Effects of Molecular Weight and Thermal Treatment on Wear Behavior of Polyamide 6

Abstract

A series of polyamide 6 (PA 6) samples varying in their molecular weight (between 10000 and 50000) were annealed for 6 h in vacuum at various temperature (between 100 and 220°C) in order to create different morphological structures. The samples have been characterized with respect of their density, melting and crystallinity (from DSC), thermal expansion coefficient, humidity, predomination α- or γ-crystalline modification (from IR), shear melt viscosity and their tribological behaviour (the specific wear rate W_s ). It is found that density increases with increasing annealing temperature T_a but decrease with the rise of molecular weight (m.w.). The thermal expansion coefficient is more sensitive to T_a than to m.w. Contrary, shear-viscosity increases from 35 MPa for PA 6 with a m.w. of 10000 to 7200 MPa for samples with a m.w. of 50000. Concerning wear behavior it is concluded that the observed tendency for a decrease of W_s with an increase of T_a , particularly for samples with low m.w. is attributed to the formation of a more stable physical structure during annealed. This well defined tendency (except samples annealing at highest T_a ) is related to the observed drastic increase of shear melt viscosity with an increase of m.w.