Advanced search
Publication Cover
Journal of Macromolecular Science, Part B
Physics
Volume 43, 2004 - Issue 1
Submit an article Journal homepage
210
Views
23
CrossRef citations to date
0
Altmetric
Original Articles

Mechanical Deformation of Polyurethanes

P. R. Laity Materials Science and Metallurgy, University of Cambridge, New Museums Site, Cambridge, UK
,
J. E. Taylor Materials Science and Metallurgy, University of Cambridge, New Museums Site, Cambridge, UK
,
S. S. Wong IRC in Polymer Science and Technology, School of Chemistry, University of Leeds, LS2 9JT, UK
,
P. Khunkamchoo IRC in Polymer Science and Technology, School of Chemistry, University of Leeds, LS2 9JT, UK
,
K. Norris IRC in Polymer Science and Technology, School of Chemistry, University of Leeds, LS2 9JT, UK
,
M. Cable Ranier Technology Ltd., Greenhouse Park Innovation Centre, Cambridge, UK
,
V. Chohan Ranier Technology Ltd., Greenhouse Park Innovation Centre, Cambridge, UK
,
G. T. Andrews Ranier Technology Ltd., Greenhouse Park Innovation Centre, Cambridge, UK
,
A. F. Johnson IRC in Polymer Science and Technology, School of Chemistry, University of Leeds, LS2 9JT, UKCorrespondence[email protected]
&
R. E. Cameron Materials Science and Metallurgy, University of Cambridge, New Museums Site, Cambridge, UK
 show all
Pages 95-124 | Published online: 16 Aug 2006

References

  • Hepburn , C. 1992 . Polyurethane Elastomers , 2nd Ed. London : Elsevier Applied Science .
  • Gogolewski , S. 1989 . Selected topics in biomedical polyurethanes. A review . Coll. Polym. Sci. , 267 : 757 – 785 .
  • Koberstein , J. T. and Stein , R. S. 1983 . Small‐angle x‐ray scattering studies of microdomain structure in segmented polyurethane elastomers . J. Polym. Sci. Polym. Phys. Edn. , 21 : 1439 – 1472 . [CROSSREF]
  • Martin , D. J. , Meijs , G. F. , Gunatillake , P. A. , Yozghatlian and Renwick , G. M. 1999 . The influence of composition ratio on the morphology of biomedical polyurethanes . J. Appl. Polym. Sci. , 71 : 937 – 952 .
  • Martin , D. J. , Meijs , G. F. , Renwick , G. M. , McCarthy , S. J. and Gunitillake , P. A. 1996 . The effect of average soft segment length on morphology and properties of a series of polyurethane elastomers. I Characterization of the series . J. Appl. Polym. Sci. , 62 : 1377 – 1386 .
  • Mathur , A. B. , Collier , T. O. , Kao , W. J. , Wiggins , M. , Schubert , M. A. , Hiltner , A. and Anderson , J. M. 1997 . In vivo biocompatibility and biostability of modified polyurethanes . J. Biomed. Mat. Res. , 36 : 246 – 257 .
  • Hergenrother , R. W. , Wabers , H. D. and Cooper , S. L. 1993 . Effect of hard segment chamistry and strain on the stability of polyurethanes—in vivo biostability . Biomaterials , 14 ( 6 ) : 449 – 458 . [CROSSREF]
  • Pegoretti , A. , Fambri , L. , Penati , A. and Kolarik , J. 1998 . Hydrolytic resistance of model poly(ether urethane ureas) and poly(ester urethane ureas) . J. Appl. Polym. Sci. , 70 : 577 – 586 . [CROSSREF]
  • Santerre , J. P. and Labow , R. S. 1997 . The effect of hard segment size on the hydrolytic stability of polyether‐urea‐urethanes when exposed to cholesterol esterase . J. Biomed. Mat. Res. , 36 : 223 – 232 .
  • Tang , Y. W. , Labow , R. S. , Revenko , I. and Santerre , J. P. 2002 . Influence of surface morphology and chemistry on the enzyme catalysed biodegradation of polycarbonate-urethanes . J. Biomat. Sci. Polym. Edn. , 13 ( 4 ) : 463 – 483 . [CROSSREF]
  • Tang , Y. W. , Labow , R. S. and Santerre , J. P. 2001 . Enzyme-induced biodegradation of polycarbonate-polyurethanes: dependence on hard‐segment chemistry . J. Biomater. Mat. Res. , 57 : 597 – 611 .
  • Macosko , C. W. 1989 . Reaction Injection Molding New York : Hanser .
  • Coates , P. D. , Tucker , N. , Wong , S. S.F. and Johnson , A. F. 1994 . Modern control strategies in polymer processing . Proc. ANTEC , : 1654 – 1658 .
  • Ryan , A. J. 1993 . Simultaneous small‐angle x‐ray scattering and wide‐angle diffraction . J. Thermal. Anal. , 40 : 887 – 899 .
  • Roe , R.‐J. 2000 . Methods of X‐ray and Neutron Scattering in Polymer Science New York : Oxford University Press .
  • Saiani , A. , Daunch , W. A. , Verbeke , H. , Leenslag , J‐W. and Higgins , J. S. 2001 . Origin of multiple melting endotherms in a high hard block content polyurethane. 1. Thermodynamic investiation . Macromolecules , 34 ( 26 ) : 9059 – 9068 . [CROSSREF]
  • Chen , T. K. , Shieh , T. S. and Chui , J. Y. 1998 . Studies on the first DSC endotherm of polyurethane hard segment based on 4,4′‐diphenylmethane diisocyanate and 1,4‐butanediol . Macromolecules , 31 : 1312 – 1320 . [CROSSREF]
  • Chen , T. K. , Chui , J. Y. and Shieh , T. S. 1997 . Glass‐transition behaviours of a polyurethane hard segment based on 4,4′‐diisocyantodiphenylmethane and 1,4‐butanediol and the calculation of microdomain composition . Macromolecules , 30 : 5068 – 5074 . [CROSSREF]
  • Martin , D. J. , Meijs , G. F. , Gunitillake , P. A. , McCarthy , S. J. and Renwick , G. M. 1997 . The effect of average soft segment length on morphology and properties of a series of polyurethane elastomers. II. SAXS‐DSC annealing study . J. Appl. Polym. Sci. , 64 : 803 – 817 . [CROSSREF]
  • Hu , W. and Koberstein , J. T. 1994 . The effect of thermal annealing on the thermal properties and molecular weight of a segmented polyurethane copolymer . J. Polym. Sci. B: Polym. Phys. , 32 : 437 – 446 . [CROSSREF]
  • Koberstein , J. T. and Galambos , A. F. 1992 . Multiple melting in segmented polyurethane block copolymers . Macromolecules , 25 : 5618 – 5624 .
  • Galambos , A. F. , Russell , T. R. and Koberstein , J. T. 1989 . Multiple melting in polyurethane block copolymers . Poly. Mat. Sci. Eng. , 61 : 359 – 363 .
  • Koberstein , J. T. and Russell , T. P. 1986 . Simultaneous SAXS‐DSC study of multiple endothermic behaviour in polyether‐based polyurethane block copolymers . Macromolecules , 19 : 714 – 720 .
  • Shirasaka , H. , Inoue , S.‐I. , Asai , K. and Okamoto , H. 2000 . Polyurethane urea elustomer having monodispersed poly(oxytetramethylene) as a soft segment with a uniform hard segment . Macromolecules , 33 : 2776 – 2778 . [CROSSREF]
  • Hamley , I. W. 2000 . Introduction to Soft Matter 109 Chichester : John Wiley and Sons, Ltd. .
  • Ryan , A. J. , Macosko , C. W. and Bras , W. 1992 . Order‐disorder transition in a block copolyurethane . Macromolecules , 25 : 6277 – 6286 .
  • Hatakeyama , T. and Quinn , F. X. 1999 . Thermal Analysis: Fundamentals and Applications to Polymer Science , 2nd Ed. 90 – 95 . Chichester : John Wiley and Sons, Ltd. .
  • Lee , D.‐K. and Tsai , H.‐B. 2000 . Properties of segmented polyurethanes derived from different diisocyanates . J. Appl. Polym. Sci. , 75 : 167 – 174 . [CROSSREF]
  • Fambri , L. , Pegoretti , A. , Gavazza , C. and Penati , A. 2001 . Thermooxidative stability of different polyurethanes evaluated by isothermal and dynamic methods . J. Appl. Polym. Sci. , 81 : 1216 – 1225 . [CROSSREF]
  • Hentschel , T. and Münstedt , H. 2001 . Kinetics of the molar mass decrease in a polyurethane melt: a rheological study . Polymer , 42 : 3195 – 3203 . [CROSSREF]
  • Servay , T. , Voelkel , R. , Schmiedberger , H. and Lehmann , S. 2000 . Thermal oxidation of the methylene diphenylene unit in MDI‐TPU . Polymer , 41 : 5247 – 5256 . [CROSSREF]
  • Shieh , Y.‐T. , Chen , H.‐T. , Liu , K.‐H. and Twu , Y.‐K. 1999 . Thermal degradation of MDI‐based segmented polyurethanes . J. Polym. Sci. part A: Polym. Chem. , 37 : 4126 – 4134 .
  • Sasanuma , Y. , Abe , A. , Sasanuma , T. , Kitano , Y. and Ishitani , A. 1993 . Small‐angle x‐ray scattering of distorted lamellar structures . J. Polym. Sci. B: Polym. Phys. , 31 : 1179 – 1186 . [CROSSREF]
  • Butler , M. F. , Donald , A. M. and Ryan , A. J. 1997 . Time resolved simultaneous small‐ and wide‐angle scattering during polyethylene deformation: 1. Cold drawing of ethylene‐α‐olefin copolymers . Polymer , 38 ( 22 ) : 5521 – 5538 . [CROSSREF]
  • Butler , M. F. , Donald , A. M. , Bras , W. , Mant , G. R. , Derbyshire , G. E. and Ryan , A. J. 1995 . A real‐time simultaneous small‐ and wide‐angle x‐ray scattering study of in‐situ deformation of isotropic polyethylene . Macromolecules , 28 ( 19 ) : 6383 – 6393 .
  • Zhang , X. C. , Butler , M. F. and Cameron , R. E. 2000 . The ductile‐brittle transition of irradiated isotactic polypropylene studied using simultaneous small‐angle x‐ray scattering and tnesile deformation . Polymer , 41 : 3797 – 3807 . [CROSSREF]
  • Brown , H. R. and Kramer , E. J. 1981 . Craze microstructure from small‐angle x‐ray scattering (SAXS) . J. Macromol. Sci.: Phys. , B19 : 487 – 522 .
  • Blundell , D. J. , Eeckhaut , G. , Fuller , W. , Mahendrasingam , A. and Martin , C. 2002 . Real‐time SAXS/stress‐strain studies of thermoplastic polyurethanes at large strains . Polymer , 43 : 5197 – 5207 . [CROSSREF]
  • Lee , H. S. , Yoo , S. R. and Seo , S. W. 1999 . Domain and segmental deformation behaviour of thermoplastic elastomers using synchrotron SAXS and FTIR methods . J. Polym. Sci. Part B: Polym. Phys. , 37 : 3233 – 3245 .
  • Desper , C. R. , Schneider , N. S. , Jasinski , J. P. and Lin , J. S. 1985 . Deformation of microphase structures in segmented polyurethanes . Macromolecules , 18 ( 12 ) : 2755 – 2761 .
  • Hamley , I. W. 1998 . The Physics of Block Copolymers Oxford : Oxford University Press .
  • Stribeck , N. and Fakirov , S. 2001 . Three‐dimensional chord distribution function SAXS analysis of the strained domain structure of a poly(ether ester) thermoplastic elastomer . Macromolecules , 34 : 7758 – 7761 . [CROSSREF]
  • Stribeck , N. , Fakirov , S. and Sapoundjieva , D. 1999 . Deformation behaviour of a poly(ether ester) copolymer. Quantitative analysis of SAXS fiber paterns . Macromolecules , 32 : 3368 – 3378 . [CROSSREF]
  • Cohen , Y. , Albalak , R. J. , Dair , B. J. , Capel , M. S. and Thomas , E. L. 2000 . Deformation of oriented lamellar block copolymer films . Macromolecules , 33 : 6502 – 6516 . [CROSSREF]
  • Chen , Z.‐R. , Issaian , A. M. , Kornfield , J. A. , Smith , S. D. , Grothaus , J. T. and Satkowski , M. M. 1997 . Dynamics of shear‐induced alignment of a lamellar diblock: a rheo‐optical, electron microscopy and x-ray scattering study . Macromolecules , 30 : 7096 – 7114 . [CROSSREF]
  • Wang , H. , Kesani , P. K. , Balsara , N. P. and Hammouda , B. 1997 . Undulations and disorder in block copolymer lamellae under shear flow . Macromolecules , 30 : 982 – 992 . [CROSSREF]
  • Lee , H. S. and Hsu , S. L. 1994 . Structural changes and chain orientational behaviour during tensile deformation of segmented polyurethanes . J. Polym. Sci. B: Polym. Phys. , 32 : 2085 – 2098 . [CROSSREF]
  • Reynolds , N. , Spiess , H. W. , Heyen , H. , Nefzger , H. and Eisenbach , C. D. 1994 . Structure and deformation behaviour of model poly(ether‐urethane) elastomers. 1. Infrared studies . Macromol. Chem. Phys. , 195 : 2855 – 2873 . [CROSSREF]
  • Lin , S. B. , Hwang , K. S. , Tsay , S. Y. and Cooper , S. L. 1985 . Segmental orientation studies of polyether polyurethane block copolymers with different hard segment lengths and distributions . Coll. Polym. Sci. , 263 : 128 – 140 .
  • Kaushiva , B. D. and Wilkes , G. L. 2000 . Uniaxial orientation behaviour and consideration of the geometric anisotropy of polyurea hard domain structure in flexible polyurethane foams . Polymer , 41 : 6987 – 6991 . [CROSSREF]
  • Krakovsky , I. , Bubenikova , Z. , Urikawa , H. and Kajiwara , K. 1997 . Inhomogeneous structure of polyurethane networks based on poly(butadiene)diol: 1. The effect of the poly(butadiene)diol content . Polymer , 38 ( 14 ) : 3637 – 3643 . [CROSSREF]
  • Ryan , A. J. , Stanford , J. L. and Tao , X. Q. 1993 . Morphology and properties of novel copoly(isocyanurate‐urea)s formed by reaction injection moulding . Polymer , 34 ( 19 ) : 4020 – 4031 . [CROSSREF]
  • Li , C. and Cooper , S. L. 1990 . Direct observation of the micromorphology of polyether polyurethanes using high‐voltage electron microscopy . Polymer , 31 ( 1 ) : 3 – 7 . [CROSSREF]
  • Serrano , M. , MacKnight , W. J. , Thomas , E. L. and Ottino , J. M. 1987 . Transport‐morphology relationships in segmented polybutadiene polyurethanes: 1. Experimental results . Polymer , 28 : 1667 – 1673 . [CROSSREF]
  • Chen‐Tsai , C. H.Y. , Thomas , E. L. , MacKnight , W. J. and Schneider , N. S. 1986 . Structure and morphology of segmented polyurethanes: 3. Electron microscopy and small‐angle x‐ray scattering studies of amorphous random segmented polyurethanes . Polymer , 27 : 659 – 666 . [CROSSREF]
  • Garrett , J. T. , Siedlecki , C. A. and Runt , J. 2001 . Microdomain morphology of poly(urethane urea) block copolymers . Macromolecules , 34 : 7066 – 7070 . [CROSSREF]
  • Garrett , J. T. , Runt , J. and Lin , J. S. 2000 . Microphase separation of segmented poly(urethane urea) block copolumers . Macromolecules , 33 : 6353 – 6359 .
  • Vickers , M. E. and Fischer , H. 1995 . Real‐time in situ x‐ray diffraction study of polyethylene deformation . Polymer , 36 ( 13 ) : 2667 – 2670 .
  • Murthy , N. S. and Grubb , D. T. 2002 . Deformation of lamellar structures: simultaneous small‐ and wide‐angle x‐ray scattering studies of polyamide‐6 . J. Polym. Sci. part B: Polym. Phys. , 40 : 691 – 705 . [CROSSREF]

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Order Reprints Request Corporate Permissions

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

Request Academic Permissions

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.