Investigation of Nanotribological Characterization of Stretched European Hair Using Atomic Force Microscopy

Tao Chen; Hong Ling Liu; Weidong Yu

doi:10.4028/www.scientific.net/AMR.821-822.274

Paper Titles

Effects of Structural Parameters and Performance on Poisson's Ratio of Auxetic Yarn
p.252

Research on Tensile Recovery Performance of Running Clothing Fabric
p.259

Development of Knitted Protective Socks
p.265

Study on the Pore Structure of Cotton-Like Polyester Knitted Fabrics
p.270

Investigation of Nanotribological Characterization of Stretched European Hair Using Atomic Force Microscopy
p.274

Development of Blended Conductive Yarn and Antistatic Filter Cloth
p.278

The Design of Jacquard Fabric with Optical Fiber for Effect of Leaves Falling
p.283

Effect of Polymeric Emulsifier and Ratio of Soft/Hard Monomer on the Property of Acrylic Emulsion as Fabric Stiffening Agent
p.287

Study on the Test Method of Cool Refreshing Properties of Fabric
p.295

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Investigation of Nanotribological Characterization of Stretched European Hair Using Atomic Force Microscopy

Abstract:

In order to understand the influence of stretching on the nanotribological properties of human hair, the European hair with stretching ratios at 20, 40, 60 and 80% were studied using atomic force microscopy (AFM). The results show that appropriate stretching ratios (40-60%) make the European hair surface smoother and the friction measurements also verify the result. When the stretching ratio is 80%, the European hair has the highest coefficient of friction. The reason is that cuticle damages lead to the local ratchet and collision between AFM tip and the sample obviously increased. With the increase of stretching ratios, the adhesive force of European hair is nonlinear change, which is attributed to the influence of contact area, water molecules absorbed and the amount of polar molecules.