High Temperature Cyclic Impact/Abrasion Testing of Boiler Steels

Jelena Priss; Ivan Klevtsov; Andrei Dedov; Maksim Antonov; Harald Rojacz; Ewald Badisch

doi:10.4028/www.scientific.net/KEM.604.289

Paper Titles

Application of Pulse Electromagnetic Field for Metal Coatings Manufacturing
p.269

Heat Treatment of Ultrafine Grained High-Strength Aluminum Alloy
p.273

Three-Body Abrasive Wear of Reactive Sintered WC-Co Hardmetals with Grain Growth Inhibitors
p.277

Development and Research of Thermal Insulation Materials from Natural Fibres
p.285

High Temperature Cyclic Impact/Abrasion Testing of Boiler Steels
p.289

Influence of Metal Oxides Additives on the Porous Mullite Ceramics
p.293

Investigation of Hydration Features of the Special Concrete with Aggregates of Various Metal Particles
p.297

Modifiers Influence on Fibers Containing Polylactic Acid Biocomposites Exploitation Properties
p.301

Portland Cement Based Lightweight Multifunctional Matrix with Different Kind of Additives Containing SiO₂
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HomeKey Engineering MaterialsKey Engineering Materials Vol. 604High Temperature Cyclic Impact/Abrasion Testing of...

High Temperature Cyclic Impact/Abrasion Testing of Boiler Steels

Abstract:

In the present study the high temperature impact/abrasion resistance of several boiler steels which are used in Estonian power plants were determined experimentally using the High Temperature Cyclic Impact Abrasion Test (HT-CIAT) at 500 and 600°C. Results indicate a strong dependence of the wear resistance on the materials microstructure and formation of the mechanically mixed layer with incorporated abrasive particles.

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Periodical:

Key Engineering Materials (Volume 604)

Pages:

289-292

DOI:

https://doi.org/10.4028/www.scientific.net/KEM.604.289

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Online since:

March 2014

Authors:

Jelena Priss*, Ivan Klevtsov, Andrei Dedov, Maksim Antonov, Harald Rojacz, Ewald Badisch

Keywords:

High Temperature Impact-Abrasion, Hot Hardness, Steel, Tribology, Wear

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