Kaufbeuren, 26.06.2019 (PresseBox) – Responding to new applications for its thin film sensor technology, and constant demand for increased accuracy, temperature stability and overall durability, KMW has developed sensing elements featuring more resistant substrates, more sensitive functional layers and more effective insulation and passivation materials.
A primary factor driving these advances has been growing demand for pressure sensors from the hydrogen economy. To counter hydrogen’s ability to permeate metals, KMW has designed diaphragms in materials and dimensions that exhibit lower deformation under pressure than components matched to less exacting media. To counter this increased stiffness, KMW employs a new generation of functional layers in new materials, which, in turn, has led to the use of a new passivation material.
„Our major task in hydrogen applications was to maintain the excellent measuring accuracy of our thin-film sensors in both automotive applications (fuel cells) and the hydrogen production and supply infrastructure, while countering the tendency of hydrogen to permeate steel and other material” notes Herbert Holzheu, KMW’s head of development. “This led us to employ extremely sensitive functional layers in innovative materials and more robust, resistant substrates. The new functional layers are capable of creating signals of processable strength from much smaller deformations in sensing element membranes with higher resistance to bending. Similarly, the new functional layers required passivation layers in new, better performing materials.”
The value of KMW’s deployment of new, higher performance materials is also demonstrated in the increased temperature stability of its type Z01 sensors for measuring cylinder pressure in large engines. This results from the use of a new more effective passivation layer, which is also closely matched to a new, functional layer material with increased sensitivity. “Developments like higher fuel injection pressures and high pressure two-stage turbocharging are increasing the temperature and pressure of combustion in large diesel, gas and dual-fuel engines. While we can measure very high pressures with thin film sensors, the temperature of the medium is a limiting factor,” Holzheu notes. “This is especially true in the cylinders of combustion engines, where temperatures vary considerably from the induction stroke, when the relatively cool air or air/fuel mixture enters the cylinder, to the power stroke where combustion takes place and the temperature rises rapidly. The increase in temperature stability we achieve in our cylinder pressure sensors for large engines due to our new passivation layer material enables our new functional layer material to measure cylinder pressure more effectively.”
Unternehmen: Sensor-Technik Wiedemann GmbH
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