Sn-58Bi solder alloys are similar to Sn-37Pb alloys as they have only one eutectic reaction with no existence of intermetallic phase. From the mechanical perspective, compared with traditional Sn-37Pb alloys, Sn-58Bi solder alloys are with higher tensile strength, shear stress and lower creep rate. Moreover, the most important is, the melting point of Sn-58Bi solder alloys is only 139 ℃, therefore, by using lower reflow temperature in the process of soldering, we can avoid the aging of plastic ball grid array substrate and also reduce the thermal shock on the 1st level of package. In addition, the pricing of Sn-58Bi solder alloys is quite competitive among all Pb-free solders. It has been confirmed in many studies that adding rare earth element into solder alloys can improve the wettability, enhance the mechanical properties and also strengthen the resistance to creep, etc. However, our laboratory was the first to discover that the “Rare Earth intermetallic compounds” resulting from adding rare earth element will lead to the negative effect of abnormal growth of tin whiskers. Therefore, in this study we attempt to add different content of rare earth Ce into Sn-58Bi solder alloys to observe the impact on raw materials. In addition, we reflow Sn58Bi-XCe solder alloys with Immersion Tin substrate and with Electroless Nickel / Immersion Gold substrate then proceed with aging process to observe the interfacial reaction and also to measure the strength by using the ball shear test. Finally, we observe the growth of tin whisker resulting from the Rare Earth intermetallic compounds of Sn58Bi-0.5Ce solder alloys. The results of experiments indicate that adding appropriately can improve the mechanical strength and enhance the ductility of Sn-58Bi solder alloys. However, adding too much will significantly reduce the strength of solder joint. From the interface reaction of solder alloys with two kinds of BT substrate, it’s observed that adding rare earth element can inhibit the growth of interface intermetallic layer, especially slowing down the growth of harmful interface intermetallic layer Cu3Sn. Finally, we observed from experiments on the growth of tin whisker, the rare earth intermetallic compounds generated from Sn58Bi-0.5Ce solder alloys does not result in the growth of harmful slender tin whisker.