Applications
Design & Optimization of Mechanical & Electrical part
- Motion stabilizer system for filming and vehicle
- - Topology optimization of gimbal body and camera mount to reduce the weight and maintain the stiffness
- - Modal analysis to investigate the vibrational characteristics
- - High precision experimental set-up for measuring the performance of gimbal during filming
- Thermal and topology optimization of BLDC motor
- - Investigate the optimization for weight reduction and cooling performance of BLDC motor
- - For generating the internal flow, geometry of top of rotor shell is optimization and for weight reduction of motor, the side of rotor
shell is substituted by ply optimized composite material - - In order to confirm performance of optimized motor , the CFD analysis, FEA analysis and experimental validation were conducted.
- Topology optimization in automotive parts
- - Investigate the Weight reduction and performance optimization of automotive components using topology optimization theory.
- - The optimized wheel was designed through topology optimization approach considering international standards
for wheel test and
the design variables were adjusted by RSM (Response Surface method) - - To confirm the performance of optimized wheel, the FEA (Finite Element Analysis) was conducted and Mode analysis
- Recycling system for making filaments of 3-D printer
- - Construct the system for making filaments for 3-D printers from polymer pellets and wasted polymer.
- - The system integrates four main parts for recycling filament: a shredder, which crushes polymer waste into small pieces; an extruder,
which extrudes filament from the crushed pieces; a sensing and control component, which regulates the diameter of the extruded
filament via a closed-loop control system, and a spooler. - - Additionally, the dimensional accuracy, the mechanical properties of filaments were investigated and compared.
- Barrier design optimization for packaging of flexible electronics
- - Investigate the diffusion mechanism through multi and hybrid barrier layer structure
- - Design the barrier structure according to applications
- - Characterize the barrier performance (steady state and transient WVTR, lag time) of high performance barrier structure
