The influence of thermal aging on joint strength and fracture surface of Pb/Sn and Au/Sn solders in laser diode packages

Abstract: The joint strength and fracture surface of Pb/Sn and Au/Sn solders in laserdiode packages after thermal-aging testing were studied experimentally. Specimens were aged at 150°C for up to 49 days. The joint strength decreased as aging time increased. The microstructure and fracture surface of the Pb/Sn and Au/Sn solder joints showed that the joint strength decrease was caused by both the enlargement of the initial voids and an increase in the number of voids as aging time increased. The formation of Kirkendall v… Show more

“…3, the distributions of thermal stresses, residual stresses, creep deformation, and the joint strength in the solder joints were obtained. In this study, the FEM model of the InP-solder-Si submount with an initial void was used in order to correlate the experimental observation results, as shown in Fig.…”

“…The coupled thermal-elasticityplasticity model was employed to simulate the solidification and the thermal-aging processes. 3 An eight-node cube element model with the temperature-dependent material properties was used in this work. 15 Figure 8 shows a cross-sectional finiteelement method (FEM) model of the InP-solder-Si submount with an initial void.…”

“…Because it exhibits higher yield strength and less creep effect of the eutectic tin-based solder of Au/Sn, the hard solder Au/Sn is often used in the packaging of a laser diode. [1][2][3] In order for it to be used in system applications, the laser-diode package must undergo different reliability tests. The acceleration aging and temperature-cycling tests are commonly used in the electronics industry to characterize the thermal-fatigue failure and to predict the reliability of solder joints in microelectronics packaging technology.…”

“…Previously, to simplify the solder joints in the laser-diode assembly, the laser-diode packages were substituted by the gold-plated Al 2 O 3 -solder-SUS304 substrate assembly. [2][3] However, the behavior of solder-joint strength and microstructure may be different between the real laser diodes and the substituted materials.…”

The joint strength and microstructure of fluxless Au/Sn solders in InP-based laser diode packages

“…3, the distributions of thermal stresses, residual stresses, creep deformation, and the joint strength in the solder joints were obtained. In this study, the FEM model of the InP-solder-Si submount with an initial void was used in order to correlate the experimental observation results, as shown in Fig.…”

“…The coupled thermal-elasticityplasticity model was employed to simulate the solidification and the thermal-aging processes. 3 An eight-node cube element model with the temperature-dependent material properties was used in this work. 15 Figure 8 shows a cross-sectional finiteelement method (FEM) model of the InP-solder-Si submount with an initial void.…”

“…Because it exhibits higher yield strength and less creep effect of the eutectic tin-based solder of Au/Sn, the hard solder Au/Sn is often used in the packaging of a laser diode. [1][2][3] In order for it to be used in system applications, the laser-diode package must undergo different reliability tests. The acceleration aging and temperature-cycling tests are commonly used in the electronics industry to characterize the thermal-fatigue failure and to predict the reliability of solder joints in microelectronics packaging technology.…”

“…Previously, to simplify the solder joints in the laser-diode assembly, the laser-diode packages were substituted by the gold-plated Al 2 O 3 -solder-SUS304 substrate assembly. [2][3] However, the behavior of solder-joint strength and microstructure may be different between the real laser diodes and the substituted materials.…”

The joint strength and microstructure of fluxless Au/Sn solders in InP-based laser diode packages

“…Many investigations have been done on binary Ag-Sn and Au-Sn systems. [2][3][4][5][6][7] Eutectic 80Au-20Sn (wt.%) solders are widely used for high-temperature applications for optoelectronics such as laser diodes and photodiodes because of their good creeping properties and high tensile strength. They are also used in flip-chip technology.…”

Thermodynamic Properties of Liquid Ag-Au-Sn Alloys

Failure Analysis and Reliability Assessment in High Power Semiconductor Laser Packaging