Unique Damping Properties of Modified <italic style="font-style: italic">Eucommia Ulmoides</italic> Gum Bearing Polar and Branched Pendants

Zhi-Ying Han; Heng-Chen Zhang; You-Ji Li; Ying Quan; Mei-Ran Xie

doi:10.1007/s10118-023-2899-1

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Unique Damping Properties of Modified Eucommia Ulmoides Gum Bearing Polar and Branched Pendants

RESEARCH ARTICLE | Updated：2023-05-26

- Unique Damping Properties of Modified Eucommia Ulmoides Gum Bearing Polar and Branched Pendants
  Enhanced Publication
- Chinese Journal of Polymer Science Vol. 41, Issue 6, Pages: 915-925(2023)
- Affiliations：
  
  a.School of Chemistry and Molecular Engineering, East China Normal University, Shanghai 200241, China
  b.National & Local United Engineering Laboratory of Integrative Utilization Technology of Eucommia Ulmoides, College of Chemistry and Chemical Engineering, Jishou University, Jishou 416000, China
- Author bio：
  
  bccLyj@163.com (Y.J.L.)
  mrxie@chem.ecnu.edu.cn (M.R.X.)
- Funds：
- DOI：10.1007/s10118-023-2899-1
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Zhi-Ying Han, Heng-Chen Zhang, You-Ji Li, et al. Unique Damping Properties of Modified Eucommia Ulmoides Gum Bearing Polar and Branched Pendants. [J]. Chinese Journal of Polymer Science 41(6):915-925(2023)
DOI：

Zhi-Ying Han, Heng-Chen Zhang, You-Ji Li, et al. Unique Damping Properties of Modified Eucommia Ulmoides Gum Bearing Polar and Branched Pendants. [J]. Chinese Journal of Polymer Science 41(6):915-925(2023) DOI： 10.1007/s10118-023-2899-1.

摘要

Eucommia ulmoides, gum (EUG) was modified by triazolinedione, and the modified EUG exhibited the obviously enhanced damping properties with a wide effective damping temperature range, large loss factor, and high damping coefficient, attributed to the introduced polar and branched pendants, and the microphase separation morphology to dissipate vibrational mechanical energy.

Abstract

Eucommia ulmoides, gum (EUG) was a biobased hard rubber with the prospected broad applications in rubber products, whereas possessed poor elasticity and weak damping functionality at room temperature. After modification of EUG by triazolinedione-based Alder-ene reaction, the modified EUG containing varied amount of polar and branched pendants could become a new type of soft rubber and functional material with excellent damping properties, and especially exhibited the unique damping plateau with a wide effective damping temperature range of 132 °C covering from −35 °C to 97 °C, large loss factor of 0.8, high damping coefficient of 0.53, and more hysteresis loss of 0.35. Therefore, this sustainable elastomeric material with adjustable damping performance would absorb more vibrational mechanical energy in a wide temperature range, and have broadened applications in energy-absorption devices and shock-absorbing materials.

关键词

Keywords

Eucommia ulmoides gum ModificationBranched pendantDamping performance

references

Wu,J.;Huang,G.;Wang,X.;He,X.;Xu,B.Changesintheviscoelasticmechanismsofpolyisobutylenebyplasticization.Macromolecules2012,45,8051−8057..

Stadler,F.J.;Auhl,D.;Münstedt,H.Influenceofthemolecularstructureofpolyolefinsonthedampingfunctioninshear.Macromolecules2008,41,3720−3726..

Wu,J.;Bo,C.;Wang,Y.;Su,B.;Liu,Q.;Zhao,J.Effectofcuringtimeonmechanicalanddynamicmechanicalpropertiesofbutylrubber.Mater. Res. Innov.2015,19,148−152..

SenakePerera,M.C.;Ishiaku,U.S.;Ishak,Z.A.M.CharacterisationofPVC/NBRandPVC/ENR50binaryblendsandPVC/ENR50/NBRternaryblendsbyDMAandsolidstateNMR.Eur. Polym. J.2001,37,167−178..

Wang,J.;Wang,W.;Geng,X.;Nishi,T.;Zhao,X.;ZhangL.Developmentofhighdampingacrylicrubber/slidinggraftcopolymercomposites.RSC Adv.2018,8,36172−36180..

Shi,X.;Song,Y.;Cai,Z.;Wang,X.;Cao,D.;Cheng,Q.;Zou,J.;Shi,Z.;Cui,Z.Theinfluenceofmicrocapsuleswithapartiallyfilledstructureonthedampingpropertiesofanepoxyresin.New J. Chem.2018,42,12119−12125..

Lu,X.;Li,X.;Tian,M.Preparationofhighdampingelastomerwithbroadtemperatureandfrequencyrangesbasedonternaryrubberblends.Polym. Adv. Technol.2014,25,21−28..

Martin,D.J.;Meijs,G.F.;Renwick,G.M.;Gunatillake,P.A.;MccarthyS.J.Effectofsoft-segmentCH2/Oratioonmorphologyandpropertiesofaseriesofpolyurethaneelastomers.J. Appl. Polym. Sci.1996,60,557−571..

Aprem,A.S.;Jose,S.;Thomas,S.;Barkoula,N.M.;Kocsis,J.K.Influenceofhygrothermallydegradedpolyester-urethaneonphysicalandmechanicalpropertiesofchloroprenerubber.Eur. Polym. J.2003,39,69−76..

Ma,S.;Liu,X.;Jiang,Y.;Tang,Z.;Zhang,C.;Zhu,J.Bio-basedepoxyresinfromitaconicacidanditsthermosetscuredwithanhydrideandcomonomers.Green Chem.2013,15,245−254..

Ma,Q.;Liu,X.;Zhang,R.;Zhu,J.;Jiang,Y.Synthesisandpropertiesoffullbio-basedthermosettingresinsfromrosinacidandsoybeanoil:theroleofrosinacidderivatives.Green Chem.2013,15,1300−1310..

Yao,K.;Nie,H.;Liang,Y.;Qiu,D.;He,A.Polymorphiccrystallizationbehaviorsincis-1,4-polyisoprene/trans-1,4-polyisopreneblends.Polymer2015,80,259−264..

Zhang,H.;Ma,C.;Sun,R.;Liao,X.;Wu,J.;Xie,M.Sustainableelastomeroftriazolinedione-modifiedEucommia ulmoidesgumwithenhancedelasticityandshapememorycapability.Polymer2019,184,121904..

Tsujimoto,T.;Toshimitsu,K.;Uyama,H.;Takeno,S.;Nakazawa,Y.Maleatedtrans-1,4-polyisoprenefromEucommia ulmoides Oliverwithdynamicnetworkstructureanditsshapememoryproperty.Polymer2014,55,6488−6493..

Xia,L.;Wang,Y.;Ma,Z.G.;Du,A.H.;Qiu,G.X.;Xin,Z.X.PreparationofepoxidizedEucommia ulmoidesgumanditsapplicationinstyrene-butadienerubber(SBR)/silicacomposites.Polym. Adv. Technol.2017,28,94−101..

Zhao,Y.X.;Huang,B.C.;Yao,W.;Cong,H.L.;Shao,H.F.;Du,A.H.Epoxidationofhightrans-1,4-polyisopreneanditsproperties.J. Appl. Polym. Sci.2008,107,2986−2993..

Qi,X.;Zhang,J.;Zhang,L.;Yue,D.Bio-basedself-healingEucommia ulmoidesesterelastomerwithdampingandoilresistance.J. Mater. Sci.2020,55,4940−4951..

Qi,X.;Zhang,J.;Zhang,L.;Yue,D.Bio-based,robust,shapememory,self-healingandrecyclableelastomersbasedonasemi-interpenetratingdynamicnetwork.J. Mater. Chem. A2021,9,25399−25407..

Qi,X.;Zhao,X.;Li,Y.;Zhang,J.;Zhang,L.;Yue,D.AhightoughnesselastomerbasedonnaturalEucommia ulmoidesgum.J. Appl. Polym. Sci.2021,13,50007..

Zhang,J.;Xue,Z.;Yan,R.DampingperformanceofEucommiaulmoidesgum.Chinese J. Polym. Sci.2011,29,157−163..

Sarina;Zhang,J.;Zhang,L.DynamicmechanicalpropertiesofEucommia ulmoidesgumwithdifferentdegreeofcross-linking.Polym. Bull.2012,68,2021−2032..

Cao,R.;Deng,L.;Feng,Z.;Zhao,X.;Li,X.;Zhang,L.Preparationofnaturalbio-basedEucommia ulmoidesgum/styrene-butadienerubbercompositesandtheevaluationoftheirdampingandsoundabsorptionproperties.Polymer2021,213,123292..

Ni,Q.;Wu,J.;Kong,P.;Wang,Y.;Li,Y.;Li,Y.;Peng,X.Inversevulcanizationpolymer-modifiedEucommia ulmoidesgumwithenhancedshapememorycapabilityandsoundabsorptionproperty.ACS Appl. Polym. Mater.2022,4,4689−4698..

Qi,X.;Xie,F.;Zhang,J.;Zhang,L.;Yue,D.Bio-basedcyclizedEucommia ulmoidesgumelastomerforpromisingdampingapplications.RSC Adv.2019,9,42367−42374..

Urayama,K.;Miki,T.;Takigawa,T.;Kohjiya,S.Dampingelastomerbasedonmodelirregularnetworksofend-linkedpoly(dimethylsiloxane).Chem. Mater.2004,16,173−178..

Chueangchayaphan,W.;Chueangchayaphan,N.;Tanrattanakul,V.;Muangsap,S.Influencesofthegraftingpercentageofnaturalrubber-graft-poly(2-hydroxyethylacrylate)onpropertiesofitsvulcanizates.Polym. Int.2018,67,739−746..

Zhang,C.;Pal,K.;Byeon,J.U.;Han,S.M.;Kim,J.K.Astudyonmechanicalandthermalpropertiesofsiliconerubber/EPDMdampingmaterials.J. Appl. Polym. Sci.2011,119,2737−2741..

Lei,Z.;Xing,W.;Wu,J.;Huang,G.;Wang,X.;Zhao,L.Theproperglasstransitiontemperatureofamorphouspolymersondynamicmechanicalspectra.J. Therm. Anal. Calorim.2014,116,447−453..

Butler,G.B.Triazolinedionemodifiedpolydienes.Ind. Eng. Chem. Prod. Res. Dev.1980,19,512−528..

Li,H.;Ren,Q.;Chen,J.;Zhang,H.;Wu,J.;Xie,M.Triazolinedione-basedAlder-enemodificationofEucommia ulmoidegumtoflexiblepolyelectrolyteandiongel.React. Funct. Polym.2018,132,104−111..

Zhao,J.;Zhang,H.;Ma,C.;Han,H.;Sun,R.;Xie,M.BinarymodificationofEucommia ulmoidesgumtowardelastomerwithtunablemechanicalpropertiesandgoodcompatibility.J. Polym. Sci. Part A: Polym. Chem.2019,57,1247−1255..

VanHerck,N.;DuPrez,F.E.Fasthealingofpolyurethanethermosetsusingreversibletriazolinedionechemistryandshape-memory.Macromolecules2018,51,3405−3414..

VanderHeijden,S.;DeBruycker,K.;Simal,R.;DuPrez,F.;DeClerck,K.UseoftriazolinedioneclickchemistryfortuningthemechanicalpropertiesofelectrospunSBS-fibers.Macromolecules2015,48,6474−6481..

Xiao,L.;Chen,Y.;Zhang,K.Efficientmetal-free“graftingonto”methodforbottlebrushpolymersbycombiningRAFTandtriazolinedione-dieneclickreaction.Macromolecules2016,49,4452−4461..

Lee,J.H.;Driva,P.;Hadjichristidis,N.;Wright,P.J.;Rucker,S.P.;Lohse,D.J.Dampingbehaviorofentangledcombpolymers:experiment.Macromolecules2009,42,1392−1399..

Beniah,G.;Fortman,D.J.;Heath,W.H.;Dichtel,W.R.;Torkelson,J.M.Non-isocyanatepolyurethanethermoplasticelastomer:amide-basedchainextenderyieldsenhancednanophaseseparationandpropertiesinpolyhydroxyurethane.Macromolecules2017,50,4425−4434..

Xu,Y.;Petrovic,Z.;Das,S.;Wilkes,G.L.Morphologyandpropertiesofthermoplasticpolyurethaneswithdanglingchainsinricinoleate-basedsoftsegments.Polymer2008,49,4248−4258..

Lei,W.;Qi,S.;Rong,Q.;Huang,J.;Xu,Y.;Fang,R.;Liu,K.;Jiang,L.;Liu,M.Diffusion-freezing-inducedmicrophaseseparationforconstructinglarge-areamultiscalestructuresonhydrogelsurfaces.Adv. Mater.2019,31,1808217..

Vlaminck,L.;DeBruycker,K.;Türünç,O.;DuPrez,F.E.ADMETandTADchemistry:asustainablealliance.Polym. Chem.2016,7,5655−5663..

Gaitzsch,J.;Delahaye,M.;Poma,A.;DuPrez,F.;Battaglia,G.Comparisonofmetalfreepolymer–dyeconjugationstrategiesinproticsolvents.Polym. Chem.2016,7,3046−3055..

Chen,B.;Ma,N.;Bai,X.;Zhang,H.;Zhang,Y.Effectsofgrapheneoxideonsurfaceenergy,mechanical,dampingandthermalpropertiesofethylene-propylene-dienerubber/petroleumresinblends.RSC Adv.2012,2,4683−4689..

Zhang,J.;Xue,Z.AcomparativestudyonthepropertiesofEucommia ulmoidesgumandsynthetictrans-1,4-polyisoprene.Polym. Test.2011,30,753−759..

Yang,F.;Dai,L.;Liu,T.;Zhou,J.;Fang,Q.Preparationofhigh-dampingsoftelastomerbasedonEucommia ulmoidesgum.Polym. Bull.2020,77,33−47..

Yu,W.;Du,M.;Zhang,D.;Lin,Y.;Zheng,Q.Influenceofdanglingchainsonmoleculardynamicsofpolyurethanes.Macromolecules2013,46,7341−7351..

Yamazaki,H.;Takeda,M.;Kohno,Y.;Ando,H.;Urayama,K.;Takigawa,T.Dynamicviscoelasticityofpoly(butylacrylate)elastomerscontainingdanglingchainswithcontrolledlengths.Macromolecules2011,44,8829−8834..

Wang,Y.;Wang,Y.;Zhang,H.;Zhang,L.Anovelapproachtoprepareagradientpolymerwithawidedampingtemperaturerangebyin-situchemicalmodificationofrubberduringvulcanization.Macromol. Rapid Commun.2006,27,1162−1167..

Urayama,K.Networktopology-mechanicalpropertiesrelationshipsofmodelelastomers.Polym. J.2008,40,669−678..

Liu,Y.;Tang,Z.;Wu,S.;Guo,B.Integratingsacrificialbondsintodynamiccovalentnetworkstowardmechanicallyrobustandmalleableelastomers.ACS Macro Lett.2019,8,193−199..

Wang,W.;Zhao,D.;Yang,J.;Nishi,T.;Ito,K.;Zhao,X.;Zhang,L.Novelslide-ringmaterial/naturalrubbercompositeswithhighdampingproperty.Sci. Rep.2016,6,22810..

Yin,C.;Zhao,X.;Zhu,J.;Hu,H.;Song,M.;Wu,S.ExperimentalandmoleculardynamicssimulationstudyonthedampingmechanismofC5petroleumresin/chlorinatedbutylrubbercomposites.J. Mater. Sci.2019,54,3960−3974..

Wu,C.;Yamagishi,T.;Nakamoto,Y.;Ishida,S.;Nitta,K.;Kubota,S.Viscoelasticpropertiesofanorganichybridofchlorinatedpolyethyleneandasmallmolecule.J. Polym. Sci. B2000,38,1341−1347..

Sun,T.;Gong,X.;Jiang,W.;Li,J.;Xu,Z.;Li,W.Studyonthedampingpropertiesofmagnetorheologicalelastomersbasedoncis-polybutadienerubber.Polym. Test.2008,27,520−526..

Zhang,G.;Zhou,X.;Liang,K.;Guo,B.;Li,X.;Wang,Z.;Zhang,L.MechanicallyrobustandrecyclableEPDMrubbercompositesbyagreencross-linkingstrategy.ACS Sustain. Chem. Eng.2019,7,11712−11720..

Wang,J.;Zhao,X.;Wang,W.;Geng,X.;Zhang,L.;Guo,B.;Nishi,T.;Hu,G.Signiﬁcantlyimprovingstrengthanddampingperformanceofnitrilerubberviaincorporatingslidinggraftcopolymer.Ind. Eng. Chem. Res.2018,57,16692−16700..

Liu,Z.;Wang,Y.;Huang,G.;Wu,J.Dampingcharacteristicsofchlorobutylrubber/poly(ethylacrylate)/piezoelectricceramic/carbonblackcomposites.J. Appl. Polym. Sci.2008,108,3670−3676..

Liu,B.;Wang,S.;Liu,J.;Tang,Z.;Guo,B.Promotedstrain-inducedcrystallizationofcis-1,4-polyisoprenewithfunctionalcarbonnanodots.Adv. Ind. Eng. Polym.2019,2,25−31..

Montano,V.;Wempe,M.M.B.;Does,S.M.H.;Bijleveld;Johan,C.;Zwaag,S.V.D.;Garcia,S.J.Controllinghealingandtoughnessinpolyurethanesbybranch-mediatedtubedilation.Macromolecules2019,52,8067−8078..

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Unique Damping Properties of Modified Eucommia Ulmoides Gum Bearing Polar and Branched Pendants

DOI：10.1007/s10118-023-2899-1

摘要

Abstract

关键词

Keywords

references