Kistler offers piezoelectric high-precision sensors with high flexibility and ruggedness for wind tunnel testing.

Wind tunnel testing

High-precision sensors featuring outstanding flexibility and ruggedness

Aerodynamics researchers use wind tunnel testing to study the effects of air moving past solid objects. The model is mounted in the middle of a tubular tunnel where air is blown past it – by a high-power fan system, for example. The models are instrumented with sensors to measure aerodynamic forces, pressure distribution and other aerodynamic parameters. Models with sting configurations are often equipped with piezoelectric multicomponent force sensors; in other cases, a dynamometer mounted at the wing root measures the wing's aeroelastic behavior under critical flow conditions.

Piezoelectric sensors from Kistler offer many key benefits for wind tunnel testing: their high rigidity ensures high natural frequencies and at the same time also reduces the deflection of the model significantly – a critical factor when measuring aeroelasticity or for measurements in transonic wind tunnels. In contrast to other measurement technologies, piezoelectric sensors offer an enormously wide measuring range. Thus, one single sensor can cover all measuring ranges, different angles of attack and a wide variety of airfoils – so setup is simple and installation costs are minimized. And with their rugged design, these sensors are extremely resilient against overloading. Kistler: the solution of choice for sensor technology in wind tunnel testing.


Key technologies for the application

Extended frequency response

Our PiezoStar IEPE technology allows the sensor to have the same sensitivity whether the temperature is 25 °C (77 °F) or -55 °C (-67 °F ).

Outstanding flexibility

Both the MEMS capacitive and PiezoStar quartz-based sensors are available with an optimal design for ultra-low profile. This allows for applications in confined spaces.

Extremely rugged

Our anodized aluminum sensor base ensures solid ground isolation. This avoids ground loop issues that would generate major electrical noise perturbations within the measuring signal.

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