Microcapsules containing phase change materials (microPCMs) can be filled in polymeric matrix forming smart temperature-controlling composites. The aim of this study was to investigate the composite interface stability of microPCMs/epoxy composites. Paraffin was applied as the phase change materials. Methanol-melamine- formaldehyde (MMF) and melamine-formaldehyde (MF) were both used to form the shell of microPCM by in-situ polymerization. The investigation focused on studying the effect of methylation and interface stability. The MF- and MMF-prepolymers were both successfully used to fabricate microcapsules with globe shapes and smooth surface. Thermal stability tests proved that the MMF-shell microPCMs/epoxy composites had a better interface stability than MF-shell microPCMs/epoxy composites. Mechanical properties also indicated that the MMF-shell microPCMs/epoxy composites had less tensile strength destruction after the thermal treatment. These results mean the MMF-resin enhanced the interface bonding stability though improving the interface molecule entanglement. As the MMF molecular has relative flexible ability and can adjust its conformation under change in environmental conditions, the interface will decrease the microstructure defects such as cracks, gaps and debonding. (C) Koninklijke Brill NV, Leiden, 2012