Reinforced concrete for seismic resistance and load-bearing of building structures

Summary of Training on Seismic Resistance of Building Structures and Reinforced Concrete under Stress

I. Topic Objectives

Master the finite element analysis method for building seismic resistance, as well as the finite element calculation and analysis capabilities for prestressed reinforced concrete and stressed concrete.

II. Engineering Cases and Typical Problems

1. Engineering Cases: Include 3 types of building structure cases, namely frame structure, shear wall structure, and brick-concrete structure buildings, to simulate their seismic performance.
2. Typical Problems: Focus on the seismic issues of high-rise and super high-rise buildings, targeting core difficulties in practical engineering.

III. Core Knowledge Points

Centered around three core modules: building modeling, meshing, and seismic stability, covering key technologies in the full process of finite element analysis for building structures.

IV. Time and Venue

1. Course Start Time: Classes begin after registration approval. The specific time will be confirmed by staff.
2. Teaching Method: Synchronous online/offline teaching in Xi’an.

V. Detailed Course Outline Modules

1. Introduction to Revit Software

   • Training Objectives: Understand the Revit interface and basic operation process.
   • Main Content: Initial understanding of Revit software; familiarity with basic operations of Revit; cognition of various analysis modules in Revit; mastery of main commands in the Revit command panel; methods for selecting Revit operation objects.

2. Building Model Creation in Revit Software

   • Training Objectives: Master 3D model creation skills in Revit software.
   • Main Content: Geometry modeling based on the Revit interface; introduction to Revit geometry import interfaces; interaction methods between CAD models and Revit; operation 流程 and precautions for generating building 3D models; geometric simplification functions and requirements.
   • Corresponding Cases: Frame structure modeling drill; shear wall modeling drill; establishment of stressed reinforced concrete model.

3. Introduction to Ansys Workbench

   • 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. Mesh Generation

   • Training Objectives: Master mesh generation methods and common techniques.
   • Main Content: Basic 流程 of mesh generation; mesh size setting; mesh type selection; meshing techniques; mesh quality evaluation and repair; mesh optimization.
   • Corresponding Cases: Meshing of brick-concrete structure buildings.

5. Post-Processing and Building Seismic Analysis Based on Ansys Workbench

   • Training Objectives: Master Ansys Workbench post-processing methods and possess capabilities in building seismic and structural stability analysis.
   • Main Content: Ansys Workbench post-processing methods and skills; building seismic stability analysis; structural stability analysis; mechanical performance analysis of stressed reinforced concrete.
   • Corresponding Cases: Seismic stability analysis of frame structures; seismic stability analysis of shear wall structures.

VI. 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.

3. Contact:

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