CURRENT STUDENTS:

 

• Justin Karl, hooptey@gmail.com, Real-Time Structural Health Monitoring of Naval Vessels and Platforms
• David Radonovich, david.radonovich@siemens.com, Very Low Cycle Fatigue of a Ni-base Superalloy
• Eric Williams, epw202@hotmail.com, FEA Simulation of IN939 Fatigue
• Michael Schulist, lawnmowerman@cfl.rr.com, FEA Simulation of Notched IN939 Fatigue
• Fred Shamieh, shamiehf@gmail.com, Physically-based Model for Rupture based on Precipitate Particle Rafting
• Kirtan Patel, kirtan_14_2003@yahoo.com, Constitutive Modeling of a Ni-base Superalloy Subjected to Creep Softening and Fatigue Conditions
• Steve Mattia, cujo721sm@aol.com, Design of a Rotating Heat Rig for Meso-scale Turbine System Simulations
• Luis Gonzalez, lugonzalezucf@yahoo.com, Design of a Rotating Heat Rig Control for Meso-scale Turbine System Simulations
• Jon Heppner, jhepp07@aim.com, Life Prediction Modeling of a DS Ni-base Superalloy under Service Conditions
• Scott Keller, skeller66gt@yahoo.com, An Analytical Model for Stresses in Helical Coil Springs under Lateral Loading
• Robert DeGrandchamp, rawby7@aol.com, Critical Speed Assessment of a Rotating Heat Rig
• Shanel L. Allen, sallen@spelman.edu, Numerical Simulation of Electrical Conductive Materials

 

ALUMNI:

 

• Sameer A. Khan, Siemens-Westinghouse Power Corporation, PROBABILISTIC STRESS RUPTURE LIFE ANALYSIS OF TURBINE BLADES (Thesis)
• Maria Claudia Duarte, Boeing, Tertiary Creep Modeling of a Ni-base Alloy

This page is updated annually in May.