Resources

Resources

Browse our library of pressure mapping and force measurement resources, including eBooks, Case Studies, On Demand Webinars, Whitepapers, and much more.

Displaying 1 - 10 of 68
Video

Time-lapsed results of battery housing pressure test with I-Scan pressure mapping system. Pressure mapping applications extend beyond the R&D lab. It can ensure uniform pressure distribution during the formation process.

eBook

Learn how and why industry leaders rely on pressure mapping to validate battery stack pressure dynamics in lithium-ion batteries, and how this technology can advance R&D efforts and quality control for battery design.

On Demand Webinar

Pressure mapping technology plays a critical and expanding role in battery formation for optimizing performance, maintaining quality, ensuring safety, and advancing battery technology through research and development efforts.

eBook

How insights from pressure mapping technology help industry experts analyze and improve the driving experience.

Video

Tekscan’s High Speed TireScan™ system captures the impact of speed, motion, and inertial forces on a tire at speeds up to 265 km/h (165 mph).

Articles & Research

A 2019 study published in the Journal of the Electrical Chemical Society used Tekscan pressure mapping sensors and software as a visual tool and means of data gathering over time to reveal hot spots at various pressure applications.

Articles & Research

Research in the Journal of Experimental Orthopaedics: Why are tapes better than wires in knotless rotator cuff repairs?

Articles & Research

Researchers at the Univerity of Illinois at Urbana-Champaign studied Rail Seat Deterioration and pressure distribution in concrete sleepers (rail ties) using Tekscan tactile sensors.

On Demand Webinar

Tekscan's Ed Haidar, applications engineer and product manager for the embedded sensing division, shares how a team of engineers leveraged their R&D pressure mapping insights to develop a vital safety application for their electronic device design.

Articles & Research

Ultra-thin piezoresistive sensors can be used in both R&D and as embedded components to develop safer, longer-lasting lithium-ion battery technologies.