An Experimental and Modelling study of the Evolution of Inelastic Strain and its Implications to Re-crystallisation in Single Crystal Turbine Blades

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Title
An Experimental and Modelling study of the Evolution of Inelastic Strain and its Implications to Re-crystallisation in Single Crystal Turbine Blades

CoPED ID
a06455a5-0af9-4790-a5a8-a6467537d88a

Status
Closed

Funders

Value
No funds listed.

Start Date
March 31, 2019

End Date
Sept. 29, 2020

Description

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The overall aim of the project is to develop a microstructure-sensitive constitutive description of creep of gamma prime strengthened superalloys under extreme temperature conditions. The temperature range of interest will be between 1300oC and 1150oC with specific consideration to re-crystallisation during subsequent heat treatment in turbine blades. The work will involve identification of dominant deformation mechanisms and understanding of the microstructure in the conditions of interest, specifically through the use of miniature testing with small gauge volumes of the order of the length scale of micro-segregation. From this information, it is hoped to derive evolution relations for the micro-mechanisms. An appropriate state variable approach will be developed to couple the interaction of the initial microstructure state and its evolution on the creep strain-time trajectories. An emphasis will be placed on experimentally deriving an equation for the inelastic strain that can be used to predict the evolution of plastic strain in modelling activities.

University of Birmingham LEAD_ORG
Rolls-Royce STUDENT_PP_ORG

Paul Bowen SUPER_PER
Dominic Brennan STUDENT_PER

Subjects by relevance
  1. Temperature
  2. Physical properties
  3. Interaction
  4. Creeping (deformation)
  5. Microstructures
  6. Plastic

Extracted key phrases
  1. Initial microstructure state
  2. Single Crystal Turbine Blades
  3. Appropriate state variable approach
  4. Extreme temperature condition
  5. Inelastic Strain
  6. Modelling study
  7. Creep strain
  8. Dominant deformation mechanism
  9. Evolution relation
  10. Experimental
  11. Sensitive constitutive description
  12. Temperature range
  13. Subsequent heat treatment
  14. Small gauge volume
  15. Crystallisation

Related Pages

UKRI project entry

UK Project Locations