Water-based lubrication has attracted remarkable interest due to its environmental and economic advantages. However, practical applications of water-based lubrication are often limited, mainly because of low viscosity and corrosivity. The use of additives has been proposed to overcome these limitations. In this work, the tribological characteristics of titanium carbide (Ti 3C 2) MXenes, as additives for water-based lubrication, were systematically investigated for contact sliding between stainless steel under various normal forces and Ti 3C 2 concentrations. Both friction and wear were found to decrease with increasing Ti 3C 2 concentration up to 5 wt%, and then increased when the concentration was larger than 5 wt%. The results suggest that Ti 3C 2 flakes hindered direct contact, particularly at the edges of the contact interfaces. It was further shown that the agglomeration of Ti 3C 2 flakes may have reduced the hindering when an excessive amount of Ti 3C 2 (e.g., 7 wt%) was applied. The decreases in the friction coefficient and wear rate with 5 wt% of Ti 3C 2 concentration w approximately 20% and 48%, respectively. The outcomes of this work may be helpful in gaining a better understanding of the tribological properties of Ti 3C 2 as a feasible water-based lubrication additive.