The effect of controlled degradation with an organic peroxide on the molecular characteristics and properties of heterophasic propylene-ethylene copolymers (HECO)

Swart, Morne

03 1900

Thesis (PhD)--Stellenbosch University, 2013. / ENGLISH ABSTRACT: Heterophasic copolymers (also known as HECO polymers) or often referred to only as impact copolymers or block copolymers comprise a polymer matrix with a dispersed rubbery copolymer phase. The polymer under investigation in this study consists of a polypropylene homopolymer matrix and ethylene-propylene copolymers (EPCs). Due to its diverse range of applications and unique properties, polypropylene is the choice of polymer for a vast array of applications. This has led to the development of an entire class of polypropylene materials known as visbroken or controlled rheology polypropylene. By adding a suitable peroxide to the polymer in the presence of heat, radicals are formed which will attack the polymer chains in a random fashion. The resultant polymers generally have a higher melt flow rate (MFR), a narrower molecular weight distribution than the parent polymer, and good impact-stiffness balance. The main focus of this investigation was to determine if there exist any differences in the molecular structure and physical properties of controlled rheology HECO polymers and if differences do exist, how they influence the physical characteristics of the polymer. Eight HECO polymers with equal ethylene contents were visbroken to varying degrees by making use of two different types of organic peroxide. The effects of the amount of visbreaking on the molecular characteristics and physical properties were subsequently studied by making use various types of fractionation techniques, including preparative temperature rising elution fractionation (PTREF) and crystallisation analysis fractionation (CRYSTAF). Subsequent offline analysis was then done on the fractionated samples that included nuclear magnetic resonance spectroscopy (NMR), differential scanning calorimetry (DSC), high temperature size exclusion chromatography (HT-SEC), Fourier transform infrared spectroscopy (FTIR) and deposition of the SEC fractions via the LC Transform Interface (SEC-FTIR) as well as high temperature high performance liquid chromatography (HT-HPLC), a novel technique for the characterization of olefins according to their chemical composition. / AFRIKAANSE OPSOMMING: Heterofase kopolimere, ook bekend as HECO polimere, of dikwels na verwys net as impak kopolimere of blok kopolimere bestaan uit 'n polimeer matriks met 'n verspreide rubberagtige kopolimeer fase. Die polimeer wat in hierdie studie ondersoek was het bestaan uit 'n polipropileen homopolimeer matriks en etileen-propileen kopolimere (EPCs). As gevolg van sy veelseidigheid van toepassings en unieke eienskappe is polipropileen die keuse van polimeer vir 'n wye verskeidenheid van toepassings. Hierdie veelseidigheid het gelei tot die ontwikkeling van 'n hele klas van polipropileen materiaal bekend as gevisbreekte of beheerde reologie polipropileen. Deur die byvoeging van 'n geskikte peroksied tot die polimeer in die teenwoordigheid van hitte, word radikale gevorm wat die polimeerkettings in 'n ewekansige wyse sal aanval. Die gevolglike polimere in die algemeen het 'n hoë smelt vloeitempo (MFR), 'n smaller molekulêre gewig verspreiding as die moeder polimeer, en 'n goeie impak/styfheid balans. Agt HEKO polimere met gelyke etileen inhoude was gevisbreek in wisselende hoeveelhede deur gebruik te maak van twee verskillende tipes organiese peroksiedes. Die gevolge van die hoeveelheid van visbreeking op die molekulêre eienskappe en fisiese eienskappe was vervolgens gebestudeer deur gebruik te maak van verskillende fraksionasie tegnieke, insluitend preparatiewe TREF (P-TREF) en CRYSTAF. Daaropvolgende analiese is gedoen op die gefraktioneerde monsters en sluit in kernmagnetiese resonansie spektroskopie (KMR), differensiële skandeer kalorimetrie (DSC), 'n hoë temperatuur grootte uitsluitings chromatografie (HT-SEC), Fourier transform infrarooi spektroskopie (FTIR) met deponeering van die SEC fraksies via die LC transform koppelvlak (SEC-FTIR) sowel as 'n hoë temperatuur hoë werkverrigting vloeistof chromatografie (HT-HPLC), 'n nuwe tegniek vir die karakterisering van olefiene volgens hul chemiese samestelling.

Heterophasic copolymers

Polymers -- Rheology

Peroxides

Fractionation

Dissertations -- Polymer science

Theses -- Polymer science

Estudo da influência do índice de fluidez na cinética de critalização de blendas de PP homopolímero com PP copolímero / Study of the Influence of the Melt Index on the Crystallization Kinetics of PP Blends homopolymer and PP copolymer

Silva, Emanuela Santos

06 October 2017

The present work had as objective productions and images of homopolymer PP with heterophasic PP copolymer, seeking to investigate how the fluidity index influenced as the good of the blends. As Blends PPh11 / CP and PPh1.5 / CP were produced by varying the copolymer content (CP) by 25, 50 and 75%. The melt flow indexes of homopolymer PP and PP copolymer were: 11g / 10min (PPh11), 1.5g / 10min (PPh1,5) and 0,8g / 10min (CP). As the legends were prepared in a monorail extruder. The oscillatory dynamic rheological properties were evaluated in an oscillatory shear rheometer. Through the tensile test an evaluation of the mechanical properties was made. A determination of the crystalline phases of the compositions at the exit of the X-ray Diffraction. An analysis of the thermal properties and the study of the non-isothermal crystallization kinetics was performed from Differential Exploratory Calorimetry (DSC). There is no non-isothermal study, as samples were warmed from room temperature to 200 ° C and cooled using 10, 15 and 20 ° C / min cooling rates. A non-isothermal crystallization kinetics for the study of Ozawa, Jeziorny and Kissinger Methods. The results showed that the heterophasic copolymer acted as a nucleant in the more viscous compositions, prepared with PPh1.5. And as crystallization (Ti) and peak crystallization (Tc) temperatures were shifted to higher values. The kinetic parameters, n and kc, behaved in the same manner for all compositions, indicating the growth geometry of the crystal was not affected. Rheological and mechanical characterizations indicate that all systems studied are miscible. / O presente trabalho teve como objetivo produzir e caracterizar blendas de PP homopolímero com PP copolímero heterofásico, buscando investigar como o índice de fluidez influencia as propriedades das blendas. As blendas PPh11/CP e PPh1,5/CP foram produzidas variando-se o teor de copolímero (CP) em 25, 50 e 75%. Os índices de fluidez dos PPs homopolímeros e do PP copolímero foram: 11g/10min(PPh11), 1,5g/10min(PPh1,5) e 0,8 g/10min(CP). As blendas foram preparadas em uma extrusora monorrosca. As propriedades reológicas em regime dinâmico oscilatório foram avaliadas em um reômetro de cisalhamento oscilatório. Através do ensaio de tração foi feita a avaliação das propriedades mecânicas. A determinação das fases cristalinas das composições foi feita a partir da Difração de raios-X. A análise das propriedades térmicas e o estudo da cinética de cristalização não isotérmica, foi realizada a partir da Calorimetria Exploratória Diferencial (DSC). No estudo não isotérmico, as amostras foram aquecidas da temperatura ambiente até 200ºC e, resfriadas usando as taxas de resfriamento de 10, 15 e 20 ºC/min. A cinética de cristalização não isotérmica foi estudada aplicando os Métodos de Ozawa, Jeziorny e Kissinger. Os resultados mostraram que o copolímero heterofásico atuou como nucleante nas composições mais viscosas, preparadas com o PPh1,5. E as temperaturas de início de cristalização (Ti) e de pico de cristalização (Tc) foram deslocadas para valores mais elevados. Os parâmetros cinéticos, n e kc, se comportaram da mesma maneira para todas as composições, indicando que a geometria de crescimento do cristal não foi afetada. Os resultados das caracterizações reológica e mecânica indicam que os sistemas estudados são miscíveis. / São Cristóvão, SE

Engenharia de materiais

Polipropileno

Cristalização

Heterofásico

Cinética

Método de Jeziorny

Polypropylene

Heterophasic

Crystallization

Kinetic

The effect of organic peroxides on the molecular composition of heterophasic ethylene-propylene impact copolymers

Magagula, Sifiso Innocent

12 1900

Thesis (MSc)--Stellenbosch University, 2015. / ENGLISH ABSTRACT: Heterophasic ethylene-propylene copolymers, also known as impact polypropylene (PP) copolymers (IPCs) or heterophasic copolymers (HECOs), are a unique group of polyolefins produced through the copolymerisation of ethylene and propylene, with the aim of improving the impact properties of the PP homopolymer at low temperatures. Therefore, this polymer comprises of a PP homopolymer matrix with a dispersed rubbery copolymer phase. Due to their unique properties, HECO polymers have become commercially important materials, with a wide range of applications. Therefore a fundamental understanding of the processes and chemistry that affects their final macroscopic properties needs to be expanded. The main focus of this investigation was to understand why specific organic peroxides influence or interact differently with the various phases of HECO polymers, in order to utilize their properties to obtain HECO polymers with optimal and desired properties. Two HECO polymers with different ethylene contents were fractionated into three fractions (30, 100 and 130 °C), using preparative temperature rising elution fractionation (P-TREF). Each individual TREF fraction was degraded with two different types of organic peroxides, and then characterised using four different analytical tools. The changes in the molecular structures of the different fractions were investigated by Fourier transform infrared spectroscopy (FTIR) and differential scanning calorimetry (DSC). The changes in comonomer sequence distributions were investigated by carbon 13 nuclear magnetic resonance spectroscopy (13C-NMR). Moreover, the degradation of the different fractions was investigated by high temperature size exclusion chromatography (HT-SEC). The investigation showed that the HECO polymers with different ethylene contents were uniquely altered. It was evident that the ethylene content influenced the degradation behaviour of the HECO polymers. The ability of the peroxide to affect certain regions of the HECO polymer more than others is highly dependent upon its miscibility with certain regions of the HECO polymers. The “visbreaking” efficiency of a specific organic peroxide appears to be primarily dependent on the number of “peroxy” groups it contains in its molecular structure. Stellenbosch University https://scholar.sun.ac.za / AFRIKAANSE OPSOMMING: Heterofase etileen-propileen ko-polimere, ook bekend as impak PP ko-polimere (IPCS) of heterofase ko-polimere (HECO), is 'n unieke groep poliolefiene geproduseer deur die ko-polimerisasie van etileen en propileen, met die doel op die verbetering in die impak eienskappe van die PP homopolimeer by lae temperature. Hierdie polimeer bestaan dus uit 'n PP homopolimeer matriks met 'n verspreide rubberagtige ko-polimeer fase. As gevolg van hul unieke eienskappe, is HECO polimere van kommersiële belang, met 'n wye verskeidenheid van toepassings. 'n Fundamentele begrip van die prosesse en chemie wat die finale makroskopiese eienskappe beïnvloed moet dus uitgebrei word. Die hooffokus van hierdie ondersoek was om te verstaan waarom spesifieke organiese peroksiede verskillende invloede en interaksies met die verskillende fases van HECO polimere het, om sodoende van hul eienskappe gebruik te maak om HECO polimere te verkry met optimale en gewenste eienskappe. Twee HECO polimere met verskillende etileen inhoud was gefraksioneer in drie fraksies (30, 100 en 130 °C), met behulp van preparatiewe temperatuur styging eluering fraksionering (P-TREF). Elke individuele TREF fraksie was gedegradeer met twee verskillende tipes organiese peroksiede en daarna gekarakteriseer deur vier verskillende analitiese metodes. Die veranderinge in molekulêre strukture van die verskillende fraksies was geondersoek met behulp van Fourier transform infrarooi spektroskopie (FTIR) en differensiële skandering kalorimetrie (DSC). Die veranderinge in ko-monomeer volgorde distribusie was bestudeer deur middel van kern magnetiese resonans spektroskopie (KMR). Verder was die degradasie van die verskillende fraksies met behulp van hoë temperatuur grootte uitsluitingschromatografie (HT-SEC) bestudeer. Die ondersoek het getoon dat die HECO polimere met verskillende etileen inhoud uniek gedegradeer was. Dus is dit duidelik genoeg dat die etileen inhoud die degradasie gedrag van die HECO polimere beïnvloed het. Die vermoë van die peroksied om sekere areas van die HECO polimeer meer as ander te beïnvloed is hoogs afhanklik van die mengbaarheid met sekere areas van die HECO polimere. Die "visbreking" doeltreffendheid van 'n spesifieke organiese peroksiede is meestal afhanklik van die aantal "peroksie" groepe in die molekulêre struktuur.

Polypropylene

Organic peroxides

Copolymers

Vis-breaking

UCTD