The role of friction on skin wetness perception during dynamic interactions between the human index finger pad and materials of varying moisture content
Charlotte Merrick, Rodrigo Rosati, Davide Filingeri
Abstract
Our skin often interacts with wet materials, yet how their physical properties influence our experience of wetness remains poorly understood. We evaluated wetness perception following naturalistic haptic interactions with materials varying in moisture content, friction, optical profiles, and heat transfer rates. We show that although mechanical parameters can influence wetness perception, their role is secondary to that of thermal factors. These findings expand our understanding of multisensory integration and could guide innovation in healthcare product design.
Topics & Concepts
Water contentMoisturePerceptionSubstrate (aquarium)Index fingerCoefficient of frictionMathematicsMaterials sciencePsychologyChemistryComposite materialGeotechnical engineeringMedicineAnatomyEcologyEngineeringBiologyNeuroscienceTactile and Sensory InteractionsMultisensory perception and integrationVisual perception and processing mechanisms