An integrated methodology for estimating the interface temperature and effects of powder diameters in laser transmission welding process

Abstract: The powder diameter affects the heat generation and further influences the quality of weldments when the MZA powder is used as laser-absorbents to carry out laser transmission welding (LTW). It is difficult to measure the temperature due to its extremely short duration. A mathematical model considering the multiple reflections of metal powder is established to predict heat generation. The mathematical model is verified and then used to describe the influence of line energy density and powder diameter on the te… Show more

“…It is demonstrated that high thermal conductivity of metal materials contributes to the heat transferring, the type of heat distribution tends to be volume. Herein, the mathematical model of volume heat source (I(r,t)) generated by laser-MZA powder interaction is described as Equation (3) [19].…”

The Numerical Simulation of Welding Residual Stress of Dissimilar Transparent Thermoplastics with MZA Powder Absorbent

“…It is demonstrated that high thermal conductivity of metal materials contributes to the heat transferring, the type of heat distribution tends to be volume. Herein, the mathematical model of volume heat source (I(r,t)) generated by laser-MZA powder interaction is described as Equation (3) [19].…”

The Numerical Simulation of Welding Residual Stress of Dissimilar Transparent Thermoplastics with MZA Powder Absorbent

The effects of laser line energy on welding strength of PASF/PC using magnesium zinc alloy powders as absorbents in laser transmission welding