Dr. Matthew Hancock was part of a diverse team of scientists and engineers who developed a new in vitro biological system to mimic in vivo drug-drug interactions. This study, published in Frontiers in Pharmacology, shows that such systems can effectively predict drug efficacy and toxicity across multiple organs.
Veryst is pleased to welcome Dr. Andrew Spann to its engineering team. Dr. Spann's expertise uses high-performance computing to study complex physical systems, including biological systems such as vesicles, red blood cells, microfluidic devices, and platelets.
Veryst is pleased to welcome a new member to its engineering team! Dr. Matthew Hancock, has an extensive background in fluid mechanics and model-based engineering, including microfluidics, wetting of textured surfaces, surface tension effects, heat/mass transfer, solid-fluid interaction, wave motion, and multiscale analysis.
Veryst is happy to announce that Dr. Mark Oliver has joined our engineering team. Dr. Oliver has broad expertise in the structure and mechanical behavior of engineering materials. He has worked extensively on adhesive joints, materials interfaces, and thin films, with particular focus on the topics of fracture, fatigue, and delamination.
Dr. Stuart Brown provided insight in an article titled “The Hunt for Invisible Damage,” published in Digital Engineering 24/7. The article focused on metal fatigue fracture on the interior part of an engine fan blade, where it is invisible and undetectable when looking at it from the outside.
Dr. Nagi Elabbasi is now a Principal Engineer at Veryst! Dr. Elabbasi's primary area of expertise is modeling and simulation of nonlinear and multiphysics systems. He works with clients in the biomedical, consumer products, power and energy, automotive, and aerospace industries to resolve product design and performance issues.
Dr. Sean Teller has joined Veryst Engineering, bringing extensive experience in the mechanical behavior of materials at low and high strain rates, including viscoelasticity, viscoplasticity, nonlinear materials, and fracture mechanics.
Veryst is pleased to introduce Bachir Abeid. Abeid’s primary focus is on computational modeling. His experience includes a wide range of mechanical testing, modeling, simulation, prototyping, and product development.
Researchers at the Gas Technology Institute studying safe and efficient pipeline maintenance procedures chose Veryst to assist with identifying the appropriate material tests and material model needed for GTI’s polyethylene material. This project became the subject of a COMSOL blog.
ENGtechnica, an online publication in engineering and technology, published a review of Veryst's presentations at COMSOL Conference 2024 Boston in an article titled "When a COMSOL Analysis Gets Difficult, Call In the Cavalry."
Veryst's simulation capabilities—and work from Dr. Alireza Kermani—were again highlighted in a recent COMSOL blog titled "Designing Effective Transdermal Drug Delivery Patches with Simulation."
An article on how "FEA simulation drives new research" addresses the value of app development and notes Veryst's expertise in building customized new apps for clients using COMSOL's Application Builder.
In this four-part series, Dr. Nagi Elabbasi discusses some exciting real world simulation applications using the software COMSOL Multiphysics and describes recent innovations and advances in simulation.
Dr. Elabbasi moderated a panel discussion on “Modeling Strategies for Acoustics Simulations” at COMSOL Conference 2018 Boston. The panel discussed the use of different modeling strategies depending on the frequency range, model size, and details included in the physics used.
Fluid-Structure Interaction (FSI) is the interaction between a moving or deformable structure and an internal or surrounding fluid flow. This webinar showed how to simulate FSI, explored characteristic examples, and more.