Time: Temperature superposition principle: Application of WLF equation in polymer analysis and composites
Princip superponiranja vremena i temperature - primena WLF jednačine za ispitivanje polimera i kompozita
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Metapodaci
Prikaz svih podataka o dokumentuApstrakt
Polymers are the most studied viscoelastic material. The shorter times (high frequencies) corresponding to lower temperatures and long times (low frequencies) to high temperatures. This represents the quantitatively applied time-temperature superposition (TTS). Use of the Williams- Landel-Ferry (WLF) equation and the time-temperature superposition principle enables prediction and modeling of the mechanical and rheological properties of polymeric systems outside the timescale of the experiment. Application and validity of the TTS principle and WLF equation in polymer blends, composites, biopolymers and polymer networks will be discussed in this review.
Polimeri su najproučavaniji viskoelastični materijali. Kraće vreme (odnosno visoke frekvencije) odgovaraju nižim temperaturama, a duže vreme (odnosno niske frekvencije) odgovaraju visokim temperaturama. Ovaj odnos vremena (frekvencije) i temperature predstavlja kvantitativnu primenu principa superponiranja vremena i temperature (TTS). Upotreba Viliams-Lendl-Feri (Williams- Landel-Ferry, WLF) jednačine i principa superponirnaja vremena i temperature omogućava predviđanje i modelovanje mehaničkih i reoloških svojstava polimernih sistema izvan vremenske skale eksperimenta. Upotreba i validnost TTS i WLF jednačine na polimerne blende, kompozite, biopolimere i polimerne mreže biće predstavljeni i razmatrani u ovom radu.
Ključne reči:
TTS principle / WLF equation / application / polymers / composites / characterization / TTS princip / WLF jednačina / primena / polimeri / kompoziti / karakterisanjeIzvor:
Zaštita materijala, 2014, 55, 4, 395-400Izdavač:
- Engineering Society for Corrosion, Belgrade, Serbia
Institucija/grupa
Tehnološko-metalurški fakultetTY - JOUR AU - Ljubić, Darko AU - Stamenović, Marina AU - Smithson, Chad AU - Nujkić, Maja AU - Međo, Bojan AU - Putić, Slaviša PY - 2014 UR - http://TechnoRep.tmf.bg.ac.rs/handle/123456789/2600 AB - Polymers are the most studied viscoelastic material. The shorter times (high frequencies) corresponding to lower temperatures and long times (low frequencies) to high temperatures. This represents the quantitatively applied time-temperature superposition (TTS). Use of the Williams- Landel-Ferry (WLF) equation and the time-temperature superposition principle enables prediction and modeling of the mechanical and rheological properties of polymeric systems outside the timescale of the experiment. Application and validity of the TTS principle and WLF equation in polymer blends, composites, biopolymers and polymer networks will be discussed in this review. AB - Polimeri su najproučavaniji viskoelastični materijali. Kraće vreme (odnosno visoke frekvencije) odgovaraju nižim temperaturama, a duže vreme (odnosno niske frekvencije) odgovaraju visokim temperaturama. Ovaj odnos vremena (frekvencije) i temperature predstavlja kvantitativnu primenu principa superponiranja vremena i temperature (TTS). Upotreba Viliams-Lendl-Feri (Williams- Landel-Ferry, WLF) jednačine i principa superponirnaja vremena i temperature omogućava predviđanje i modelovanje mehaničkih i reoloških svojstava polimernih sistema izvan vremenske skale eksperimenta. Upotreba i validnost TTS i WLF jednačine na polimerne blende, kompozite, biopolimere i polimerne mreže biće predstavljeni i razmatrani u ovom radu. PB - Engineering Society for Corrosion, Belgrade, Serbia T2 - Zaštita materijala T1 - Time: Temperature superposition principle: Application of WLF equation in polymer analysis and composites T1 - Princip superponiranja vremena i temperature - primena WLF jednačine za ispitivanje polimera i kompozita EP - 400 IS - 4 SP - 395 VL - 55 DO - 10.5937/ZasMat1404395L ER -
@article{ author = "Ljubić, Darko and Stamenović, Marina and Smithson, Chad and Nujkić, Maja and Međo, Bojan and Putić, Slaviša", year = "2014", abstract = "Polymers are the most studied viscoelastic material. The shorter times (high frequencies) corresponding to lower temperatures and long times (low frequencies) to high temperatures. This represents the quantitatively applied time-temperature superposition (TTS). Use of the Williams- Landel-Ferry (WLF) equation and the time-temperature superposition principle enables prediction and modeling of the mechanical and rheological properties of polymeric systems outside the timescale of the experiment. Application and validity of the TTS principle and WLF equation in polymer blends, composites, biopolymers and polymer networks will be discussed in this review., Polimeri su najproučavaniji viskoelastični materijali. Kraće vreme (odnosno visoke frekvencije) odgovaraju nižim temperaturama, a duže vreme (odnosno niske frekvencije) odgovaraju visokim temperaturama. Ovaj odnos vremena (frekvencije) i temperature predstavlja kvantitativnu primenu principa superponiranja vremena i temperature (TTS). Upotreba Viliams-Lendl-Feri (Williams- Landel-Ferry, WLF) jednačine i principa superponirnaja vremena i temperature omogućava predviđanje i modelovanje mehaničkih i reoloških svojstava polimernih sistema izvan vremenske skale eksperimenta. Upotreba i validnost TTS i WLF jednačine na polimerne blende, kompozite, biopolimere i polimerne mreže biće predstavljeni i razmatrani u ovom radu.", publisher = "Engineering Society for Corrosion, Belgrade, Serbia", journal = "Zaštita materijala", title = "Time: Temperature superposition principle: Application of WLF equation in polymer analysis and composites, Princip superponiranja vremena i temperature - primena WLF jednačine za ispitivanje polimera i kompozita", pages = "400-395", number = "4", volume = "55", doi = "10.5937/ZasMat1404395L" }
Ljubić, D., Stamenović, M., Smithson, C., Nujkić, M., Međo, B.,& Putić, S.. (2014). Time: Temperature superposition principle: Application of WLF equation in polymer analysis and composites. in Zaštita materijala Engineering Society for Corrosion, Belgrade, Serbia., 55(4), 395-400. https://doi.org/10.5937/ZasMat1404395L
Ljubić D, Stamenović M, Smithson C, Nujkić M, Međo B, Putić S. Time: Temperature superposition principle: Application of WLF equation in polymer analysis and composites. in Zaštita materijala. 2014;55(4):395-400. doi:10.5937/ZasMat1404395L .
Ljubić, Darko, Stamenović, Marina, Smithson, Chad, Nujkić, Maja, Međo, Bojan, Putić, Slaviša, "Time: Temperature superposition principle: Application of WLF equation in polymer analysis and composites" in Zaštita materijala, 55, no. 4 (2014):395-400, https://doi.org/10.5937/ZasMat1404395L . .