Lab Automation Software

TriPAV interfaces with the PAV to capture data across different frequencies within a controlled environment. It generates precise datasets for analyzing sample characteristics using various calibration and visualization methods.

This tool is particularly adept at measuring the high-frequency viscoelastic properties of inkjet fluids, providing valuable insights into their dynamic behavior during jetting and enabling researchers to make data-driven improvements to fluid formulations.

TriOSC utilizes an oscilloscope to generate specific frequencies, enabling precise data capture under controlled temperature sweep conditions. The collected data is processed for calibration and visualization to understand how temperature variations influence ink rheology.

This solution plays a key role in studying thermal effects on fluid behavior, allowing researchers to optimize printing processes for improved stability and performance.

TriMaster manages complete mechanical experimental setups, integrating high-resolution cameras to record experiments. It processes image frames using intelligent image processing algorithms to identify filament stretching, thinning, and breakup behaviors.

By generating detailed datasets and interactive visualizations, TriMaster provides researchers with deeper insights into droplet formation, supporting the development of more precise inkjet printing applications.

TriRheo facilitates a wide range of rheological experiments on raw sample data, allowing users to visualize results and generate automated reports with data plots and detailed explanations.

This software supports the development and fine-tuning of ink formulations by providing comprehensive rheological analyses, streamlining research efforts, and improving experimental accuracy.