The effect of hard block content on the orientation and mechanical properties of olefin block copolymer films as obtainedviamelt stretching

Abstract: In this study, the orientation, structure and mechanical performance of a series of uniaxially oriented films based on olefin block copolymers (OBC) have been investigated in terms of the differences in hard block content and draw ratio (DR). Three OBCs with different hard block contents of 35 wt%, 25 wt% and 12 wt% were used. For un-stretched films, a change from close-packed spherulites into tiny crystallites is observed with decreasing hard block content, accompanied by an almost linear decrease in crystall… Show more

“…The control of these mechanical properties allows for industrial application in a wide range of fields. 10,11 Incidentally, amorphous polymers without a strong intermolecular interaction do not usually exhibit a significant change in the mechanical properties on stress-strain curves due to the branched topology. The longchain branch structure of the polycarbonate, which is a typical amorphous polymer, shows almost the same stress-strain curve as the linear structure.…”

Clarification of the effects of topological isomers on the mechanical strength of comb polyurethane

“…The control of these mechanical properties allows for industrial application in a wide range of fields. 10,11 Incidentally, amorphous polymers without a strong intermolecular interaction do not usually exhibit a significant change in the mechanical properties on stress-strain curves due to the branched topology. The longchain branch structure of the polycarbonate, which is a typical amorphous polymer, shows almost the same stress-strain curve as the linear structure.…”

Clarification of the effects of topological isomers on the mechanical strength of comb polyurethane

“…Figure 1a1 shows that there was no background information, since no crystallization occurred. After the temperature dropped to 116 °C, the hard segments of OBC started to crystallize [2]. Figure 1a2 shows typical spherulites of OBC after having been isothermally crystallized at 116 °C for 10 min.…”

“…Due to so-called chain shuttling technology, olefin block copolymer (OBC) has been recently synthesized by Dow Chemical Company, and commercialized as a thermoplastic elastomer [1,2,3,4]. As shown in Scheme 1, during the chain growth process, a chain shuttling agent was used to either activate or inactivate the branch incorporation of 1-octene into the chains, resulting in a multiblock copolymer of semicrystalline polyethylene (PE) hard segments, alternating with amorphous soft segments with short branches [5,6].…”

The Influence of DMDBS on Crystallization Behavior and Crystalline Morphology of Weakly-Phase-Separated Olefin Block Copolymer

“…∆ values reflect such a tendency, the quantity of HB% determines the temperature at which mesophase separation takes place. [23][24][25][26][27][28] The molecular characteristics discussed in this section, referred to as property-related characteristics of OBCs, can appropriately provide one with a deeper understanding of structure-property relationship for tailoring OBCs. This will be discussed in more detail in the following sections.…”

“…There is evidence that rheological behavior is sensitive to mesophase separation. [24][25][26][27][28] In addition, LES SOFT and LES HARD can also contribute to the crystallization behavior of OBCs. [29][30][31][32][33][34][35] Accordingly, the above-discussed characteristics are correctly defined as property-related molecular variables of OBCs.…”

Toward Olefin Multiblock Copolymers with Tailored Properties: A Molecular Perspective