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Ultralow Expansion Glass as Material for Advanced Micromechanical Systems

C. Weigel, Valeriya Cherkasova, Mathias Holz, Hai Binh Phi, Christian Görner Tenorio, Björn Wilbertz, Leonard Voßgrag, Thomas Fröhlich, Steffen Strehle

2023Advanced Engineering Materials14 citationsDOIOpen Access PDF

Abstract

Ultralow expansion (ULE) glasses are of special interest for temperature stabilized systems for example in precision metrology. Nowadays, ULE materials are mainly used in macroscopic and less in micromechanical systems. Reasons for this are a lack of technologies for parallel fabricating high‐quality released microstructures with a high accuracy. As a result, there is a high demand in transferring these materials into miniaturized application examples, realistic system modeling, and the investigation of microscopic material properties. Herein, a technological base for fabricating released micromechanical structures and systems with a structure height above 100 μm in ULE 7972 glass is established. Herein, the main fabrication parameters that are important for the system design and contribute thus to the introduction of titanium silicate as material for glass‐based micromechanical systems are discussed. To study the mechanical properties in combination with respective simulation models, microcantilevers are used as basic mechanical elements to evaluate technological parameters and other impact factors. The implemented models allow to predict the micromechanical system properties with a deviation of only ±5% and can thus effectively support the micromechanical system design in an early stage of development.

Topics & Concepts

Materials scienceFabricationMicrostructureMetrologyMaterial propertiesMechanical engineeringNanotechnologyMicromechanicsSilicate glassComposite materialOpticsEngineeringComposite numberPathologyMedicinePhysicsAlternative medicineAdvanced Surface Polishing TechniquesLaser Material Processing TechniquesForce Microscopy Techniques and Applications