Composite Materials & ANSYS Simulation Masterclass
Published 7/2025
Duration: 57m | .MP4 1920x1080 30 fps(r) | AAC, 44100 Hz, 2ch | 703.93 MB
Genre: eLearning | Language: English
Published 7/2025
Duration: 57m | .MP4 1920x1080 30 fps(r) | AAC, 44100 Hz, 2ch | 703.93 MB
Genre: eLearning | Language: English
Master composite materials from basics to advanced manufacturing and master ANSYS simulation techniques step-by-step.
What you'll learn
- Engineering students interested in learning composite material behavior and analysis
- Mechanical, aerospace, and civil engineering professionals seeking simulation skills
- Researchers and professionals working with composite materials
- Anyone interested in simulation-driven composite design and optimization
- Beginners in ANSYS looking to apply it to real-world composite applications
- Designers and analysts aiming to improve their understanding of material modeling
- Individuals preparing for academic or industry projects involving composite simulation
- Anyone looking to bridge theory with hands-on simulation techniques using ANSYS
Requirements
- No programming Experience required. You'll learn everything in his course.
Description
Unlock the full potential ofcomposite materialswith this comprehensivemasterclass, designed for engineers, students, and professionals. This course takes you from thefundamentals of composite materials—including types, properties, failure modes, and real-world applications—tomanufacturing processeslike hand lay-up, vacuum bagging, resin transfer molding, and filament winding.
The core focus is onANSYS Composite PrepPost (ACP), where you'll learn how to model composite laminates, define ply orientations, simulate mechanical behavior, and evaluate stresses, deflections, thermal loads, and failure modes under different loading conditions. Whether you're new to composites or aiming to sharpen your simulation skills, this course equips you with both the theoretical and hands-on tools needed forreal-world product development and engineering projects.
What you'll learn:
Basics of composite materials: fiber types, matrices, and layups
Common manufacturing methods and process selection
Introduction to ANSYS Workbench and Composite PrepPost (ACP)
Modeling ply stacks and defining layups in ANSYS
Performing structural simulations on composite parts
Interpreting results: stresses, strains, thermal effects, failure criteria (Tsai-Wu, Hashin, etc.)
Real-world case studies, design projects, and practical engineering insight
Who this course is for:
Mechanical, aerospace, civil, and materials engineers
University students in engineering or applied mechanics
Researchers and professionals working with composite materials
Anyone interested insimulation-driven composite design and optimization
Who this course is for:
- Mechanical, aerospace, civil, and materials engineers University students in engineering or applied mechanics Researchers and professionals working with composite materials Anyone interested in simulation-driven composite design and optimization
More Info