Effects of Water on the Interface in a Model Composite System: An NMR study

Abstract

The molecular motion of the interfacial material in a model polymer composite has been probed and quantitatively described based on deuterium NMR studies. The system consisted of a silica surface (Cab-O-Sil), an aminobutylsilane coupling agent (aminobutylsilane-d2, DABS) which was labelled with deuterium in the beta position, and a polymer matrix (bismaleimide). the addition of water to the system increased the molecular mobility of the surface- bound coupling agent. The motions of the coupling agent adsorbed on amorphous silica were simulated using a two-site jump model with tetrahedral jumps. For the coupling agent at the air interface, jump rates increased from 1.0 x 10 to the 6th power s-1 for the dry sample, to 4.0 x 10 to the 6th power s-1 for the sample in contact with water. For the sample with BMI reacted over it, the jump rate increased from 1.7 x 10 to the 5th power s-1 for the dry system to 5.0 x 10 to the 5th power s-1 for the wet system. The motional rate increase for both systems was a factor on the order of 3-4 with the addition of water. Deuterium exchange experiments were conducted between adsorbed aminobutylsilane and D20. This resulted in the deuteration of the amino-group. The motions of the amino group were only slightly faster than those of the labelled methylene segment. Silicon-29 NMR was used to probe the effects of water. The results were consistent with the breaking of Si-O-Si bonds and increased mobility at the Si end of the coupling agent AH systems appeared to returned to their original state when the sample was dried.

Document Details

Document Type

Technical Report

Publication Date

Nov 01, 1992

Accession Number

ADA258118

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