기본 교육 과정

HyperMesh® HyperView®

DAY 1 . HyperMesh Introduction
Chapter 1 : Basic Interaction with HyperMesh
Chapter 2 : Shell Meshing / Automeshing
DAY 2.  Geometry Clean-up
Chapter 1 : Shell Meshing/Checking and editing mesh
Batch meshing
 Chapter 2 : Geometry Clean-up
DAY 3.  Solids and hexas meshing
Chapter 1 : Solids and hexas mesh
Chapter 2 : Tetra  Meshing
Chapter 3 : Connectors
Chapter 4 : Analysis Setup
DAY 4 .  HyperView
Chapter 1 : HyperWorks Desktop Environment
Chapter 2 : Animation and View Controls
Chapter 3 : Result Visualization and Querying
Chapter 4 : Advanced Results Visualization  
Chapter 5 : Plotting Basics
Chapter 6 : Defining Waterfall Plots
Chapter 7 : Synchronizing Data
Chapter 8 : Process Automation
Chapter 9 : Result Presentation
Chapter 10 : Using HvTrans

고급 교육 과정 (본 과정은 반드시 기본 교육 과정을 이수한 후 신청 바랍니다.)

OptiStruct® Analysis Course
(RADIOSS® Bulk)

본 교육은 HyperMesh에 대하여 경험이 있으신 분들 중, OptiStruct를 이용한 선형 해석에 관심이 있으신 분들을 대상으로 합니다. HyperMesh를 사용하시는데 생소하신 분들은 HyperMesh Basic Course를 먼저 신청하시길 권장 드립니다.
DAY 1 .
OptiStruct analysis Introduction
Linear Static Analysis
Inertia Relief Analysis
Linear Buckling Analysis
Nonlinear and Contact Analysis
DAY 2.
Normal Mode Analysis
Frequency Response Analysis
Transient Response Analysis

Optimization Course
(OptiStruct® & HyperStudy®)

본 교육은 HyperMesh에 대하여 경험이 있으신 분들 중, D.O.E (실험계획법), Optimization (최적화), Stochastic Analysis (강건설계) 해석에 관심이 있으신 분들을 대상으로 합니다. HyperMesh를 사용하시는데 생소하신 분들은 HyperMesh Basic Course를 먼저 신청하시길 권장 드립니다.
DAY 1 . OptiStruct optimization
Chapter 1 : Topology Optimization of a Structural C-Clip
Chapter 2 : Topology Optimization of an Automotive Control Arm
Chapter 3: Topology Optimization with Manufacturing Constraints
Chapter 4: Optimal Rib Pattern for an Automotive Splash Shield
Chapter 5: Topography Optimization of a Torsion Plate
Chapter 6: Combined Topology and Topography Optimization of a Slider Suspension
DAY 2.  OptiStruct optimization
Chapter 1 : HyperMorphChapter 2 Pre-processing Shape Optimization of a Channel
 Chapter 2 : Shape Optimization of Rail-joint
Chapter 3: Shape Optimization of a Connecting Rod
Chapter 4: Size Optimization of a Welded Bracket
Chapter 5: Size Optimization of a Shredder
Chapter 6: Buckling Optimization of a Structural Rail
DAY 3.  HyperStudy
- Concepts and applications for DOE, optimization and stochastic studies
- Discussion of differences between local (Altair OptiStruct) and global /(response surfaced  based; HyperStudy) optimization and applications
- Setup of optimization, stochastic and DOE models for various solvers  such as OptiStruct,  LS-DYNA and ABAQUS
- Generation of design variables using HyperMesh and HyperMorph and   heir integration  into HyperStudy
- Parameterization of solver input files using Altair Templex
- Addition of linear or non-linear solver executables or run scripts to
- HyperStudy  Interpretation of results from optimization, stochastic and DOE studies

HyperForm® Course

본 교육은 박판성형해석 소프트웨어인 HyperForm 에 대한 교육과정입니다. HyperMesh Basic Course를 이수하신 후 본 교육을 신청하시는 것을 권장 드립니다.
DAY 1 . Die Module & One step Stamping Analysis
Chapter 1 - Die Module
Section 1: Basic Addendum Creating
Section 2: Designing a Parametric Addendum
Section 3: Modifying a Parametric Addendum
Section 4: Parameterization of External Binder and Addendum Section  Using Section Editor
Chapter 2 - One Step
Section 1: Model Preparation - Undercut Check and Autotipping
Section 2: One-Step Stamping Simulation
Section 3 : Increasing Blankholder Pressures
Section 4: Transferring Forming Results to Crash Analysis
Section 5 : Laser Weld
DAY 2. Incremental Stamping Analysis
Chapter 2 - Incremental
Section 1: Auto Process
Section 2: User Process
Section 3: Simple Draw Forming
Section 4: Combined Binderwrap and Draw Forming Analysis
Section 5: Drawbead
Section 6: Springback
Section 6: Springback
Section 7: Trimming
Section 8: Gravity
Section 9: Redraw
Section 10: Multi-Stage Manager
Section 11: Tube Bending
 Section 12: HydroForming

RADIOSS® Explicit Course

본 교육은 HyperMesh에 대하여 경험이 있으신 분들 중, RADIOSS Crash를 이용한 충돌해석에 관심이 있으신 분들을
대상으로 합니다. HyperMesh를 사용하시는 데 생소하신 분들은 HyperMesh Basic 교육을 먼저 수강하시기를 권장합니다.
DAY 1
Chapter 1 : Introduction to RADIOSS
Chapter 2 : RADIOSS Tools
Chapter 3 : RADIOSS Input Files
Exercise 3.1 : First run with Radioss
Chapter 4 : Elements (1D, 2D, 3D)
Exercise 4.1 : Twisted Beam
Chapter 5 : Common Features
Chapter 6 : Materials
Exercise 5.1 : Tensile Test
Exercise 6.1 : Gasket
Chapter 7 : Interfaces
Exercise 7.1 : Box tube
Day 2
Chapter 8 : Time Step Control
 Exercise 8.1 : Time Step Demo with an Example
 Chapter 9 : Best Practices
Exercise 9.1 : 3-Point Bending
Exercise 9.2 : Cantilever Beam with Bolt Pretension
Exercise 9.3 : Frontal pole test with simplified car
Exercise 9.4 : Debugging a RADIOSS model
Exercise 9.5 Hands on Cell Phone Drop Test

HyperMorph Advanced Course

본 교육은 Hyper Morph Advanced 과정으로 HyperMesh에 익숙한 고급 유저들을 위한 교육과정 입니다.
HyperMesh가 익숙하지 않으신 분들은, 먼저 HyperMesh Basic 과정을 이수하고 충분한 연습을 한 후에 본 교육을 신청하시는 것을 권장 합니다.
Global morphing
Local morphing of 1D, 2D, 3D, and edge domains - Symmetry
Constrain nodes to control which nodes are influenced and to control handle movement
Create dependency (relationships) between handles to control handle movement
Map mesh to new geometric data
Applications covered in hands-on exercises: Global morphing of airplane wing Morph model having 1d and 2d elements
Morph exhaust manifold junction
Morph engine piston rib to widen it and to create a new rib
Morph edge domains to create a fillet
Global morph vehicle while preserving wheel structure
Morph along curvatures and maintain 1d element connectivity
Create key hole on a riser cylinder having 2nd order tetra mesh
Morph cellular phone
Reposition and de-penetrate dummy
Morph surfaces to match morphed mesh
Morph to create distribution of loads

ABAQUS with HyperWorks Training Course

본 교육은 HyperMesh와 ABAQUS에 익숙한 고급 유저들을 위한 교육과정 입니다.
HyperMesh Basic 교육을 이수하지 않으셨거나, 익숙하지 않으신 분들은, 먼저 HyperMesh Basic 과정을 이수하고
충분한 연습을 한 후에 본 교육을 신청하시는 것을 권장 합니다.
ABAQUS Interfacing
This course helps students learn how to use HyperMesh to create and interface with ABAQUS formatted models and to use HyperView to post-process ABAQUS results.
Prerequisites
A basic knowledge of ABAQUS
A basic knowledge of HyperMesh and HyperView. It is recommended students complete the course Altair HyperMesh and HyperView, Modeling and Results Visualization Introduction.
If you are already familiar with HyperMesh, but not with HyperView, it is recommended you attend the course Altair HyperView, Results Visualization and Data Analysis Introduction.
Topics - HyperMesh
Basic interfacing with HyperMesh
Using the ABAQUS FE input translator and output templates
Accessing ABAQUS interface tools from the Macro Menu
Setting-up an ABAQUS specific graphical user interface with the User Profile
Using on-line help
Understand how data in ABAQUS input files is imported and organized
Review and modify ABAQUS entities
Define section properties and materials
Relate ABAQUS entities to HyperMesh element and load configurations
Define kinematic constraints
Define one node elements
Define loads on geometry and map them to elements
Define systems
Define contacts using the Contact Manager
Define loads for model data using the Step Manager
Define history data, including
*STEPs, loads, output requests, contacts (for ABAQUS\Explicit) using the Step Manager
Create and import curves to define loading
본 교육은 HyperMesh와 ABAQUS에 익숙한 고급 유저들을 위한 교육과정 입니다.
HyperMesh Basic 교육을 이수하지 않으셨거나, 익숙하지 않으신 분들은, 먼저 HyperMesh Basic 과정을 이수하고
충분한 연습을 한 후에 본 교육을 신청하시는 것을 권장 합니다.
Topics - HyperView
ABAQUS INP and ODB files in the animation window
Directly loading ODB file for results data
Loading INP versus ODB file for model data
Creating contour plots for ABAQUS results
Result types, and their components and invariants
Layer options for shell element results
Support of elemental results at POSTION=INTEGRATION, NODES, and CENTROIDAL for 1st and 2nd order elements
Averaging at nodes
Result systems
Plotting history data from ABAQUS ODB files

LS-Dyna with HyperWorks Training Course

교육은 HyperMesh와 LS-Dyna 에 익숙한 유저들을 위한 교육과정입니다. HyperMesh Basic 교육을 이수하지 않으셨거나, 익숙하지 않으신 분들은, 먼저 HyperMesh Basic 과정을 이수하시고 충분한 연습을 한 후에 본 교육을 신청하시는 것을 권장 합니다.
HyperMesh를 통해 LS-Dyna용 모델을 구성하고, HyperView를 통해 해석 결과를 관찰합니다.
Prerequisites
A basic knowledge of LS-DYNA
A basic knowledge of HyperMesh. It is recommended students complete the course Altair HyperMesh and HyperView Modeling and Results Visualization Introduction.
If you are already familiar with HyperMesh, but not with HyperView, it is recommended you attend the course Altair HyperView, Results Visualization and Data Analysis Introduction.
Topics
Basic interfacing with HyperMesh Using the LS-DYNA FE input translator and output template Accessing LS-DYNA interface tools from the Macro Menu Setting-up an LS-DYNA specific graphical user interface with the User Profile Using on-line help
Understand how data in LS-DYNA input files is imported and organized
Review and modify LS-DYNA entities
Define parts, properties and materials
Define boundary conditions, loads, and constraints
Define sets and boxes
Relate LS-DYNA entities to HyperMesh element and load configurations
Define contacts, rigid walls and airbags
Define curves to define non-linear materials and loads
Define beams, joints and constrained nodal rigid bodies
Define *DEFORMABLE_TO_RIGID
Define *PART_INERTIA
Define *CONSTRAINED_EXTRA_NODES
View a summary of a model’s parts and create and edit parts using the Content Table tool
Define material type 100 spot welds
Define Arbitrary-Lagrangian-Eulerian (ALE) keyword cards
Define control and output

SimLab ® Training Course

본 교육은 Simlab으로 복잡한 형상(예: 엔진, 크랭크샤프트, 전자장비 등)에 대해서 손쉽게 테트라 요소를
생성하는 방법과 메쉬 조건(예: 필렛, 실린더 등)을 Template화 하여 다른 모델에도 동일 적용하는 방법에 대해
진행을 합니다. 해당 제품을 이용하면 복잡한 형상에 대해서도 빠른 시간 안에 고품질의 테트라 요소를 생성 할 수 있습니다.
Session1) Simlab 소개
Session2) Surface 메쉬 작성 Session3) Volume 메쉬 작성
Session4) Local 메쉬 컨트롤
Session5) 모델 체크 및 메쉬 클린업
Session6) FEM 모델 형상 변경
Session7) 정해석 모델 작성

solidThinking Inspire® Training Course

본 교육은 solidThinking Inspire제품을 이용하여 손쉽게 구조해석과 Topology 최적화를 학습 할 수 있습니다.
어떠한 다른 선행 학습도 필요 없으며, 공학적인 지식이 없어도 손쉽게 이용하실 수 있습니다.
Session1) Topology 최적화 개념 이해하기
Session2) Inspire Interface 및 Moving & Snapping
Session3) CAD Geometry준비하기
Session4) Bridge 모델 스케치 및 최적화
Session5) 다양한 하중케이스 적용하기
Session6) 해석 및 최적화 하기
Session7) 최적화 결과 저장/파일 추출하기
Session8) Optistruct Optimization과 비교하기
Session9) Control Arm Exercise
Session10) Knuckle Exercise
Session11) Workshop