Aerospace Surface Engineering Program
Surface Engineering for High-Temperature Aerospace Components
Advanced program on thermal spraying and aluminide coatings for engineering teams working on critical aerospace systems
→ Request program details
This program supports teams that:
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evaluate thermal spraying technologies (APS, HVOF, LPPS, PS-PVD)
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work with high-temperature coatings including aluminide layers (pack cementation, VPA, CVD)
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need to understand performance implications under real operating conditions
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are involved in design, manufacturing or validation of critical components
Program Structure
Thermal Spraying Technologies
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overview of industrial processes (APS, HVOF, LPPS, PS-PVD)
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system configuration and process parameters
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diagnostics and control of spray processes
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limitations and typical failure mechanisms
Aluminide Coatings and High-Temperature Protection
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diffusion aluminizing methods (pack, VPA, CVD)
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microstructure and coating behavior
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performance under thermal load
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modern developments in coating technologies
Application Context and Performance
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impact of coating selection on component performance
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durability vs manufacturability trade-offs
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integration with system design
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real aerospace application examples
Delivery Format
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1–2 days
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on-site or laboratory-based
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small, focused engineering groups
Optional:
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discussion based on client-specific components or applications
Industrial Basis
The program is based on:
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real aerospace applications
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collaboration with industry partners
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laboratory and process-level experience
Who this is for
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aerospace engineering teams
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specialists working on engines, turbines and high-load components
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engineers responsible for coating selection, validation and implementation
This is a focused program on technologies that directly impact performance and risk in aerospace systems.
If this topic is relevant to your current projects:
→ Request program outline and availability