SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2017063430> ?p ?o ?g. }

Showing items 1 to 100 of ±147 with 100 items per page.

W2017063430 endingPage "1328" @default.
W2017063430 startingPage "1301" @default.
W2017063430 abstract "The microstructure-rheology relationship for a model, thermoreversible nanoparticle gel is investigated using a new technique of time-resolved neutron scattering under steady and time-resolved large amplitude oscillatory shear (LAOS) flows. A 21 vol. % gel is tested with varying strength of interparticle attraction. Shear-induced structural anisotropy is observed as butterfly scattering patterns and quantified through an alignment factor. Measurements in the plane of flow show significant, local anisotropy develops with alignment along the compressional axis of flow, providing new insights into how gels flow. The microstructure-rheology relationship is analyzed through a new type of structure-Lissajous plot that shows how the anisotropic microstructure is responsible for the observed LAOS response, which is beyond a response expected for a purely viscous gel with constant structure. The LAOS shear viscosities are observed to follow the “Delaware-Rutgers” rule. Rheological and microstructural data are successfully compared across a broad range of conditions by scaling the shear rate by the strength of attraction, providing a method to compare behavior between steady shear and LAOS experiments. However, important differences remain between the microstructures measured at comparatively high frequency in LAOS experiments and comparable steady shear experiments that illustrate the importance of measuring the microstructure to properly interpret the nonlinear, dynamic rheological response." @default.
W2017063430 created "2016-06-24" @default.
W2017063430 creator A5019075180 @default.
W2017063430 creator A5033178403 @default.
W2017063430 creator A5038240084 @default.
W2017063430 creator A5052373522 @default.
W2017063430 creator A5056340990 @default.
W2017063430 date "2014-09-01" @default.
W2017063430 modified "2023-10-16" @default.
W2017063430 title "The microstructure and rheology of a model, thixotropic nanoparticle gel under steady shear and large amplitude oscillatory shear (LAOS)" @default.
W2017063430 cites W1579170559 @default.
W2017063430 cites W1965905769 @default.
W2017063430 cites W1966732809 @default.
W2017063430 cites W1970370707 @default.
W2017063430 cites W1972230475 @default.
W2017063430 cites W1979389776 @default.
W2017063430 cites W1980074085 @default.
W2017063430 cites W1983218016 @default.
W2017063430 cites W1984895080 @default.
W2017063430 cites W1986215771 @default.
W2017063430 cites W1987394353 @default.
W2017063430 cites W1987683485 @default.
W2017063430 cites W1988899986 @default.
W2017063430 cites W1996175513 @default.
W2017063430 cites W1996405851 @default.
W2017063430 cites W2002754781 @default.
W2017063430 cites W2004073216 @default.
W2017063430 cites W2011981885 @default.
W2017063430 cites W2014433229 @default.
W2017063430 cites W2018823457 @default.
W2017063430 cites W2026412142 @default.
W2017063430 cites W2026784944 @default.
W2017063430 cites W2027401707 @default.
W2017063430 cites W2028137166 @default.
W2017063430 cites W2028433954 @default.
W2017063430 cites W2032701041 @default.
W2017063430 cites W2032879212 @default.
W2017063430 cites W2035312899 @default.
W2017063430 cites W2038049174 @default.
W2017063430 cites W2039018798 @default.
W2017063430 cites W2041461740 @default.
W2017063430 cites W2055843632 @default.
W2017063430 cites W2057829498 @default.
W2017063430 cites W2059029090 @default.
W2017063430 cites W2060597386 @default.
W2017063430 cites W2067151654 @default.
W2017063430 cites W2067634025 @default.
W2017063430 cites W2069329936 @default.
W2017063430 cites W2071166906 @default.
W2017063430 cites W2071837796 @default.
W2017063430 cites W2077988592 @default.
W2017063430 cites W2088952048 @default.
W2017063430 cites W2091503567 @default.
W2017063430 cites W2097977571 @default.
W2017063430 cites W2100677369 @default.
W2017063430 cites W2113691632 @default.
W2017063430 cites W2122676372 @default.
W2017063430 cites W2133930279 @default.
W2017063430 cites W2136845482 @default.
W2017063430 cites W2139279107 @default.
W2017063430 cites W2141198131 @default.
W2017063430 cites W2144815200 @default.
W2017063430 cites W2147356670 @default.
W2017063430 cites W2154143027 @default.
W2017063430 cites W2157152728 @default.
W2017063430 cites W2159377455 @default.
W2017063430 cites W2165380364 @default.
W2017063430 cites W2167487032 @default.
W2017063430 cites W2313946306 @default.
W2017063430 cites W2314950626 @default.
W2017063430 cites W2322638861 @default.
W2017063430 cites W2330203800 @default.
W2017063430 cites W2334495493 @default.
W2017063430 cites W2421455258 @default.
W2017063430 cites W3104926228 @default.
W2017063430 cites W4211178033 @default.
W2017063430 cites W4238555336 @default.
W2017063430 cites W4376453478 @default.
W2017063430 cites W2515828471 @default.
W2017063430 doi "https://doi.org/10.1122/1.4878378" @default.
W2017063430 hasPublicationYear "2014" @default.
W2017063430 type Work @default.
W2017063430 sameAs 2017063430 @default.
W2017063430 citedByCount "81" @default.
W2017063430 countsByYear W20170634302014 @default.
W2017063430 countsByYear W20170634302015 @default.
W2017063430 countsByYear W20170634302016 @default.
W2017063430 countsByYear W20170634302017 @default.
W2017063430 countsByYear W20170634302018 @default.
W2017063430 countsByYear W20170634302019 @default.
W2017063430 countsByYear W20170634302020 @default.
W2017063430 countsByYear W20170634302021 @default.
W2017063430 countsByYear W20170634302022 @default.
W2017063430 countsByYear W20170634302023 @default.
W2017063430 crossrefType "journal-article" @default.
W2017063430 hasAuthorship W2017063430A5019075180 @default.
W2017063430 hasAuthorship W2017063430A5033178403 @default.
W2017063430 hasAuthorship W2017063430A5038240084 @default.