Advanced Manufacturing Techniques for Turbomachinery
( 25 Modules )

Module #1
Introduction to Turbomachinery
Overview of turbomachinery principles, applications, and industry trends

Module #2
Additive Manufacturing for Turbomachinery
Introduction to Additive Manufacturing (AM) technologies and their application in turbomachinery

Module #3
Design for Additive Manufacturing
Design principles and considerations for AM parts, including lattice structures and topology optimization

Module #4
Material Considerations for AM in Turbomachinery
Overview of AM materials, properties, and selection criteria for turbomachinery applications

Module #5
Metal 3D Printing for Turbomachinery
In-depth look at metal AM processes, including Selective Laser Sintering (SLS), Selective Laser Melting (SLM), and Electron Beam Melting (EBM)

Module #6
Post-Processing and Finishing for AM Turbomachinery Parts
Importance of post-processing and finishing techniques for AM parts, including machining, grinding, and surface treatment

Module #7
Subtractive Manufacturing Techniques for Turbomachinery
Overview of traditional machining and subtractive manufacturing methods for turbomachinery production

Module #8
Computer Numerical Control (CNC) Machining for Turbomachinery
In-depth look at CNC machining principles, tools, and applications in turbomachinery manufacturing

Module #9
Electrochemical Machining (ECM) for Turbomachinery
Principles and applications of ECM, including deburring, surface finishing, and complex shape manufacturing

Module #10
Hybrid Manufacturing Techniques for Turbomachinery
Combining additive and subtractive manufacturing methods to create complex turbomachinery components

Module #11
Coatings and Surface Treatments for Turbomachinery
Overview of coatings and surface treatments to enhance turbomachinery performance, including thermal barrier coatings and ceramic coatings

Module #12
Advanced Ceramic Matrix Composites (CMCs) for Turbomachinery
Properties, manufacturing, and applications of CMCs in turbomachinery, including thermal protection and erosion resistance

Module #13
Model-Based Engineering and Digital Twins in Turbomachinery
Role of model-based engineering and digital twins in turbomachinery design, optimization, and testing

Module #14
Generative Design and Topology Optimization for Turbomachinery
Using AI-driven generative design and topology optimization to create innovative turbomachinery geometries and structures

Module #15
Turbomachinery Inspection and Testing Techniques
Overview of non-destructive testing (NDT) methods, including X-ray, CT scan, and ultrasonic inspection for turbomachinery components

Module #16
Materials Characterization and Properties for Turbomachinery
Importance of materials characterization, including mechanical, thermal, and chemical properties for turbomachinery applications

Module #17
Advanced Turbomachinery Manufacturing Case Studies
Real-world examples of advanced manufacturing techniques applied to turbomachinery production, including success stories and lessons learned

Module #18
Industry 4.0 and Digitalization in Turbomachinery Manufacturing
Impact of Industry 4.0 and digitalization on turbomachinery production, including automation, robotics, and data analytics

Module #19
Supply Chain Management and Logistics for Turbomachinery
Strategies for optimizing supply chain management and logistics in turbomachinery production, including just-in-time manufacturing and lean production

Module #20
Quality Control and Certification for Turbomachinery
Importance of quality control, certification, and regulatory compliance in turbomachinery manufacturing, including AS9100 and Nadcap standards

Module #21
Turbomachinery Maintenance and Repair
Advanced techniques for turbomachinery maintenance, repair, and overhaul, including additive manufacturing for repair and refurbishment

Module #22
Sustainability and Environmental Considerations in Turbomachinery
Strategies for sustainable turbomachinery design, manufacturing, and operation, including energy efficiency and emissions reduction

Module #23
Advanced Turbomachinery Design for Performance Optimization
Using computational fluid dynamics (CFD) and finite element analysis (FEA) for turbomachinery design optimization, including aerodynamics and thermodynamics

Module #24
Rotor Dynamics and Vibration Analysis for Turbomachinery
Importance of rotor dynamics and vibration analysis in turbomachinery design and operation, including Campbell diagrams and whirling modes

Module #25
Course Wrap-Up & Conclusion
Planning next steps in Advanced Manufacturing Techniques for Turbomachinery career

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Advanced Manufacturing Techniques for Turbomachinery ( 25 Modules )

Advanced Manufacturing Techniques for Turbomachinery
( 25 Modules )