. "Mat\u011Bj\u00ED\u010Dek, Ji\u0159\u00ED" . . . "Effect of boriding time on microstructure and residual stresses in borided highly alloyed X210CR12 steel" . . . "Effect of boriding time on microstructure and residual stresses in borided highly alloyed X210CR12 steel" . "boriding; surface hardening; iron borides; tooth-shaped microstructure; residual"@en . "Zurich" . . "Key Engineering Materials" . "2"^^ . . "2013-11-06+01:00"^^ . . . . "Effect of boriding time on microstructure and residual stresses in borided highly alloyed X210CR12 steel"@en . "Ganev, N." . . . "[298690C1DCFF]" . . "13148" . . . . "10.4028/www.scientific.net/KEM.606.27" . "RIV/61389021:_____/14:00439445!RIV15-GA0-61389021" . "Harcuba, P." . . "Kutn\u00E1 Hora" . "Trans Tech Publications Ltd" . . "4"^^ . "Pala, Z." . "8"^^ . "RIV/61389021:_____/14:00439445" . "I, P(GAP108/12/1872)" . . "Kola\u0159\u00EDk, K." . "Kyncl, J." . "Effect of boriding time on microstructure and residual stresses in borided highly alloyed X210CR12 steel"@en . "Boriding of highly alloyed steels done with the aim of increasing their wear resistance faces several issues connected with the microstructure of the base material and restraints during the diffusion of boron. The aim of the performed analyses was to ascertain whether significant increase of boriding time can enhance the surface hardness, contribute to creation of more compact microstructure and even lead to beneficial state of residual stresses in the borided layer. Using combination of X-ray diffraction and electro-chemical polishing, residual stress depth distributions in few tens of micrometres thick borided layers were obtained."@en . "Str\u00E1sk\u00FD, J." . . "1662-9795" . "Mu\u0161\u00E1lek, Radek" . "Boriding of highly alloyed steels done with the aim of increasing their wear resistance faces several issues connected with the microstructure of the base material and restraints during the diffusion of boron. The aim of the performed analyses was to ascertain whether significant increase of boriding time can enhance the surface hardness, contribute to creation of more compact microstructure and even lead to beneficial state of residual stresses in the borided layer. Using combination of X-ray diffraction and electro-chemical polishing, residual stress depth distributions in few tens of micrometres thick borided layers were obtained." .