connection types in cryogenics

BMWI

Dr. Andreas Kade

+49-351-4081-5117

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Detachable and permanent connections, adhesive bond / form closure / force closure

The applications of cryogenic and vacuum technology impose special requirements on connection technologies. To determine the appropriate connections the application parameters such as temperature, vacuum and pressure, leak rate, materials, surface properties, radiation resistance, magnetic permeability etc. should be considered.

Connection technologies even if not being part of a standardized process more often have to be subject of a certification or qualification due to increasing quality requirements, e.g. pressure equipment directive 2014/68/EU. Therefore adequate designing and testing is necessary.

Alternative to electroplating process: cold gas sprayed copper layer (> 2 mm) with subsequent thread insertion

Innovations

The intended innovations relate to complete cryogenic systems considering the process chain from room temperature to low temperature range regarding the respectively required specifications.

Development of application-related connection technologies with defined requirements and derived mechanical limit values
Examination of existing connection technologies regarding applicability and further development towards secure and functional technologies
Evaluation and definition of application limits to aim for a feasible certification and the subsequent conformity with European guidelines

Project objectives

Application-related examination of various connection technologies
Further development and adaptation of existing connections to the requirements of cryogenic and vacuum technology
Examination on composite materials
Examination on component geometries and their influence on the connection
Determination of process parameters (e.g. TIG welding, brazing,...)
Determination of test limit values, especially for test specimens deviating from standards
Calculation according to common standards, simulation (FEM, ...) and testing
Realization and certification of selected connection technologies