Crystal Structure of Isotactic Propylene−Hexene Copolymers:  The Trigonal Form of Isotactic Polypropylene

Rosa, Claudio De; Iacono, Stefania Dello; Auriemma, Finizia; Ciaccia, Eleonora; Resconi, Luigi

doi:10.1021/ma0606354

Cited by 90 publications

(232 citation statements)

References 19 publications

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“…Density values in these CiPH correlate rather well with those reported in the literature for analogous copolymers. [19] On the other hand, Figure 1 shows the WAXD profiles at room temperature for the different CiPOD copolymers and that found in the iPP homopolymer for comparison reasons. It can be observed that the profiles of the neat iPP and CiPOD1.0 and CiPOD2.3 copolymers exhibit the five main diffractions [(110), (040), (130), (111), and (130, 041) planes] characteristic of the a monoclinic iPP crystalline modification.…”

Section: Resultsmentioning

confidence: 99%

“…[14][15][16] An interesting finding is that a crystal structure neither resembles those of the well-known a, b, and g phases of isotactic poly(propylene) (iPP) nor that of isotactic poly-1-hexene has been uncovered in copolymers of propylene-1-hexene (CiPH) with relatively high molar contents in 1-hexene (>10%), crystallized at moderate rates and annealed at room temperature. [17][18][19] On the other hand, specimens of low molecular weight CiPH copolymers with relatively low 1-hexene molar fractions (up to a 5 mol-%), prepared by a fast cooling from the molten state, [20] show a much easier formation of mesomorphic structures similar to those observed in either effective-quenched or stretched iPP. [21,22] Moreover, the effect of comonomer size on the final properties is expected to be more dramatic in the case of propylene copolymers, although contradictory results have been reported in the open literature.…”

Section: Introductionmentioning

confidence: 99%

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Comonomer Length Influence on the Structure and Mechanical Response of Metallocenic Polypropylenic Materials

Palza

López-Majada

Quijada

et al. 2008

Macro Chemistry & Physics

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The structure and properties have been comprehensively studied for metallocene copolymers of propylene‐1‐hexene (CiPH) and propylene‐1‐octadecene (CiPOD). The comonomer content constitutes the most important factor affecting both structure and properties in these CiPH and CiPOD copolymers, although the length of the comonomer is also very important. Thus, a considerable decrease in crystallinity and an easier obtainment of mesomorphic‐like ordered entities are observed in the two kinds of copolymers as comonomer content increases. The variations in crystalline structure significantly influence the viscoelastic and mechanical behaviors of these CiPH and CiPOD copolymers. Consequently, the location and intensity of the different relaxation mechanisms as well as stiffness parameters (storage, Young's moduli, and microhardness) and deformation mechanism are strongly dependent upon composition.

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Section: Resultsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Comonomer Length Influence on the Structure and Mechanical Response of Metallocenic Polypropylenic Materials

Palza

López-Majada

Quijada

et al. 2008

Macro Chemistry & Physics

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“…Elevated cooling rates (>100°C/s) inhibit the stable monoclinic modification in favour of a mesomorphic form [1,12]. Two other modification (δ [13] and ∊ [14]) have been reported in literature, but they are outside the scope of this work.…”

Section: Introductionmentioning

confidence: 83%

Application of a multi-phase multi-morphology crystallization model to isotactic polypropylenes with different molecular weight distributions

Troisi

Arntz

Roozemond

et al. 2017

European Polymer Journal

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A B S T R A C TFlow-induced crystallization at elevated pressure of a set of metallocene isotactic polypropylenes (iPP) possessing different molecular weight distributions is studied using extended dilatometry experiments in an apparatus able to apply elevated pressure (up to 1200 bar) and strong shear flow (shear rates up to 180 s −1 ). The effect of flow on the crystallization temperature was quantified and the samples were analyzed using X-ray diffraction to measure the relative amounts of different crystal phases.The experimental results were used to test a flow induced crystallization model framework recently developed in our group which can describe the complex crystallization behavior of iPP and includes formation of multiple morphologies (spherulites, shish-kebab structure with lamellar branching) and crystal phases (α β , and γ ). Almost all model parameters were left unchanged, except for the temperature description of the quiescent crystal growth rate and nucleation density (experimentally measured using optical microscopy) and an extra parameter which takes into account the fraction of high molecular weight for the creation of flow-induced nuclei.The model describes rather good the experimentally observed trends for what regards crystallization temperature and amount of α and γ -phase but substantial discrepancies were found in the amount of β-phase formed. This could be related to the presence of 2,1 insertion errors in metallocene samples which could inhibit the formation of this crystal phase.

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“…The corresponding values are shown in Table 3. 7 The crystal size in the (110) direction, lc (110), has been also determined from the width at half height of the corresponding diffraction, calculated through Scherrer equation. [43] These values are also indicated in Table 3.…”

Section: Experimental Partmentioning

confidence: 99%

“…In addition, a new trigonal form has been described in the case of copolymers of iPP with high contents of 1-hexene or 1-pentene as comonomers. [5][6][7][8][9][10] Moreover, a kind of mesomorphic form has been found to appear not only in homopolymer but also in different random copolymers, with comonomers such as ethylene, 1-butene, 1-pentene and other -olefin copolymers. [11][12][13][14] Among the different paths for modifying the ability to crystallize the iPP and the type of polymorph desired, this paper focuses on the introduction of comonomer units.…”

Section: Introductionmentioning

confidence: 99%

Influence of structure on the properties of polypropylene copolymers and terpolymers

et al. 2017

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A set of Ziegler-Natta copolymers of iPP with ethylene or with 1-butene, and terpolymers with both counits have been characterized, devoting special attention to the effect of composition and processing conditions on the crystal structure and on the final properties.DSC and X-ray diffraction is used to study the polymorphism of copolymers and terpolymers.Comonomer insertion interrupts the isotactic sequences, acting as a structural defect, and the formation of  form is enhanced in the interval of studied compositions. Moreover, crystallinity decreases and crystal structure is modified. Comonomer type and concentration determine the extent of these modifications, resulting on important changes in macroscopicproperties. An important aspect to be considered is the higher ability of 1-butene units to be incorporated in the iPP crystals in relation to ethylene counits. From the balance of different properties, possible applications are suggested for the various types of samples. For instance, the excellent optical properties of the analyzed terpolymers make them very attractive for applications such as transparent film or packaging.

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Crystal Structure of Isotactic Propylene−Hexene Copolymers: The Trigonal Form of Isotactic Polypropylene

Cited by 90 publications

References 19 publications

Comonomer Length Influence on the Structure and Mechanical Response of Metallocenic Polypropylenic Materials

Comonomer Length Influence on the Structure and Mechanical Response of Metallocenic Polypropylenic Materials

Application of a multi-phase multi-morphology crystallization model to isotactic polypropylenes with different molecular weight distributions

Influence of structure on the properties of polypropylene copolymers and terpolymers

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