Mechanism of pool separation and stratification in laser remelting and cladding

The laser remelting with a two-layer material system (upper material was Al-30 % Ti-20 % Ni alloy,substrate was commercial aluminum alloy) and the laser cladding of a commercial 45 steel with copper Powder (including 25%SiC) were carried out using a 2kW continuous CO2 laser. For the case of laser remelting, a upper Pool in the alloying layer and a lower Pool in the substrate separated by the unmelted Al-Ti-Ni alloy were observed. For laser cladding, a stratified Pool was observed, whose top layer was Cu alloy liquid and bottom was Fe alloy liquid. The mechanism of laser Pool separation and stratification is illustrated by numerical calculation of heat transter process of the two-layer system, combining with material physical properties (especially mixed enthalpy). A classification criterion for laser Pool with the two-layer material system has been presented and four types of the laser Pool are divided into unique Pool, separated Pool, mixed Pool and stratified pool,which provides a theoretical basis for obtaining a excellent surface coating.

The laser remelting with a two-layer material system (upper material was Al-30 % Ti-20 % Ni alloy, substrate was commercial aluminum alloy) and the laser cladding of a commercial 45 steel with copper powder (including 25 % SiC) were carried out using a 2 kW continuous CO2 laser. For the case of laser remelting, a upper pool in the alloying layer and a lower pool in the substrate separated by the unmelted Al-Ti-Ni alloy were observed. For laser cladding, a stratified pool was observed, whose top layer was Cu alloy liquid and bottom was Fe alloy liquid. The mechanism of laser pool separation and stratification is illustrated by numerical calculation of heat transfer process of the two-layer system, combining with material physical properties (especially mixed enthalpy). A classification criterion for laser pool with the two-layer material system has been presented and four types of the laser pool are divided into unique pool, separated pool, mixed pool and stratified pool, which provides a theoretical basis for obtaining a excellent surface coating.