2007
DOI: 10.1002/masy.200751107
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Block Index for Characterizing Olefin Block Copolymers

Abstract: Summary: Olefin block copolymers produced by chain shuttling catalysis exhibit crystallinity characteristics that are distinct from what would be expected for typical random olefin copolymers with comparable monomer compositions produced from either 'single-site' or heterogeneous catalysis. Olefin block copolymers produced by chain shuttling catalysis have a statistical multiblock architecture. A unique structural feature of olefin-based block copolymers is that the intra-chain distribution of comonomer is seg… Show more

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Cited by 64 publications
(69 citation statements)
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“…To modify the TREF model for OBCs, one important additional factor that needs to be considered is the systematic shift to higher elution temperatures that is observed when TREF profiles of OBCs are compared to those of ethylene/ α‐olefin random copolymers with the same α‐olefin molar fraction. This temperature shift is quantified using the definition of block index ( BI ) introduced by Li Pi Shan and Hazlitt, BI=1/Tx1/Tx01/TA1/TAB where T x is the peak TREF elution temperature ( T e ) of an OBC fraction of narrow chemical composition, T x 0 is the T e of the equivalent narrow‐composition random copolymer, T A is the T e of chains composed of a single hard block, and T AB is the T e of a random copolymer with the same average composition of the whole OBC. This parameter can be used to interpret the degree to which the intra‐chain comonomer distribution is blocked; the larger the BI , the more “blocky” the polymer will be.…”
Section: Model Developmentmentioning
confidence: 99%
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“…To modify the TREF model for OBCs, one important additional factor that needs to be considered is the systematic shift to higher elution temperatures that is observed when TREF profiles of OBCs are compared to those of ethylene/ α‐olefin random copolymers with the same α‐olefin molar fraction. This temperature shift is quantified using the definition of block index ( BI ) introduced by Li Pi Shan and Hazlitt, BI=1/Tx1/Tx01/TA1/TAB where T x is the peak TREF elution temperature ( T e ) of an OBC fraction of narrow chemical composition, T x 0 is the T e of the equivalent narrow‐composition random copolymer, T A is the T e of chains composed of a single hard block, and T AB is the T e of a random copolymer with the same average composition of the whole OBC. This parameter can be used to interpret the degree to which the intra‐chain comonomer distribution is blocked; the larger the BI , the more “blocky” the polymer will be.…”
Section: Model Developmentmentioning
confidence: 99%
“…For each simulated OBC chain, the average comonomer content was used to estimate the block index ( BI ) using a linear relationship based on results previously reported, BI=4.783CC+0.143 where CC is the mole fraction of α‐olefin of the OBC chains generated via Monte Carlo simulation.…”
Section: Model Developmentmentioning
confidence: 99%
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“…[1][2][3][4][5][6][7] OBCs have higher heat and abrasion resistances, and better processability than conventional polyolefin elastomers. [8][9][10][11] Because OBC may have many blocks, mathematical models are needed to quantify how polymerization conditions affect their microstructures. A detailed mathematical model describes how the complex OBC microstructure evolves during polymerization, providing useful insights on how to control these microstructures.…”
mentioning
confidence: 99%
“…Shan and Hazlitt [29] were successful in developing a "block index methodology" by collecting fractions from P-TREF and then subjecting them to A-TREF. They noticed that olefin block copolymer fractions eluting at the same TREF temperature have much higher comonomer contents than comparable fractions of random copolymers.…”
Section: Temperature Rising Elution Fractionationmentioning
confidence: 99%