Ambassador activities by Gabriel Stankiewicz (Wroclaw University of Technology, Poland)

Within the last couple of months Gabriel organized and conducted different HyperWorks trainings for fellow students at the Wroclaw University of Science and Technology / Poland.

A brief summary about his activities is included below - in case you are interested in becoming an Ambassador on your own feel free and send a short mail to goelke@altair.de

01.04.2017 - Saturday
Duration: 6 hours
Group 3 - day n° 01
Topics:

  • Interface in HyperMesh, explanation of all important panels and toolbars
  • Geometry import and repair, explanation of topology of surface models
  • Defeature panel + additional exercise with Formula Student upright (defeature, repair and edit)
  • Midsurface generation with different extraction options + additional exercise
  • 2D meshing: automesh panel with different options; mesh adjustment with interactive panel; 2D mesh quality check and optimization
  • 2D meshing additional exercise: preparation of surfaces (trimming, repair); automesh meshing with qualityindex check
  • 3D tetra mesh: with volume tetra mesh option, influence of curvature and proximity usage options
  • 3D shrink wrap mesh
  • 3D solid geometry edit; partitioning the model in order to HEXA mesh
  • 3D HEXA meshing of a complex model: 2D automeshing chosen surfaces, one volume and multi solids hexa meshing; sphere 3D hexa meshing

02.04.2017 - Sunday
Duration: 6 hours
Group 3 – day n° 02
Topics:

  • 1D meshing: RBE2, RBE3 elements explanation and usage, creating and updating of these elements; CBEAM elements creation + HyperBeam section creation; bolt joint
    manual creation; connectors – spots and bolts creation
  • Linear static analysis preprocessing: materials, properties, load collectors, load steps with Load Step Browser creation (load steps of mixed load collectors) + running
    optistruct with chosen controls
  • HyperView postprocessing: Contours display, multiple windows, synchronization, legend edit; measures panel; printing prepared windows with results
  • Linear static modal analysis: Lanczos method normal modes analysis
  • Linear static buckling analysis (Lanczos method)
  • Linear static inertia relief analysis with SUPPORT1 constraints
  • Topology optimization theory
  • Topology optimization preprocessing: design variable, responses, dconstrains, objectives creation; optistruct “out” window analysis; postprocessing of element
    densities with contour and iso panel
  • Manufacturing contraints in OptiStruct; exercise with DRAW direction and pattern grouping contraints
  • RADIOSS dynamic analysis with contact preprocessing: elastic-plastic material with predefined plastic strain curve, properties, contact definion with contact surface, Bc’s manager for initial velocity, RADIOSS engine definition in HyperMesh + running RADIOSS

21.04.2017 - Friday
Duration: 2 hours
Group 3 - day n° 03 - REVISION
Topics:

  • Revision of the completed material (previous training)
  • Complement of the theory, basic functions and interface

22.04.2017 - Saturday
Duration: 6 hours
Group 4 - day n° 01
Topics:

  • Interface in HyperMesh, explanation of all important panels and toolbars
  • Geometry import and repair, explanation of topology of surface models
  • Defeature panel + additional exercise with Formula Student upright (defeature, repair and edit)
  • Midsurface generation with different extraction options + additional exercise
  • 2D meshing: automesh panel with different options; mesh adjustment with interactive panel; 2D mesh quality check and optimization
  • 2D meshing additional exercise: preparation of surfaces (trimming, repair); automesh meshing with qualityindex check
  • 3D solid geometry edit; partitioning the model in order to HEXA mesh
  • 3D HEXA meshing of a complex model: 2D automeshing chosen surfaces, one volume and multi solids hexa meshing; sphere 3D hexa meshing

23.04.2017 - Sunday
Duration: 6 hours
Group 4 - day n° 02
Topics:

  • 3D HEXA meshing of a complex model: 2D automeshing chosen surfaces, one volume and multi solids hexa meshing; sphere 3D hexa meshing
  • 3D tetra mesh: with volume tetra mesh option, influence of curvature and proximity usage options
  • 1D meshing: RBE2, RBE3 elements explanation and usage, creating and updating of these elements; CBEAM elements creation + HyperBeam section creation; bolt joint
    manual creation; connectors – spots and bolts creation
  • Linear static analysis preprocessing: materials, properties, load collectors, load steps with Load Step Browser creation (load steps of mixed load collectors) + running
    optistruct with chosen controls
  • HyperView postprocessing: Contours display, multiple windows, synchronization, legend edit; measures panel; printing prepared windows with results
  • Linear static modal analysis: Lanczos method normal modes analysis
  • Topology optimization theory
  • Topology optimization preprocessing: design variable, responses, dconstrains, objectives creation; optistruct “out” window analysis; postprocessing of element
    densities with contour and iso panel
  • Manufacturing contraints in OptiStruct; exercise with DRAW direction and pattern grouping contraints

27.04.2017 - Thursday
Duration: 2 hours
Group 5 - Teaching class n° 01
Topics:

  • Interface in HyperMesh, explanation of all important panels and toolbars
  • Geometry import and repair, explanation of topology of surface models
  • Defeature panel + additional exercise with Formula Student upright (defeature, repair and edit)

04.05.2017 - Thursday
Duration: 2 hours
Group 5 - Teaching class n° 02
Topics:

  • Midsurface generation with different extraction options + additional exercise
  • 2D meshing: automesh panel with different options; mesh adjustment with interactive panel; 2D mesh quality check and optimization
  • 2D meshing additional exercise: preparation of surfaces (trimming, repair); automesh meshing with qualityindex check

05.05.2017 - Friday
Duration: 2 hours
Group 4 – teaching class n° 03
Topics:

  • RADIOSS dynamic crash analysis of impact attenuator. Preprocessing with RADIOSS - advanced material and properties modelling; contact modelling; initial velocity;
    engine controls. Postprocessing

18.05.2017 – Thursday
Duration: 2 hours
Group 5 - Teaching class n° 03
Topics:

  • 3D solid geometry edit; partitioning the model in order to HEXA mesh
  • 3D HEXA meshing of a complex model: 2D automeshing chosen surfaces, one volume and multi solids hexa meshing

20.05.2017 - Saturday
Duration: 6 hours
Group 6 - day n° 01
Topics:

  • Interface in HyperMesh, explanation of all important panels and toolbars
  • Geometry import and repair, explanation of topology of surface models
  • Defeature panel + additional exercise with Formula Student upright (defeature, repair and edit)
  • Midsurface generation with different extraction options + additional exercise
  • 2D meshing: automesh panel with different options; mesh adjustment with interactive panel; 2D mesh quality check and optimization
  • 2D meshing additional exercise: preparation of surfaces (trimming, repair); automesh meshing with qualityindex check
  • 3D solid geometry edit; partitioning the model in order to HEXA mesh
  • 3D HEXA meshing of a complex model: 2D automeshing chosen surfaces, one volume and multi solids hexa meshing; sphere 3D hexa meshing

21.05.2017 - Sunday
Duration: 5 hours
Group 6 - day n° 02
Topics:

  • 3D tetra mesh: with volume tetra mesh option, influence of curvature and proximity usage options
  • 1D meshing: RBE2, RBE3 elements explanation and usage, creating and updating of these elements; CBEAM elements creation + HyperBeam section creation; bolt joint
    manual creation; connectors – spots and bolts creation
  • Linear static analysis preprocessing: materials, properties, load collectors, load steps with Load Step Browser creation (load steps of mixed load collectors) + running
    OptiStruct with chosen controls
  • HyperView postprocessing: Contours display, multiple windows, synchronization, legend edit; measures panel; printing prepared windows with results
  • Linear static modal analysis: Lanczos method normal modes analysis
  • Topology optimization theory
  • Topology optimization preprocessing: design variable, responses, dconstrains, objectives creation; optistruct “out” window analysis; postprocessing of element
    densities with contour and iso panel
  • Manufacturing contraints in OptiStruct; exercise with DRAW direction and pattern grouping contraints
  • Topography optimization: theory + preprocessing similar like in topology optimization + parameters of topography design variable; analysis with optistruct; postprocessing

25.05.2017 – Thursday
Duration: 2 hours
Group 5 - Teaching class n° 04
Topics:

  • 3D tetra mesh: with volume tetra mesh option, influence of curvature and proximity usage options
  • 1D meshing: RBE2, RBE3 elements explanation and usage, creating and updating of these elements; CBEAM elements creation + HyperBeam section creation; bolt joint
    manual creation; connectors – spots and bolts creation
  • Linear static analysis preprocessing: materials, properties, load collectors, load steps with Load Step Browser creation (load steps of mixed load collectors) + running
    OptiStruct with chosen controls

27.05.2017 - Saturday
Duration: 6 hours
Group 7 - day n° 01
Topics:

  • Interface in HyperMesh, explanation of all important panels and toolbars
  • Geometry import and repair, explanation of topology of surface models
  • Defeature panel + additional exercise with Formula Student upright (defeature, repair and edit)
  • Midsurface generation with different extraction options + additional exercise
  • 2D meshing: automesh panel with different options; mesh adjustment with interactive panel; 2D mesh quality check and optimization
  • 2D meshing additional exercise: preparation of surfaces (trimming, repair); automesh meshing with qualityindex check
  • 3D solid geometry edit; partitioning the model in order to HEXA mesh
  • 3D HEXA meshing of a complex model: 2D automeshing chosen surfaces, one volume and multi solids hexa meshing; sphere 3D hexa meshing

28.05.2017 - Sunday
Duration: 6 hours
Group 7 - day n° 02
Topics:

  • 3D tetra mesh: with volume tetra mesh option, influence of curvature and proximity usage options
  • 1D meshing: RBE2, RBE3 elements explanation and usage, creating and updating of these elements; CBEAM elements creation + HyperBeam section creation; bolt joint
    manual creation; connectors – spots and bolts creation
  • Linear static analysis preprocessing: materials, properties, load collectors, load steps with Load Step Browser creation (load steps of mixed load collectors) + running
    OptiStruct with chosen controls
  • HyperView postprocessing: Contours display, multiple windows, synchronization, legend edit; measures panel; printing prepared windows with results
  • Linear static modal analysis: Lanczos method normal modes analysis
  • Topology optimization theory
  • Topology optimization preprocessing: design variable, responses, dconstrains, objectives creation; optistruct “out” window analysis; postprocessing of element
    densities with contour and iso panel
  • Manufacturing contraints in OptiStruct; exercise with DRAW direction and pattern grouping contraints
  • Topography optimization: theory + preprocessing similar like in topology optimization + parameters of topography design variable; analysis with optistruct; postprocessing

01.06.2017 – Thursday
Duration: 2 hours
Group 5 - Teaching class n° 05
Topics:

  • HyperView postprocessing: Contours display, multiple windows, synchronization, legend edit; measures panel; printing prepared windows with results
  • Linear static modal analysis: Lanczos method normal modes analysis
  • Topology optimization theory
  • Topology optimization preprocessing: design variable, responses, dconstrains, objectives creation; optistruct “out” window analysis; postprocessing of element
    densities with contour and iso panel
  • Manufacturing contraints in OptiStruct; exercise with DRAW direction and pattern grouping contraints

Gabriel - this is a really impressive training series and training initiative. We are very excited about your work. THANK YOU!