FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2335949133> ?p ?o ?g. }

• W2335949133 endingPage "253" @default.
• W2335949133 startingPage "238" @default.
• W2335949133 abstract "Thermophysical and mechanical properties of two conjugated polymers, poly( p ‐phenylene vinylene) (PPV) and polyacetylene (PA), are predicted using molecular dynamics simulations and compared with results obtained from differential scanning calorimetry, nanoindentation, and dynamic mechanical analysis experiments. Glass transition temperature ( T g ) is calculated from the changes in the slopes of the specific volume versus temperature and cohesive energy density versus temperature plots, obtained from constant pressure and constant temperature simulations (NPT ensemble). The effects of temperature on the torsion angle distributions and characteristic ratio are analyzed. PPV is found to have a T g of 416 ± 8 K. PA does not exhibit a glass transition in the temperature range of 120 to 500 K. Using the static deformation method, the values of Young's modulus are calculated to be 1.81 ± 0.34 GPa for PA and 9.20 ± 0.57 GPa for PPV at 298 K. These values are in good agreement with the experimental measurements, validating the suitability of these techniques in the prediction of the polymer properties. image" @default.
• W2335949133 created "2016-06-24" @default.
• W2335949133 creator A5007765490 @default.
• W2335949133 creator A5024135674 @default.
• W2335949133 creator A5032166488 @default.
• W2335949133 creator A5049618271 @default.
• W2335949133 creator A5053095487 @default.
• W2335949133 creator A5059069418 @default.
• W2335949133 creator A5069412781 @default.
• W2335949133 date "2016-04-14" @default.
• W2335949133 modified "2023-10-06" @default.
• W2335949133 title "Simulated Dilatometry and Static Deformation Prediction of Glass Transition and Mechanical Properties of Polyacetylene and Poly(<i>para</i>-phenylene vinylene)" @default.
• W2335949133 cites W106628573 @default.
• W2335949133 cites W1651337269 @default.
• W2335949133 cites W1745873014 @default.
• W2335949133 cites W1934912797 @default.
• W2335949133 cites W1963711912 @default.
• W2335949133 cites W1967376083 @default.
• W2335949133 cites W1967897263 @default.
• W2335949133 cites W1968401146 @default.
• W2335949133 cites W1970552416 @default.
• W2335949133 cites W1978332482 @default.
• W2335949133 cites W1978798468 @default.
• W2335949133 cites W1980275610 @default.
• W2335949133 cites W1984046813 @default.
• W2335949133 cites W1984481977 @default.
• W2335949133 cites W1987778956 @default.
• W2335949133 cites W1988744568 @default.
• W2335949133 cites W1991137303 @default.
• W2335949133 cites W1996572228 @default.
• W2335949133 cites W2003412404 @default.
• W2335949133 cites W2005241888 @default.
• W2335949133 cites W2008085475 @default.
• W2335949133 cites W2010497958 @default.
• W2335949133 cites W2013271628 @default.
• W2335949133 cites W2013899438 @default.
• W2335949133 cites W2014295316 @default.
• W2335949133 cites W2014706250 @default.
• W2335949133 cites W2022114287 @default.
• W2335949133 cites W2022754377 @default.
• W2335949133 cites W2024597173 @default.
• W2335949133 cites W2024955711 @default.
• W2335949133 cites W2028071564 @default.
• W2335949133 cites W2030603749 @default.
• W2335949133 cites W2033396580 @default.
• W2335949133 cites W2034380225 @default.
• W2335949133 cites W2035266068 @default.
• W2335949133 cites W2035757217 @default.
• W2335949133 cites W2039017242 @default.
• W2335949133 cites W2041637638 @default.
• W2335949133 cites W2041931579 @default.
• W2335949133 cites W2045143966 @default.
• W2335949133 cites W2049833522 @default.
• W2335949133 cites W2050997427 @default.
• W2335949133 cites W2052477573 @default.
• W2335949133 cites W2054066524 @default.
• W2335949133 cites W2056817235 @default.
• W2335949133 cites W2061232098 @default.
• W2335949133 cites W2061302389 @default.
• W2335949133 cites W2063957389 @default.
• W2335949133 cites W2067778667 @default.
• W2335949133 cites W2067839394 @default.
• W2335949133 cites W2075636611 @default.
• W2335949133 cites W2076902680 @default.
• W2335949133 cites W2082191977 @default.
• W2335949133 cites W2083277424 @default.
• W2335949133 cites W2088815931 @default.
• W2335949133 cites W2091432870 @default.
• W2335949133 cites W2091542550 @default.
• W2335949133 cites W2091654157 @default.
• W2335949133 cites W2099512278 @default.
• W2335949133 cites W2100140813 @default.
• W2335949133 cites W2106106671 @default.
• W2335949133 cites W2108176244 @default.
• W2335949133 cites W2115998695 @default.
• W2335949133 cites W2125183858 @default.
• W2335949133 cites W2128094271 @default.
• W2335949133 cites W2145173973 @default.
• W2335949133 cites W2148322711 @default.
• W2335949133 cites W2158489145 @default.
• W2335949133 cites W2160858803 @default.
• W2335949133 cites W2488738981 @default.
• W2335949133 cites W2505095896 @default.
• W2335949133 cites W2953193913 @default.
• W2335949133 cites W4299576998 @default.
• W2335949133 doi "https://doi.org/10.1002/mats.201600006" @default.
• W2335949133 hasPublicationYear "2016" @default.
• W2335949133 type Work @default.
• W2335949133 sameAs 2335949133 @default.
• W2335949133 citedByCount "14" @default.
• W2335949133 countsByYear W23359491332017 @default.
• W2335949133 countsByYear W23359491332018 @default.
• W2335949133 countsByYear W23359491332019 @default.
• W2335949133 countsByYear W23359491332020 @default.
• W2335949133 countsByYear W23359491332022 @default.
• W2335949133 countsByYear W23359491332023 @default.
• W2335949133 crossrefType "journal-article" @default.
• W2335949133 hasAuthorship W2335949133A5007765490 @default.

• next