Summary of HyperMesh Structural 3D High-Precision Meshing Application Training

Summary of HyperMesh Structural 3D High-Precision Meshing Application Training

I. Core Course Objectives

Through a teaching method combining theory and engineering examples, this course helps participants master the ability to achieve high-precision structural meshing using HyperMesh. Leveraging the software’s powerful meshing functions, it enables effective control of model mesh quality and improves calculation accuracy.

II. Engineering Cases and Typical Problems

1. Engineering Cases: A total of 6 engineering cases are included.
2. Typical Problems: Cover key issues in practical operation scenarios, such as geometric creation function drills, geometric repair of clamp models, meshing of a part shell, meshing of flip supports, meshing of boom structures, and solid_map meshing.

III. Core Knowledge Points

Focus on HyperMesh tetrahedral and hexahedral 3D mesh generation, with in-depth explanations of the generation methods, techniques, and quality optimization for both mesh types.

IV. Training Methods

1. Venue: Xi’an, with simultaneous online and offline teaching supported.
2. Start Time: Courses begin after registration approval. The specific venue and time will be confirmed by staff.

V. Training Fees

1. 4,000 USD/person (Group discounts: 10% for 2 attendees, 15% for 3+; 10% for students/teachers with ID). Accommodation not included.
2. Optional Vocational Skills Certification (1,600 USD) issued by Boye Engineering Technology, valid for career advancement.

VI. Detailed Course Outline Modules

1. Introduction to HyperMesh Software

   • Training Objectives: Understand the HyperMesh interface and basic operation processes.
   • Main Content: Finite element analysis workflow; software overview and advantages; basic operations; familiarization with main commands in each module and command panel; methods for selecting operation objects.

2. 3D Model Creation in HyperMesh

   • Training Objectives: Master 3D model creation skills in HyperMesh.
   • Main Content: Geometry modeling based on the interface; introduction to geometry import interfaces; 3D model import processes and precautions; operation 流程 and precautions for mesh-generated 3D models; geometry simplification functions and basic requirements; geometry cleanup.
   • Corresponding Cases: Geometric creation function drills; geometric repair of clamp models.

3. Mesh Fundamentals

   • Training Objectives: Understand basic concepts, types, and quality evaluation indicators of meshes.
   • Main Content: Physical meaning of computational meshes; mesh quality evaluation indicators; common mesh types and their applicable scopes.

4. HyperMesh Tetrahedral Mesh Generation

   • Training Objectives: Master methods and common techniques for tetrahedral mesh generation in HyperMesh.
   • Main Content: Basic workflow; size setting; type selection; meshing techniques for volume and standard tetrahedrons; quick meshing tips; comparison of meshing methods; quality evaluation, repair, and optimization.
   • Corresponding Cases: Meshing of a part shell; meshing of flip supports.

5. HyperMesh Hexahedral Mesh Generation

   • Training Objectives: Master methods and common techniques for hexahedral mesh generation in HyperMesh.
   • Main Content: Basic workflow; size setting; type selection; principles of mapped mesh generation; principles and techniques of solid partitioning; partitioning and meshing skills; comparison of meshing methods; quality evaluation and optimization.
   • Corresponding Cases: Meshing of boom structures; solid_map meshing.

6. Special Mesh Processing Techniques

   • Training Objectives: Master some special mesh processing techniques.
   • Main Content: Summary of common partitioning methods; mesh stretching/rotation/offset processing; hybrid mesh generation; mesh assembly and interface node merging.

VII. Additional Support Services

During the training, instructors will analyze practical problems raised by participants, conduct joint discussions and Q&A sessions in class, and provide suggested guidance to help solve technical difficulties in work. Individual issues can also be consulted with instructors after class.

Contact:

Prof. Tian：WhatsApp：+86 15029941570 | Mailbox：540673737@qq.com