2008
DOI: 10.1002/macp.200800294
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Comonomer Length Influence on the Structure and Mechanical Response of Metallocenic Polypropylenic Materials

Abstract: 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 comonom… Show more

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Cited by 46 publications
(56 citation statements)
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“…By using 1-octadecene as comonomer instead of 1-hexene, the shift in the thermal properties in the copolymer is larger due to changes in the free volume related with the larger size of the lateral chain. [6] The crystallinity drops is the main reason for changes in the mechanical properties of our samples under tensile conditions, as it is observed in Figure 2 and Table 2. Differences of two orders of magnitude were measured in the Young modulus: from 1 161 to 19 MPa, for PH and CP7.6OD, respectively.…”
Section: Resultssupporting
confidence: 51%
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“…By using 1-octadecene as comonomer instead of 1-hexene, the shift in the thermal properties in the copolymer is larger due to changes in the free volume related with the larger size of the lateral chain. [6] The crystallinity drops is the main reason for changes in the mechanical properties of our samples under tensile conditions, as it is observed in Figure 2 and Table 2. Differences of two orders of magnitude were measured in the Young modulus: from 1 161 to 19 MPa, for PH and CP7.6OD, respectively.…”
Section: Resultssupporting
confidence: 51%
“…[6] Values of 1, 0, À2, À12 and À33 8C were reported for HP, CP0.9H, CP2.9H, CP8.6H and CP7.6OD, respectively. [6] Therefore, copolymers with high comonomer content will present higher free volume and lower viscosity than the homopolymer, validating the above mentioned approach.…”
Section: Morphological Analysismentioning
confidence: 97%
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“…Therefore it would be associated with the CH 2 -CH 3 branch formed by the introduction of 1-butene comonomer. This relaxation has also been observed in isotactic polypropylene copolymers [51] and on syndiotactic polypropylene [52] copolymers with long chain -olefin, also named …”
Section: Mechanodynamical Propertiessupporting
confidence: 56%