Wear and Erosion Resistance of Aircraft Engine Composite Elements in a Gas Abrasive Flow
Wear and Erosion Resistance of Aircraft Engine Composite Elements in a Gas Abrasive Flow
- New search for: Zinin, A. V.
- New search for: Dobrovol’skii, S. V.
- New search for: Lebedev, A. K.
- New search for: Krupennikov, V. A.
- New search for: Shevyakov, A. O.
- New search for: Zinin, A. V.
- New search for: Dobrovol’skii, S. V.
- New search for: Lebedev, A. K.
- New search for: Krupennikov, V. A.
- New search for: Shevyakov, A. O.
The results of the experimental study of the structural carbon fiber reinforced plastic (CFRP) erosion resistance applied to gas turbine engine structural elements are presented. A methodology for characterizing the process of gas abrasive wear of thin-walled structures made of polymer composite materials has been developed. The factors are found that determine the level of the abrasive effect of dust and gas mixture formed at the take-off and landing. A criterion for material erosion resistance assessment is presented.
Document information
Wear and Erosion Resistance of Aircraft Engine Composite Elements in a Gas Abrasive Flow
Russ. Aeronaut.
Russian Aeronautics ; 62 , 4 ; 696-703
2019-10-01
8 pages
Article (Journal)
Electronic Resource
English
Similar titles
Wear and Erosion Resistance of Aircraft Engine Composite Elements in a Gas Abrasive Flow
| Online Contents | 2019
Abrasive Wear by Coal-Fueled Engine Particulates
| Tema Archive | 1991
SAE Technical Papers | 2018
SAE Technical Papers | 1966
A Composite Approach to Reducing Abrasive Wear
| Automotive engineering | 1983