Posts tagged #materialsdesign
See where and why impact erosion failure occurs to speed up coating design - a 2nd step
See where and why impact erosion failure occurs to speed up coating design - a 2nd step

Key Benefits:

  • Accelerate materials and process design with a focus on designing, measuring and validating mechanical properties improvements.

  • Allow users to see at what critical contact condition a design solution will fail, or what type of stress field, distortion, strain etc. is the dominant failure mode and this helps inform the designer of the type of material properties needed.

  • Materials data collected at appropriate measurement scales to inform realistic mechanical properties as the starting point in simulation, and for verification of design improvements.

  • Simulate fluid droplet and/or solid particle impact

  • Suitable for multi-layered materials design of any solid material and even for time-dependent viscoelastic polymers.

Read More
Troy vom BrauckeDroplet erosion, Fluid Erosion, Solid Particle, wear, functional surfaces, #materialsdesign, coating design, coatngs, Coating Failure, Simulation, modeling, modelling, multilayered coating, aerospace, wind turbine, radome, propeller, blades, space, impact, fatigue, Hertzian, turbocharger, impeller, jetdrive, vane, turbine, hydro, pump, slurry pump, water hammer, pipe erosion, cavitation
New Research Toward Evolutionary Optimization of Complex Layered Materials Systems
New Research Toward Evolutionary Optimization of Complex Layered Materials Systems

Recent unexpected outcomes of our quantum-gravity material science research has lead to new generalized evolution equations entangled with thermodynamics. This provides options to develop layered materials and structures evolutionarily optimized against non-linear processes, for example against turbulences (applicable to hyper-sonics), impact and thermal creep effects. Further, our project developments in mathematical psychology will enrich future product designs with an end users psychology in the design optimization phase, and interestingly toward the potential applied use of ‘mass formation’ psychological phenomena in developing room temperature stable quantum coherent material structures.

Read More
Surface Engineering, Engineering ServicesTroy vom Braucke#evolution, #evolutionarybiology, #chipdesign, #semiconductor, #psychology, #mathematics, #physics, #materialsdesign, #materials