Posters
2008 Annual Review Posters
Simulations of Squeeze Film Damping of Microcantilevers at Low Pressure
Simulation of Coupled Phonon-Gas Thermal Transport in Nanoscale Geometries
- Simulations of Squeeze Film Damping of Microcantilevers at Low Pressure
- Flow Simulation with MEMOSA-FVM
- The Material Point Method
- Using the Material Point Method for Electrostatics
- A Continuum Plasticity Model that Accounts for Size Effects
- A High-Order Method for 3D Non-Linear Elastodynamics
- Design of Electrostatically Actuated MEMS Under Uncertainties
- Multiscale Modeling of Phonon Transport
- Simulation of Coupled Phonon-Gas Thermal Transport in Nanoscale Geometries
- Modeling of Dielectric Charging in RF MEMS
- Metal Contact-Molecular Dynamics Simulation
- Predictive Atomistic Modeling in PRISM: Roadmap
- PurdueReax: An MD tool for Simulating Reacting Systems
- WSO Preconditioning Technique
- MEMOSA: MEMS Overall System Administrator
- Sensitivity Analysis in Computational Mechanics
- High Performance UQ Algorithms
- Towards a More Complete Mathematical Model of the Dynamic Behavior of Microbeam MEMS
- Lifetime Prediction for RF-MEMS
- Geometrical Error and Material Property Extraction for RF MEMS Switches using Electro Micro Metrology
- Gas Damping of Freely Vibrating Flexible Cantilevers
- Squeeze-Film Gas Damping of Flexible Cantilever at Low Ambient Pressure
- Thermometry Techniques for Characterization of MEMS and Nanomaterials
- Microstructural Characteriztion of Ni MEMS
About PRISM
PRISM leverages advances in nanoscale science and engineering to create innovative nanotechnologies addressing societal challenges and opportunities in computing, communications, the environment, security, energy independence, and health.
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Education
Contact
Matt Potrawski
Managing Director, PRISM Center
Purdue University
Birck Nanotechnology Center
1205 W. State St., Suite 2027
West Lafayette, IN 47907-2088
- mpotraws@purdue.edu
- Phone: 765.496.6298
- Fax: 765.494.4731