Modeling the Super Plastic Forming of a Multi-Sheet Diffusion Bonded Titanium Alloy Demonstrator Fan Blade

Paul Wood; Muhammad Jawad Qarni; Paul L. Blackwell; Vladimir Cerny; Phillip Brennand; Steven Wilkinson; Andrzej Rosochowski

doi:10.4028/www.scientific.net/MSF.735.215

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Superplastic Forming Response of a Friction Stir Processed Mg Alloy Sheet – A Numerical Approach
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Application of SPF/DB New Structure to Titanium Main-Load Carrying Components
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Modeling the Super Plastic Forming of a Multi-Sheet Diffusion Bonded Titanium Alloy Demonstrator Fan Blade
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Instrumentation and Control of a Bulge Test on a Superplastic Pb-Sn Alloy
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Experimental Study of the Mechanical Behavior of Materials under Transient Regimes of Superplastic Deforming
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A Robust Numerical Method for Validating Mesoscopic Grain Boundary Sliding Controlled Flow Model for Structural Superplasticity
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HomeMaterials Science ForumMaterials Science Forum Vol. 735Modeling the Super Plastic Forming of a...

Modeling the Super Plastic Forming of a Multi-Sheet Diffusion Bonded Titanium Alloy Demonstrator Fan Blade

Abstract:

The paper describes a finite element method in 2D and 3D to simulate the super plastic forming of a demonstrator jet engine fan blade made from Titanium alloy sheet. The fan blade is an assembly of three sheets in which a single inner (core) sheet is diffusion bonded to the two outer (skin) sheets at prescribed zones, which is then super-plastically formed to a desired fan profile. In the model, the diffusion bonded zones between the core and skin sheets are simulated using tied interfaces. The thickness of each skin sheet is not uniform and significant change in thickness can occur over a short distance as well as gradually over the entire skin sheet. The thickness of the core sheet which is smaller than the thickness of each skin sheet remains uniform. The paper describes the design for a scaled-down demonstrator fan blade and model build process. Selected results and evaluations of finite element simulations are presented and discussed.

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Periodical:

Materials Science Forum (Volume 735)

Pages:

215-223

DOI:

https://doi.org/10.4028/www.scientific.net/MSF.735.215

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Online since:

December 2012

Authors:

Paul Wood, Muhammad Jawad Qarni, Paul L. Blackwell, Vladimir Cerny, Phillip Brennand, Steven Wilkinson, Andrzej Rosochowski

Keywords:

Diffusion Bonding (DB), Finite Element Analysis (FEA), Jet Engine Fan Blades, Process Modeling, Super Plastic Forming (SPF)

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References

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