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New Trends in Computational Solid Mechanics

New Trends in Computational Solid Mechanics. Wednesday, 10/23/2002. Class Progress. Visualization: abstract concept (stress,2D, 3D), mechanical field Atomistic Simulations: Stochastic simulations: random walk, Brownian movement Monte Carlo method (MC) Ensemble

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New Trends in Computational Solid Mechanics

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  1. New Trends in Computational Solid Mechanics Wednesday, 10/23/2002

  2. Class Progress Visualization: abstract concept (stress,2D, 3D), mechanical field Atomistic Simulations: Stochastic simulations: random walk, Brownian movement Monte Carlo method (MC) Ensemble Molecular Dynamics (MD) Trajectory Continuum Simulation: Material Point Method (MPM) Finite Element Method (FEM); Multiscale simulation Adaptive Mesh Refinement/Coarsening; Renormalization

  3. Computational Solid Mechanics Stress, strain, constitutive model Defects, dislocation Fracture Surface roughness Biomedical Engineering Information Technology Nanotechnology Bio/IT/Nano Bio/IT/Nano FEM, MPM MD, MC

  4. Heart The heart is a muscular organ located just to the left of the breast bone (sternum). It is about the size of your fist, and this amazing muscle pumps 4300 gallons of blood a day. The heart has four chambers: Atria. The top two chambers that receive blood from the body or lungs. Ventricles. The bottom two chambers. The right ventricle pumps blood to the lungs to pick up oxygen, The left ventricle pumps blood to the rest of the body and is the strongest chamber. Valves. There are four valves in the heart that help to direct blood flow.

  5. Mechanical Heart Valve • Structurally designed to last a lifetime • Most are constructed of pyrolytic carbon, a highly durable and biocompatible material • Excellent blood flow characteristics • Patient requires long-term anticoagulation therapy ("blood thinners", this medication actually slows the clotting process of blood) • Patient may hear the valve leaflets open and close

  6. Biocompatibility Mechanical valves are recognized for their exceptional durability, but require life-long anticoagulation medication.

  7. Stress distribution in Mechanical Heart Valve Harsh environment Roughness evolution

  8. Platelet Coagulation When reaching a damaged vessel, platelets release a chemical which sets up a change of events leading to the production of long, strand like threads called fibrin. Many fibrin threads join together to plug a vessel. Platelets are the smallest corpuscular components of human blood (diameter 2-4µm) - the physiological number varies from 150,000 to 300,000/mm3 blood.

  9. Flow Field Near Rough Surface Turbulence

  10. Blood clot As the blood flows turbulently over the rough surface of the artificial heart, the blood begin falling on itself and clotting.

  11. Shock Wave

  12. Extracorporeal Shock Wave Lithotripsy (ESWL) Extracorporeal shock wave lithotripsy (ESWL) is a medical procedure used to break kidney stones into fragments small enough for natural elimination. A shocking blow for kidney stones

  13. Kidney Stone Some of the smaller kidney stones that are less than 5mm in diameter pass on along during urination. However, a larger stone that does not pass on out can block the urinary tract. If left untreated, the blockage may hamper the normal function of the kidney and may cause complete shutdown of the affected kidney in a few days.

  14. Extracorporeal Shock Wave Lithotripsy high-frequency sound waves to crush kidney stones into granules small enough to be passed in the urine Noninvasive

  15. Mechanism of Stone Fails Evidence that the shock wave may lead to permanent damage to healthy tissue in the kidney.

  16. Spallation Spallation refers to large tensile stress that leading to stone failure probably by fatigue.

  17. Cavitation Cavitation occurs when the tensile stress of the shock wave is strong enough to make fluid rip apart. The nature of the shock wave in lithotripsy leads to a dramatic growth of the bubble followed by a subsequently violent collapse. The collapse leads to an probably surface damaging microjets.

  18. Mechanical interaction of shock wave with renal calculi After the application of 40 shock waves a stone phantom is fractured into two pieces. Here the fracture plane is oriented perpendicular to the wave propagation and exhibits a circular rings. The diameter of the stone phantom (magnesium oxide) is 15mm."

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