Zinātniskās darbības atbalsta sistēma
Latviešu English

Publikācija: Alumina-Silica Hollow Microspheres in Metallo-Ceramic Matrix Composite

Publikācijas veids Raksts konferenču tēžu krājumā
Pamatdarbībai piesaistītais finansējums Nav zināms
Aizstāvēšana: ,
Publikācijas valoda English (en)
Nosaukums oriģinālvalodā Alumina-Silica Hollow Microspheres in Metallo-Ceramic Matrix Composite
Pētniecības nozare 2. Inženierzinātnes un tehnoloģijas
Pētniecības apakšnozare 2.5. Materiālzinātne
Autori Andrejs Šiškins
Viktors Mironovs
Vjačeslavs Zemčenkovs
Irina Hussainova
Atslēgas vārdi cenosphere, alumina-silica hollow microsphere, lightweight cermet, trybo cermet, wear
Anotācija Weight reduction of machine parts and assemblies is an important issue in in many areas of modern industry is. Successful solution of this problem has few benefits - in short term perspective it will lower material and resource consumption, and in longterm perspective – lower cost of exploitation due to reduced weight. These aspects are the most important in automotive and aerospace industry, and also are of high priority in other industries. Many weight-reduced materials with open, close and mixed porosity were developed throughout the last decade. One of the approaches for the development of such materials is syntactic foams - materials with spherical hollow structures. Except the reduced weight this material has other benefits such as sound and mechanical absorption and mechanical damping. In the present work a byproduct of coal combustion at thermal and power plant - alumina-silica hollow spheres – cenospheres are exanimated. Chemical composition, phase composition, phase transition during thermal treatment, bulk density, macro and microstructure are investigated. Metallo-ceramic composites material with cenospheres, obtained by powder metallurgy route, has been tested. Improved relative density, compression strength, friction coefficient are the benefits of this material. It should be noted that cenosphere can be used for close porosity increased as weight reduction filler.
Atsauce Šiškins, A., Mironovs, V., Zemčenkovs, V., Hussainova, I. Alumina-Silica Hollow Microspheres in Metallo-Ceramic Matrix Composite. No: Cellular Materials CellMat 2014, Vācija, Dresden, 22.-24. oktobris, 2014. Dresden: DGM, 2014, CD.-1.lpp.
Pilnais teksts
ID 19194