SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4317940834> ?p ?o ?g. }

Showing items 1 to 100 of ±151 with 100 items per page.

W4317940834 endingPage "1576" @default.
W4317940834 startingPage "1565" @default.
W4317940834 abstract "The uses of pressure-sensitive adhesives (PSAs) are wide ranging, with applications including labels, tapes, and graphics. To achieve good adhesion, a PSA must exhibit a balance of viscous and elastic properties. Previous research has found that a thin, elastic surface layer on top of a softer, dissipative layer resulted in greater tack adhesion compared with the single layers. Superior properties were achieved through a bilayer obtained via successive depositions, which consume energy and time. To achieve a multilayered structure via a single deposition process, we have stratified mixtures of waterborne colloidal polymer particles with two different sizes: large poly(acrylate) adhesive particles (ca. 660 nm in diameter) and small poly(butyl acrylate) (pBA) particles (ca. 100 nm). We used two types of pBA within the particles: either viscoelastic pBA without an added cross-linker or elastic pBA with a fully cross-linked network. Stratified surface layers of deuterium-labeled pBA particles with thicknesses of at least 1 μm were found via elastic recoil detection and qualitatively verified via the analysis of surface topography. The extent of stratification increased with the evaporation rate; films that were dried slowest exhibited no stratification. This result is consistent with a model of diffusiophoresis. When the elastic, cross-linked pBA particles were stratified at the surface, the tack adhesion properties made a transition from brittle failure to tacky. For pBA without an added cross-linker, all adhesives showed fibrillation during debonding, but the extent of fibrillation increased when the films were stratified. These results demonstrate that the PSA structure can be controlled through the processing conditions to achieve enhanced properties. This research will aid the future development of layered or graded single-deposition PSAs with designed adhesive properties." @default.
W4317940834 created "2023-01-25" @default.
W4317940834 creator A5016586586 @default.
W4317940834 creator A5026985010 @default.
W4317940834 creator A5030474458 @default.
W4317940834 creator A5030783885 @default.
W4317940834 creator A5034592899 @default.
W4317940834 creator A5043182720 @default.
W4317940834 creator A5065733335 @default.
W4317940834 creator A5075247944 @default.
W4317940834 creator A5086816997 @default.
W4317940834 date "2023-01-25" @default.
W4317940834 modified "2023-09-27" @default.
W4317940834 title "Diffusiophoresis-Driven Stratification in Pressure-Sensitive Adhesive Films from Bimodal Waterborne Colloids" @default.
W4317940834 cites W1518302852 @default.
W4317940834 cites W1968939808 @default.
W4317940834 cites W1977173658 @default.
W4317940834 cites W1995844892 @default.
W4317940834 cites W1996292939 @default.
W4317940834 cites W2008816032 @default.
W4317940834 cites W2011580396 @default.
W4317940834 cites W2020564360 @default.
W4317940834 cites W2021616815 @default.
W4317940834 cites W2022130542 @default.
W4317940834 cites W2033891694 @default.
W4317940834 cites W2044019530 @default.
W4317940834 cites W2045508848 @default.
W4317940834 cites W2046987142 @default.
W4317940834 cites W2048004232 @default.
W4317940834 cites W2053715061 @default.
W4317940834 cites W2055884186 @default.
W4317940834 cites W2057870090 @default.
W4317940834 cites W2068843603 @default.
W4317940834 cites W2076514843 @default.
W4317940834 cites W2081067538 @default.
W4317940834 cites W2082210158 @default.
W4317940834 cites W2095192328 @default.
W4317940834 cites W2119139577 @default.
W4317940834 cites W2132427102 @default.
W4317940834 cites W2252314287 @default.
W4317940834 cites W2264004314 @default.
W4317940834 cites W2319266999 @default.
W4317940834 cites W2508869356 @default.
W4317940834 cites W2557402650 @default.
W4317940834 cites W2570824615 @default.
W4317940834 cites W2593798874 @default.
W4317940834 cites W2601913089 @default.
W4317940834 cites W2611551628 @default.
W4317940834 cites W2744492764 @default.
W4317940834 cites W2752352128 @default.
W4317940834 cites W2754993523 @default.
W4317940834 cites W2781691348 @default.
W4317940834 cites W2782925208 @default.
W4317940834 cites W2785649357 @default.
W4317940834 cites W2794068396 @default.
W4317940834 cites W2800096580 @default.
W4317940834 cites W2803552889 @default.
W4317940834 cites W2827704535 @default.
W4317940834 cites W2877669996 @default.
W4317940834 cites W2901673677 @default.
W4317940834 cites W2946614814 @default.
W4317940834 cites W2955123228 @default.
W4317940834 cites W2997183702 @default.
W4317940834 cites W2999781216 @default.
W4317940834 cites W3047295913 @default.
W4317940834 cites W3047782793 @default.
W4317940834 cites W3057026435 @default.
W4317940834 cites W3103805430 @default.
W4317940834 cites W3153818251 @default.
W4317940834 cites W3202539230 @default.
W4317940834 cites W4295945114 @default.
W4317940834 cites W4300980969 @default.
W4317940834 cites W4307903600 @default.
W4317940834 cites W576194787 @default.
W4317940834 doi "https://doi.org/10.1021/acsapm.2c02044" @default.
W4317940834 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/36817335" @default.
W4317940834 hasPublicationYear "2023" @default.
W4317940834 type Work @default.
W4317940834 citedByCount "0" @default.
W4317940834 crossrefType "journal-article" @default.
W4317940834 hasAuthorship W4317940834A5016586586 @default.
W4317940834 hasAuthorship W4317940834A5026985010 @default.
W4317940834 hasAuthorship W4317940834A5030474458 @default.
W4317940834 hasAuthorship W4317940834A5030783885 @default.
W4317940834 hasAuthorship W4317940834A5034592899 @default.
W4317940834 hasAuthorship W4317940834A5043182720 @default.
W4317940834 hasAuthorship W4317940834A5065733335 @default.
W4317940834 hasAuthorship W4317940834A5075247944 @default.
W4317940834 hasAuthorship W4317940834A5086816997 @default.
W4317940834 hasBestOaLocation W43179408341 @default.
W4317940834 hasConcept C100701293 @default.
W4317940834 hasConcept C127413603 @default.
W4317940834 hasConcept C136478896 @default.
W4317940834 hasConcept C159985019 @default.
W4317940834 hasConcept C166940927 @default.
W4317940834 hasConcept C186541917 @default.
W4317940834 hasConcept C192562407 @default.
W4317940834 hasConcept C192943249 @default.