www.virtualpyxis.com
The topology optimization software you need
FastRobust
AccurateUserfriendly
Solver Independent
www.virtualpyxis.com
Virtual. PYXISoptimization
Virtual.PYXIS is a non-parametric structural optimization softwarerecommended for engineers and designers who need to development innovative components and assemblies with reduced mass.The software is able to handle from simple to complex optimization
situations, also involving nonlinear analysis features (plasticity and contact) and compliant mechanism systems.The software has a state of the art algorithm, which permits to achieve more weight reduction while keeping the same level of stiffness.Virtual.PYXIS has been created to fill the gap between academic research and what is available to the market. As it is solver independent, Virtual.PYXIS takes full advantage of the optimization potential and flexibility.
www.virtualpyxis.comVirtual. PYXISoptimization
Flowchart
Projection Method / Heaviside
ComplianceVolumeMassVolume Fraction/Mass FractionDisplacementFrequency ValueLinear Buckling
Sequential Quadratic ProgrammingOptimallity CriteriaMethod of Moving Asymptotes
Convergence
Optimization
Sensibility
FEM
Filtering
Virtual. PYXISoptimization
Solver independent It uses ANSYS and ABAQUS solver during optimization cycles Optimization of nonlinear situations (geometric, material, finite slide contact) Very robust and modern filter technics based on projection and heaviside methods The manufacturing constraints are mathematically formulated, more than 26 combinations are avaliable Good treatment of the sensibilities achieving more weight reduction while keeping the same level of stiffness Unique solution for complex analysis like compliant mechanisms
Main advantages
ANSYS
www.virtualpyxis.com Virtual. PYXISoptimization
Compliant Mechanism
The final structure works like a flexible mechanism The mechanism works according to a
force x displacement relation A factor can be used to amplify or
decrease the relation between input and output displacements
Nonlinear Optimization
Pre-tensioned components Geometric and material nonlinearities Components with finite slide contact
12KN
60KN
96KN
144KN
240KN
300KN
Final geometry changes increasing the force.
ANSYS Worbench Integration
Perfect integration with ANSYS Workbench Project Uses ANSYS solver and all its capabilities Easy preparation of the optimization analysis.
ANSYS ACT development partner:
Casting: split, draw single Extrude Symmetry: up to 3 planes symmetry
rotational symmetry Pattern repetition Minimum member size Minimum hole perimeter
Advanced Manufacturing Constraints
VerificationMeshing Topology Optimization
Original Draw single
Draw single with one symmetry
Draw single with two symmetry directions
Virtual.PYXIS - BrazilRua Tiradentes, 160, Sala 22São Caetano do Sul, 09541-220São Paulo
Truck engine mount support (using advanced manufacturing constraints)
ExtendedDesign Mesh Topology
OptimizationCAD
Interpretation Validation
Gear (using rotational and multiple symmetry)
Original Iteration 3 Iteration 14 Iteration 30
Tractor cabin mount support (using material nonlinearities)
Courtesy:
ExtendedDesign Mesh Topology
OptimizationCAD
Interpretation Validation
Virtual.PYXIS Examples
Piston (compliant mechanism)
Courtesy:
Courtesy:
Final Model
Input Model Optimized Model Final Model
Courtesy:
Final Model
Weight reduction = 23%
Weight reduction = 35%
AerospaceConsumer Appliance
Key Industries
Automotive
BiomechanicsElectronics
Medical EquipmentOil & GasPower GenerationConstruction Equipment
MachineryRailwayValves and Pumps
Virtual.PYXIS - GermanyHollerithalle 1730419 Hannover(Tecnologie Zentrum im Wissenschaftspark)
Virtual.PYXIS - USA3440 South Dearborn St Suite 132 SChicago Illinois 60616(University Technology Park at IIT)