All posts by Bridget Cunningham
Benchmark Shows Valid Results for a Piezoelectric Transducer Design
We walk you through the Composite Piezoelectric Transducer tutorial model: a benchmark model for ultrasonic transducer simulation and good starting point for simulations of SAW and BAW filters.
Optimizing the Hydration Operation in the Thermal Processing of Dates
To optimize the hydration process for dates, a team of researchers turned to experimental studies and simulation analyses. Learn more here.
University of Buffalo Fosters Industrial Innovation with Apps
Take a look at how a team from the University of Buffalo designed multiphysics models and simulation apps to spread modeling expertise to a broader range of industries.
Evaluating an Insulin Micropump Design for Treating Diabetes
Researchers from the University of Ontario Institute of Technology used simulation to develop a MEMS-based micropump that could administer insulin injections in a safe and painless way.
Analyzing the Design of a Thermoelectric Device for Cryotherapy
Researchers at the University of Birmingham in the U.K. turned to simulation to investigate the potential of using a thermoelectric cooler, or Peltier device, to cool a cryogenic probe.
User Feedback Powers COMSOL Multiphysics® Version 5.2a
The release of COMSOL Multiphysics® software and COMSOL Server™ product version 5.2a includes new features and functionality based on feedback from our users. Get an overview.
Stretchable Electronics Blend Flexibility with High Performance
See how stretchable electronics are successfully blending strength and flexibility to offer new opportunities for technological growth in the wearables and internet of things (IoT) markets.
Why Heat Transfer Modeling Can Benefit from Weather Data
In this blog post, we guide you through the process of generating a tetrahedral mesh for your COMSOL Multiphysics® models.
Quickly and Accurately Analyze Acoustic Reflections with Apps
Read about how you can design a computational modeling app to calculate the acoustic reflections off a water-sediment interface with both speed and accuracy.
Simulating a 3D Multilayered Graphene Biosensor Design
A team from the Polytechnic University of Bucharest designed and analyzed a 3D multilayered graphene biosensor with COMSOL Multiphysics®. Get the full story here.
Metal-Foam Material Prompts New Shape-Shifting Technology
Engineers at Cornell University designed a hybrid material that can shift in shape, bringing new developments to the fields of soft robotics and aeronautics in the process. Get the full story.
Building More Effective Water Treatment Basins with Apps
Fluid flow simulation is an efficient way to optimize the design of water treatment basins to ensure their overall effectiveness. Apps expand these capabilities to a wider audience.
