Loughborough University Institutional Repository Investigation of adhesion occurring between polyurethane substrates and polyurethane surface coatings ThisitemwassubmittedtoLoughboroughUniversity’sInstitutionalRepository by the/an author. Additional Information: • A Doctoral Thesis. Submitted in partial fulfilment of the requirements for the award of Doctor of Philosophy of Loughborough University. Metadata Record: https://dspace.lboro.ac.uk/2134/10447 Publisher: (cid:13)c Khosrow Bidari Please cite the published version. This item was submitted to Loughborough University as a PhD thesis by the author and is made available in the Institutional Repository (https://dspace.lboro.ac.uk/) under the following Creative Commons Licence conditions. For the full text of this licence, please go to: http://creativecommons.org/licenses/by-nc-nd/2.5/ LOUGHBOROUGH UNIVERSITY OF TECHNOLOGY LIBRARY AUTHOR/FILING TITLE --_____ £_ t'S:taR.L _______________________ _ X~ T ACCESSION/COPY NO. _____________ _ _~_~_<:;>'?_~]_L VOl. NO. CLASS MARK - 2 JUL 1993 16 .1 tHl 1995 30 JUN 1995 28 JUN 1996 } ) ( 9 Q ~"I"I'I""I'I"'"'I""' L ()4 06 !5.7_,1 INVESTIGATION OF ADHESION OCCURRING BETWEEN POLYURETHANE SUBSTRATES AND POLYURETHANE SURFACE COATINGS by KHOSROW BIDARI A Doctoral Thesis submitted in partial fulfilment of the requirements for the award of Doctor of Philosophy of the Loughborough University of Technology 1991 Supervisor: R J. Heath, PhD Institute of Polymer Technology and Materials Engineering \ ) , ) © by Khosrow Bidari, 1991 j I This thesis is dedicated to my dear parents and my darling wife, Parvaneh. * * * * * • L'" Iqhooro",,~ U",,,,,,.,,ty ,-,1 T /"...-.r"'t)l hJy Llt1fOry , I \, I '\ \ \ I 1 I ERRATA Page No Line No 3 5 'will ranain' for 'remains' 4 Table 1.1 add 'foam' after 'rigid' 6 10 insert full stop after ' involved' - insert 'these'before 'can' 7 15 insert 'are' after 'thinners' 25 12 'neutralisation of' for 'neutralising' 27 15 27 16 insert 'it' after 'using' - delete 'it' after 'alone' 40 8 'made' for 'being' - delete 'the' 50 17 , swelling' for 'intumencing' 80 10 'observed' for 'real' 82 2 , adsorption' for 'adhesion' 83 16 'the' for 'both' 98 25 'confined' for 'combined' 99 9 'rrolecular layer' for 'lattice' NB: All line numbers refer to text only; headings, diagrams and equations not being counted. ACKNOWLEDGEMENTS I am deeply indebted to my supervisor, Dr R J Heath, for his invaluable assistance, advice and unceasing encouragement throughout the preparation of this thesis. I wish to thank all who have helped in this work. In particular, Baxenden for materials and time on RIM equipment, Macpherson Coatings Ltd, Compounding Ingredients Ltd and Gusmer Corporation (USA) for materials and considerable advice. I am especially grateful to my wife, Parvaneh, for her assistance, patience and moral encouragement. Finally, my thanks go to all the IPTME staff and colleagues and to Mrs Janet Smith for her patient efforts in typing this thesis. i ABSTRACl' In the last ~ decades a substantial 8lID\IDt of research has been carried out on the physi=-chemical aspects of adhesion. However, this phenomenon when related to organic coatings on polymeric substrates has undergone only limited study. This research primarily studies the adhesion properties of polyurethane (PU) paint materials applied to a range of different PU substrate materials. Sane PU coated polyester substrates are also used to provide a IIOre ocmplete understanding of interfaces produced. The coating of substrates has been by the tramt ional technique of post nouJ.d coating (FM::) and a relatively new technique of in-nouJ.d coating (IK:) . This thesis gives a review of the chemistry of polyurethane and related materials, the surface coating of plastics with special emphasis on the need for protection of PU products, the theories of adhesion and the concepts of wetting and surface thenrodynamics. The materials, equipnent and techniques used for the preparation of IK: and FM:: nouJ.dings are also described. A number of physical and chemical surface analysis techniques are carried out on original and coated substrates to determine the thermodynamic properties of solid surfaces. ii Various mechanical tests are employed to measure the strength of adhesion in coated substrates and to evaluate the m:Jdes of failure, including tensile adhesion pull-off, instrumented falling weight impact and hardness. The feasibility of thermal analysis techniques is examined and the results of differential scanning calorimetry (DSC) and dynamic mechanical thermal analysis (JlIIII'A) reported. The nature of surface topography is examined using electron microscopy and X-ray microanalysis. It is concluded that mechanisms praroting interfacial bonding of IM: and PlVC systems are based on a ccrnbination of adhesion theories. For IM: systems scme potential for chemisorptive bonding may be expected if free isocyanate and hydroxyl are present on both surfaces. For PlVC systems considerable potential for dispersive and polar forces may exist. It is argued that interfacial interaction between PU or a polyester substrate and a PU based coating depend on processing conditions. However, to optimise adhesive bonding the physical and chemical activity of surfaces must be maximised during processing. The overall results indicate that IM: mouldings are generally superior in terms of their interfacial and adhesion properties to PlVCs. iii
Description: