Research has indicated that the behavior of Mai-Liao Sand (MLS), a typical silty fine sand from South Western Taiwan, can have different degrees of clay-like and sand-like behavior. Concentrating on this issue, this research studies the effects of fines content, overconsolidation ratio (OCR), specimen preparation method on the clay-like and sand-like behavior of MLS. The clay-like behavior of MLS was evaluated under the SHANSEP（Stress History and Normalized Soil Engineering Property）framework originally developed for clays. A series of triaxial monotonic compression tests were performed on MLS specimens with OCR and confining stress. The stress-strain and excess-pore-water- pressure-strain relationship were divided or normalized by its final confining stress. Results showed that MLS did show as in the case of clays, the normalized stress-strain or pore-pressure-strain curves tend to merge together. The sand-like behavior was evaluated using the critical state concept. The critical state is defined as a state in undrained triaxial test, the deviator stress and excess pore water pressure remains more or less constant, as the axial strain continues to increase. The critical state lines (CLS) were determined for MLS specimens with different fines content and OCR. Results showed that fines content causes the CSL to move downwards. OCR has no apparent effect on the characteristics of the CSL.