Applications: Biomechanics: Designing implants and medical devices,as well as modeling stress driven phenomena controllingcellular and molecular processesTeapaxiallateralTime6
• Biomechanics: Designing implants and medical devices, as well as modeling stress driven phenomena controlling cellular and molecular processes Applications 6
Applications. Materials science:Designing compositesalloy microstructures, thinfilms, and developingtechniques for processingmaterials7
• Materials science: Designing composites, alloy microstructures, thin films, and developing techniques for processing materials 7 Applications
Applications: Microelectronics: Designing failure-resistant packagingand interconnects for microelectronic circuitsSampleheatanalysis8
• Microelectronics: Designing failure-resistant packaging and interconnects for microelectronic circuits 8 Applications
Applications? Nanotechnology: Modeling stress-driven self-assemblyon surfaces, manufacturing processes such as nano-imprinting, and modeling atomic-force microscope/sample interactions9
