Analytical shakedown, ratchetting and creep solutions for idealized twin-wall blade components subjected to cyclic thermal and centrifugal loading
Double-wall transpiration cooling systems offer the potential for performance improvements over conventional single wall systems in aerospace applications. Here we idealise the geometry in terms of a constrained 2 bar system which allows the development of analytical expressions for the entire range...
Päätekijät: | Skamniotis, C, Cocks, ACF |
---|---|
Aineistotyyppi: | Journal article |
Kieli: | English |
Julkaistu: |
Elsevier
2022
|
Samankaltaisia teoksia
-
Ratchetting and creep failure in twin-wall turbine blades experiencing severe thermal and centrifugal loading
Tekijä: Skamniotis, C, et al.
Julkaistu: (2022) -
On shakedown and ratchetting of conforming frictional systems
Tekijä: M. Ciavarella
Julkaistu: (2009-12-01) -
Multiscale analysis of thermomechanical stresses in double wall transpiration cooling systems for gas turbine blades
Tekijä: Skamniotis, C, et al.
Julkaistu: (2021) -
Creep-plasticity-fatigue calculations in the design of porous double layers for new transpiration cooling systems
Tekijä: Skamniotis, CG, et al.
Julkaistu: (2021) -
Study of Cyclic Plasticity and Creep Ratchet Behavior of PTFE
Tekijä: Hongyan Liu, et al.
Julkaistu: (2023-09-01)