Evaluating Cure of a pMDI-wood Bondline Using Spectroscopic, Calorimetric and Mechanical Methods

Evaluating Cure of a pMDI-wood Bondline Using Spectroscopic, Calorimetric and Mechanical Methods

The cure of polymeric diphenylmethane diisocyanate (pMDI)/wood bondline in a controlled saturated steam environment was monitored using micro-dielectric analysis (μDEA). Saturated steam environments were produced between 110°C and 140°C. The degree of cure calculated from μDEA was a basis for furthe...

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Bibliographic Details
Published in:The Journal of adhesion Vol. 76; no. 1; pp. 55 - 74
Main Authors: Harper, David P., Wolcott, Michael P., Rials, Timothy G.
Format: Journal Article
Language:English
Published: Basingstoke Taylor & Francis Group 01-06-2001
Taylor and Francis
Subjects:
Application fields
Applied sciences
Dielectric analysis
Differential scanning calorimetry
Exact sciences and technology
Polymer industry, paints, wood
Polymeric diphenylmethane diisocyanate
Saturated steam
Shear strength
Technology of polymers
Wood flakes
Wood-based materials
Wood. Paper. Non wovens
Organic isocyanate
Curing (adhesive)
Adhesive joint
Shear strength
Hardwood
Adhesive bonding
Kinetics
Experimental study
Adhesive
Monitoring
Dielectric method
Dielectric relaxation
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Summary:The cure of polymeric diphenylmethane diisocyanate (pMDI)/wood bondline in a controlled saturated steam environment was monitored using micro-dielectric analysis (μDEA). Saturated steam environments were produced between 110°C and 140°C. The degree of cure calculated from μDEA was a basis for further spectroscopic, calorimetric, and mechanical evaluation. Interpretation of calorimetric and spectroscopic analysis revealed large consumption of isocyanate early in cure. However, mechanical strength, as revealed by lap-shear tests, did not develop until late in cure. Low lap-shear strengths and a plateau in conversion rates were detected for samples pressed at 110° and 120°C. Several components of the analysis suggest that low temperature cure may result in crystal formation, leading to diffusion controlled cure.
ISSN:0021-8464
1563-518X
1545-5823
DOI:10.1080/00218460108029617