Materials characterization of the effect of mechanical bending on area array package interconnects

Abstract The mechanical integrity of solder joint interconnects in PWB assemblies with micro-BGA, chip scale, and land grid array packages is being questioned as the size and pitch decrease. Some consumer products manufacturers have mechanically reinforced fine pitch package interconnects with an adhesive underfill, and others are evaluating the need for underfill on a case-by-case basis. Three-point cyclic bend testing provides a useful tool for characterizing the expected mechanical cycling fatigue reliability of PWB assemblies. Cyclic bend testing is useful for characterizing bending issues in electronic assemblies such as repetitive keypad actuation in cell phone products. This paper presents the results of three-point bend testing of PWB assemblies with fine pitch packages. The solder joints on ceramic components performed better than a laminate interposer component in bend testing, because of the stiffening effect of the ceramic packaging materials. The methodology of materials analyses of the metallurgy of solder interconnects following mechanical bending and thermal cycle testing is described. The microstructure and fracture surfaces of solder joint failures in bend test samples differed significantly from thermal cycle test samples.