VESTNIK of Samara University. Aerospace and Mechanical EngineeringVESTNIK of Samara University. Aerospace and Mechanical Engineering2542-04532541-7533Samara National Research University183310.18287/1998-6629-2013-0-3-2(41)-133-138UnknownAdhesion strength of heat-insulating and wear-resistant ceramic coatings on aluminum alloysKrishtalM. M.<p>Doctor of Sciences (Engineering)</p>
<p>Professor of the Department “Nanotechnologies, Physical Metallurgy and Mechanics”, Rector </p>krishtal@tltsu.ruIvashinP. V.<p>Candidate of Sciences (Engineering)</p>
<p>Associate Professor of the Department “Power Plants and Control Systems”</p>ivashinpv@rambler.ruPoluninA. V.<p>Engineer</p>polfam@mail.ruPavlovD. A.<p>Candidate of Sciences (Engineering)</p>
<p>Associate Professor of the Department “Power Plants and Control Systems”</p>Pavlov-DA@mail.ruNikerovK. N.<p>Engineer of the Department “Power Plants and Control Systems”</p>vorekin@yandex.ruTogliatti State University24102013123-213313824112014Copyright © 2015, VESTNIK of the Samara State Aerospace University2015<p>The paper presents a review of research devoted to the determination of adhesion strength and tendency to cleavage of a wear-resistant heat-insulating layer on aluminum-silicon alloys strengthened by the microarc oxidation method. The possibility of using the microarc oxidation technology for the strengthening of parts made of aluminum-silicon alloys operating under high-temperature conditions and significant thermal deformations in power plant engineering.</p>Siluminmicroarc oxidationdurabilityheat resistanceadhesionpower plant engineeringСилуминымикродуговое оксидированиеизносостойкостьтеплостойкостьадгезияэнергомашиностроение