Superplastic Blow Forming of Aerospace Components

Ho Sung Lee; Jong Hoon Yoon; Joon Tae Yoo

doi:10.4028/www.scientific.net/KEM.622-623.819

Paper Titles

Analysis of Insulating Object Plastic Injection Forming of Bicycle Dynamo Hub Power Connector
p.791

Effect of Secondary Cooling on Microstructure, Texture and Properties of 1.2wt% Si Non-Oriented Electrical Steel Processed by Twin-Roll Strip Casting
p.798

Semisolid Casting of Hypereutectic Al-Si-Cu Alloy with Sono-Solidified Slurry
p.804

Temperature Monitoring during Laser Beam Forming of Steel Sheets
p.811

Superplastic Blow Forming of Aerospace Components
p.819

Temperature Measurement in the Rotary Forming Process of a Nickel Superalloys (INCONEL) Sheet during Induction Heating
p.823

A Novel Forming Process for Powder Metallurgy of Superalloys
p.833

Development of Ferrite–Bainite Dual Phase (FBDP) High Strength Steel for Automotive Industries
p.840

Microstructural Unit Controlling Cleavage Crack Propagation in High Strength Bainitic Steels
p.846

HomeKey Engineering MaterialsKey Engineering Materials Vols. 622-623Superplastic Blow Forming of Aerospace Components

Superplastic Blow Forming of Aerospace Components

Abstract:

Many metals, such as titanium and superalloys, are used for a wide range of aerospace applications, which include aircraft gas turbine engine and space launcher propulsion engine. In order to manufacture a stiffened extension with superplastic blow forming at elevated temperature, the structural integrity of the joint part was investigated since the welded or bonded joint of internal channels should maintain its strength during superplastic blow forming process. Various types of joint methods were performed in order to investigate microstructural and mechanical properties of the bonded specimen at elevated temperature. In this paper, the possibility of manufacturing combustion chamber and other aerospace components with superplastic blow forming of titanium and superalloy was demonstrated. An innovative manufacturing method to produce complex configuration from titanium multi-sheets by superplastic forming with low hydrostatic pressure was presented. The result also shows that the manufacturing method with superplastic blow forming of multi-sheets of IN718 alloy has been successfully demonstrated for near net shape forming of subscale nozzle extension cone with internal channels.