event

PhD Defense by Kenneth A. Hart

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Kenneth A. Hart
(Advisor: Prof. Rimoli)

will defend a doctoral thesis entitled,

A Micromechanically-Informed Model of Thermal Spallation with Application to Propulsive Landing

On

Monday, November 22 at 11:00 a.m.
Montgomery Knight Building 317

 

Abstract
During the propulsive landing of spacecraft, the retrorocket exhaust plume introduces the landing site surface to significant pressure and heating. Landing site materials include concrete on Earth and bedrock on other bodies, two highly brittle materials. During a landing event, defects and voids in the material grow due to thermal expansion and coalesce, causing the surface to disaggregate or spall. After a spall is freed from the surface, the material beneath it is exposed to the pressure and heat load until it spalls, continuing the cycle until engine shutdown.

Spalls and debris entrained in the exhaust plume risk damaging the lander or nearby asserts- a risk that increases for larger engines. The purpose of this work is to develop a micromechanically-informed model of thermal spallation to improve understanding of this process, in the context of propulsive landing. A preliminary simulation of landing site spallation, utilizing an empirical thermal spallation model, indicates that spallation may occur for human-scale Mars landers. This model, however, was developed for drilling through granite, which has a fundamentally different microstructure compared to typical landing sites, necessitating a more general approach.

To that end, highly-detailed simulations of thermomechanical loading, applied to representative microstructures, inform a functional relationship between applied heat flux and spallation rate. These representative microstructures can be generated using an algorithm that has been validated for a wide variety of materials, including basalt from Gusev Crater, Mars.

Committee

  • Prof. Julian Rimoli – School of Aerospace Engineering (advisor)
  • Prof. Robert Braun – NASA Jet Propulsion Laboratory
  • Prof. Claudio Di Leo – School of Aerospace Engineering
  • Prof. George Kardomateas – School of Aerospace Engineering
  • Dr. Charles Campbell – NASA Johnson Space Center

Status

  • Workflow Status:Published
  • Created By:Tatianna Richardson
  • Created:11/10/2021
  • Modified By:Tatianna Richardson
  • Modified:11/10/2021

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