The Effect of Laser Surface Hardening on the Microstructural Characteristics and Wear Resistance of 9CrSi Steel
Sagdoldina Z. Baizhan D. Buitkenov D. Tleubergenova G. Alibekov A. Bolatov S.
January 2026Multidisciplinary Digital Publishing Institute (MDPI)
Materials
2026#19Issue 2
This study presents a systematic investigation of laser surface hardening of 9CrSi tool steel with the aim of establishing the relationships between processing parameters, microstructural evolution, and resulting mechanical and tribological properties under the applied laser conditions. The influence of laser power, modulation frequency, and scanning speed on the hardened layer depth, microstructure, and surface properties was analyzed. Laser treatment produced a martensitic surface layer with varying fractions of retained austenite, while the transition zone consisted of martensite, granular pearlite, and carbide particles. X-ray diffraction identified the presence of α′-Fe, γ-Fe, and Fe3C phases, with peak broadening associated with increased lattice microstrain induced by rapid self-quenching. The surface microhardness increased from approximately 220 HV0.1 in the untreated state to 950–1000 HV0.1 after laser hardening, with hardened layer thicknesses ranging from about 500 to 750 µm depending on the processing regime. Instrumented indentation showed higher elastic modulus values for all hardened conditions. Tribological tests under dry sliding conditions revealed reduced coefficients of friction and more than an order-of-magnitude decrease in wear rate compared with untreated steel. The results provide a parameter–microstructure–performance map for laser-hardened 9CrSi steel, demonstrating how variations in laser processing conditions affect hardened layer characteristics and functional performance.
9CrSi steel , dry sliding friction , elastic modulus , laser surface hardening , martensite , microhardness , microstructure evolution , retained austenite , wear rate
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Research Center Surface Engineering and Tribology, Sarsen Amanzholov East Kazakhstan University, Ust-Kamenogorsk, 070000, Kazakhstan
Research School of Physical and Chemical Sciences, Shakarim University, Semey, 071412, Kazakhstan
Research Center Surface Engineering and Tribology
Research School of Physical and Chemical Sciences
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