The NASA Spinoff offices released an article describing their partnership with IC2 to develop their patented DirectShear wall shear stress sensors.
Press Releases, Product Updates, and Company Announcements
Part 3 describes the various direct transduction methods for shear stress sensing, including film-based techniques and floating element sensors.
Part 2 describes the various methods of indirect shear stress measurements, including surface / flow obstacles, heat transfer, and velocity measurements
IC2’s DirectShear sensing system is a tool for scientists and engineers to directly measure shear stress, assisting in the creation of economical aircraft
An overview of the upcoming blog series, A Guide to Wall Shear Stress Measurement. This series will cover mainly aerodynamic applications.
Day 1 at AIAA Aviation was a great success as IC2 engineers David Mills and Jared Anderson displayed DirectShear and our other product lines in the Expo Hall (booth 509 by The Hub).
IC2 announced today that NASA selected the company for a new Phase 2 contract from the 2018 SBIR program, accelerating R&D into two-dimensional shear-stress sensing. IC2 will continue developing a dual-axis, instrumentation-grade capacitive shear stress sensor for subsonic and transonic measurements.
IC2 to Exhibit and Present at AIAA Aviation 2019 – Booth 509
IC2 is now offering DirectShear sensors for the lowest prices ever, thanks to advancements in the technology and transition to full-scale production.
IC2 has launched all new form factors for its line of DirectShear Sensors. Capacitive Sensor Units (CSUs) are now available in either rack-mountable standalone units or as CompactPCI modules for easy integration into an existing chassis.