0000000000006318

AUTHOR

Jan-anders E. Månson

showing 3 related works from this author

23.1: Invited Paper: Models and Experiments of Mechanical Integrity for Flexible Displays

2008

Flexible displays present a challenging problem in terms of mechanical integrity, a result of the considerable hygro-thermo-mechanical contrast between the inorganic, brittle device layers and the compliant polymer substrates. This paper reviews the main approaches to study and identify the key factors, which control the mechanical stability of this class of displays. Focus is put on the analyses of residual stress and damage under tensile loading. Novel electro-mechanical methods are used for accurate insight into critical phenomena. An important result is that the thickness and stiffness of the substrate control the critical strain for failure of the device layers.

Materials sciencebusiness.industryCritical phenomenaMechanical integrityStiffnessStructural engineeringSubstrate (printing)BrittlenessResidual stressFlexible displayUltimate tensile strengthmedicinemedicine.symptombusinessSID Symposium Digest of Technical Papers
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Evaluation of toughness by finite fracture mechanics from crack onset strain of brittle coatings on polymers

2008

Crack onset strain measurements of a confined layer in tension provide the means for layer toughness estimation. The procedure can be simplified if steady-state conditions prevail starting from the commencement of crack propagation, an assumption frequently employed in energy release rate evaluation. It is demonstrated, by numerical analysis of experimental data, that an estimate of the defect size in the film is needed in order to reliably evaluate its fracture toughness from the crack onset strain. Only if microcracks of sufficient size are present in the brittle layer, the steady-state energy release rate at the crack onset strain can be identified with layer toughness. Otherwise, the to…

ToughnessMaterials science[SPI.GPROC] Engineering Sciences [physics]/Chemical and Process Engineering02 engineering and technologyCrack growth resistance curveCrack onset strainCoatingCrack closureFracture toughnessBrittleness0203 mechanical engineeringmedicineGeneral Materials Science[SPI.GPROC]Engineering Sciences [physics]/Chemical and Process EngineeringComposite materialComputingMilieux_MISCELLANEOUSStrain energy release ratedouble beam cantilever beam (DCB)business.industryFissureApplied MathematicsMechanical EngineeringFracture mechanicsStructural engineeringFracture toughness021001 nanoscience & nanotechnologyCondensed Matter Physics020303 mechanical engineering & transportsmedicine.anatomical_structurePolymer film0210 nano-technologybusiness
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Evaluation of interfacial stress transfer efficiency by coating fragmentation test

2007

Probabilistic model of coating fragmentation under uniaxial tensile loading is developed. Analytical expressions of the crack spacing evolution are obtained for small-strain and large-strain fragmentation regimes. The model is applied for coating and interface property identification of several thin brittle coating/polymer substrate systems. An estimate of the stress transfer length, derived from the fragmentation data, is found to correlate with the interfacial shear strength thus suggesting that both parameters reflect an intrinsic property related to the mechanical efficiency of coating/substrate interface.

Materials scienceInterfacial stressUniaxial tension02 engineering and technologyengineering.materialinterfacial shear strength01 natural sciencesBrittlenessCoatingFragmentation (mass spectrometry)0103 physical sciencesPolymer substrate[SPI.GPROC]Engineering Sciences [physics]/Chemical and Process EngineeringGeneral Materials ScienceComposite materialInstrumentationfragmentation test010302 applied physicscoating021001 nanoscience & nanotechnologyInterfacial shearTransfer efficiencyMechanics of Materialsengineeringcohesive strength0210 nano-technologyMechanics of Materials
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