Qualification of Indigenously Developed Special Coatings for Aero-Engine Components

V. Sambasiva Rao; T. Rangaraju; V. Unnikrishnan

doi:10.14429/dsj.49.3848

V. Sambasiva Rao Centre for Military Airworthiness & Certification, Bangalore
T. Rangaraju Centre for Military Airworthiness & Certification, Bangalore.
V. Unnikrishnan Centre for Military Airworthiness & Certification, Bangalore.

DOI: https://doi.org/10.14429/dsj.49.3848

Abstract

The demand for higher performance and reliability of aero-engiaes necessitates its components to worksatisfactorily under severe operating conditions. The durability of various components in these environmentis often enhanced by applying suitable coatings. The development of new materials/processing methods andalso various coatings to protect the components have been driven by the ever-increasing severity of theaero-engine internal environment. While the selection of a coating is dictated by the operating conditionsand the nature of the environment and also on the substrate, the durability of the coating depends uponthe mode of degradation of the coating and substrate in service.Though certification of an aero-engine after developmt obviously includes: validation of the componentsand its coatings, indigenous substitution of an already-qualified component system requires a re-orientationof the qualification methodology. This paper describes an approach for qualification of indigenously developedspecial coatings processes for application on aero-engine components. This approach has been adoptedsuccesshlly in validating several indigenous coatingslpmcesses, viz, aluminium-silicon diffusion coating appliedby pack cementation for oxidationhot comsion resistance, cobalt-chromium carbide coating by electrodepositionfor wear resistance, chromium carbide-nickel chromium coating applied by detonation gun and yttria-stabilisedzirconia thermal barrier coating applied by plasma spray.The approaih consists of a series of validation tests configured to assess the coating-substrate system.The rationale in evolving the qualification tests based on the type of coating, coating process, operating conditionsfor the components, probable failure modes and coating-base metal interaction, are described. In addition,comparison of the test results obtained on the test specimens coated with indigenously developed coatingsand imported coatings is also enumerated to show that these coatings are comparable to the imported coatings.Documentation of satisfactory performance of the components coated with indigenously developed coatingsthrough successful engine tests and limited-service evaluation is also highlighted. In addition to the substitutionof the coatings recommended by the principal designers with those developed indigenously, a few coatings,such as polyimide coating for corrosion resistance and ceramic paint for thermal resistance solely appliedon various aero-engine components were successfully evaluated using above mentioned approach.

Author Biographies

V. Sambasiva Rao, Centre for Military Airworthiness & Certification, Bangalore

Mr V Sambasiva Rao obtained his ME (Metallurgy) from Indian Institute of Technology, Mumbai.He joined DRDO at Naval Science & Technology Laboratory, Visakhapatnam, in 1981 and workedthere for six years. Presently, he is working as Scientist in Regional Centre for Military Airworthiness(Engines), CEMILAC, Bangalore, where he is engaged in airworthiness assurance during indigenisationof components, including coatings/processes for their applications 0.n various aero-engines.

T. Rangaraju, Centre for Military Airworthiness & Certification, Bangalore.

Mr T Rangaraju has been working as Technical Assistant in RCMA (Engines), CEMILAC, Bangaloresince 1993. He is actively involved in airworthiness assurance of aero-engines manufactured, repaired& overhauled at HAL (Engine Division), Bangalore.

V. Unnikrishnan, Centre for Military Airworthiness & Certification, Bangalore.

Mr V Unnikrishnan is BE (Aeronautics). He has about 25 years of experience in aeronautical qualityassurance and airworthiness assurance. He had worked in various capacities in Hindustan AeronauticsLimited and Directorate of Technical Development & Production (Air), before joining DRDO.Presently, he is Regional Director at RCMA (Engines), Bangalore. He is responsible for airworthinessassurance of engines under license producton overhaul, as well as during the evelopment of Kaveriengine for LCA.

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