A Comprehensive Understanding of Machine and Material Behaviors during Inertia Friction Welding

Tung, Daniel Joseph

03 August 2017

No description available.

Engineering

Materials Science

Inertia Friction Welding

Inertia Welding

Efficiency

Modeling

Bonding

Torque

Inertia Friction Welded Ni-Base Superalloys: Process Examination, Modeling and Microstructure

Mahaffey, David

30 September 2016

No description available.

Metallurgy

Industrial Engineering

Ni base superalloys

inertia friction welding

finite element model

weld process efficiency

Simulation of the Inertia Friction Welding Process Using a Subscale Specimen and a Friction Stir Welder

Dansie, Ty Samual

01 April 2018

This study develops a method to simulate a full-scale inertia friction weld with a sub-scale specimen and modifies a direct drive friction stir welder to perform the welding process. A torque meter is fabricated for the FSW machine to measure weld torque. Machine controls are modified to enable a force control during the IFW process. An equation is created to measure weld upset due to deflection of the FSW machine. Data obtained from a full-scale inertia friction weld are altered to account for the geometrical differences between the sub-scale and full-scale specimens. The IFW are simulated with the sub-scale specimen while controlling spindle RPM and matching weld power or weld RPM. The force used to perform friction welding is scaled to different values accounting for specimen size to determine the effects on output parameters including: HAZ, upset, RPM, torque, power and energy of the weld. Increasing force has positive effects to upset, torque, power and energy of the welds, while reducing the size of the HAZ.

Rotary Friction Welding

Inertia Friction Welding

Direct Drive Friction Welding

Welding

Inconel-718

Simulating

Flywheel

Energy

Nickel Based Superalloy

Subscale modelling

Mechanical Engineering