Laser nitridation on Ti-6.5Al-3.5Mo-1.5Zr-0.3Si titanium alloy.

To give a deep insight into the nitrogen transfer mechanism during laser solid-state surface modification on titanium alloy, laser nitridation was conducted on Ti-6.5Al-3.5Mo-1.5Zr-0.3Si titanium alloy (TC11) without melting the metal surface. Microstructure characterizations of nitride layer formed under solid state condition were detailedly explored and the formation process of TiN phase was carefully discussed based on the lattice transformation. Results indicate that the nitride layer forming within a few seconds is composed of TiN phase layer and α phase layer with an orientation relationship: (1 1 ¯ 1) TiN // (0001) α , [011] TiN // [ 2 11 ¯ 0 ] α. Formation of TiN phase experiences fast solid-state transformation from α phase. Phase transformation from α-Ti lattice to TiN lattice experiences orthorhombic lattice transformation due to the shear deformation caused by rapid interstitial solution of nitrogen. After repeated laser nitridation process upon three times, nitride layer was thickened with an improved hardness of 824 HV. Linearly reciprocating ball-on-plane wear tests indicate that wear resistance of laser nitridation samples could be enhanced by a factor of 13. • Nitride layer is fabricated on TC11 alloy by laser nitridation in solid state. • The nitride layer is only composed of TiN phase and α phase. • Transformation from α phase to TiN phase experiences orthorhombic lattice. • Wear resistance of laser nitride sample can be enhanced by a factor of 13. [ABSTRACT FROM AUTHOR]