Statement of problem Monophase and dual-viscosity impression techniques are available with little knowledge of which one might render better quality under wet and dry surface conditions. Purpose The purpose of this study was to determine whether type of material, viscosity selection, and presence of moisture affect detail reproduction of elastomeric impressions. Material and methods Single-viscosity systems were polyether (Impregum Penta) and vinyl polysiloxanes (President MonoBody, Extrude MPV, and Aquasil). Dual-viscosity systems included polyether (Impregum Penta/Permadyne Garant) and vinyl polysiloxanes (Dimension Penta H/Dimension Garant L, Extrude Extra/Extrude Wash, and Aquasil/Aquasil LV). Impressions were made of a surface analyzer calibration standard possessing a uniform “saw-tooth” pattern with a mean roughness (Ra) of 2.87 μm, which was one fourth of the peak-to-valley height. Each of the 8 impression groups was subjected to dry (control) and wet conditions. The wet condition consisted of 3 mL of distilled water applied to the surface of the standard but allowed to escape during the procedure. Eighty impressions were made, 5 for each test group. After setting, the surface of each impression was scanned at 5 locations using a Surfanalyzer 4000. A 3-factor ANOVA and Student-Newman-Kuels test were used to analyze the data (α=.05). Results There were significant differences between polyether and vinyl polysiloxane materials, dual and monophase techniques, and the 2 surface conditions ( P<.05). Cross-product interactions were not significant, allowing comparison of mean values for each factor. The mean Ra for single viscosity was 2.21 μm versus 1.67 μm for dual viscosity; polyether was 2.12 μm versus 1.89 μm for addition silicone; and under dry conditions, the mean was 2.04 μm versus 1.86 μm for wet conditions. Conclusion Single-viscosity systems reproduced the standard saw-tooth pattern better than the dual-viscosity systems, as did polyether impression materials compared to addition silicones. Moisture led to a lower Ra or less detail compared to dry conditions.