Porosity enhancement in β nucleated isotactic polypropylene stretched films by thermal annealing

Grant T. Offord; Shannon R. Armstrong; Benny D. Freeman; Eric Baer; Anne Hiltner; John S. Swinnea; Donald R. Paul

doi:10.1016/j.polymer.2013.03.026

Porosity enhancement in β nucleated isotactic polypropylene stretched films by thermal annealing

Grant T. Offord, Shannon R. Armstrong, Benny D. Freeman, Eric Baer, Anne Hiltner, John S. Swinnea, Donald R. Paul

Research output: Contribution to journal › Article › Research › peer-review

72 Citations (Scopus)

Abstract

Microporous polymer membranes were fabricated by extrusion, thermal annealing, and subsequent biaxial stretching of β nucleated isotactic polypropylene. Fabrication conditions were optimized based on prior studies so that the influence of annealing on the precursor film crystallinity and the pore formation in such films upon stretching could be investigated. Annealing perfected the crystalline structure of these materials, as evidenced by thermal and x-ray techniques. A mechanism detailing the annealing and pore formation process during biaxial stretching is presented. An appropriate metric was developed to relate the crystallinity of the precursor films to the porosity of the films after biaxially stretching. The porosity developed in biaxially stretched films increased substantially when its precursor was annealed near the melting temperature of β crystalline material, enabling the production of high permeability microporous membranes.

Original language	English
Pages (from-to)	2577-2589
Number of pages	13
Journal	Polymer
Volume	54
Issue number	10
DOIs	https://doi.org/10.1016/j.polymer.2013.03.026
Publication status	Published - 26 Apr 2013
Externally published	Yes

Keywords

Pore formation
Thermal annealing
β crystalline polypropylene

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10.1016/j.polymer.2013.03.026

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title = "Porosity enhancement in β nucleated isotactic polypropylene stretched films by thermal annealing",

abstract = "Microporous polymer membranes were fabricated by extrusion, thermal annealing, and subsequent biaxial stretching of β nucleated isotactic polypropylene. Fabrication conditions were optimized based on prior studies so that the influence of annealing on the precursor film crystallinity and the pore formation in such films upon stretching could be investigated. Annealing perfected the crystalline structure of these materials, as evidenced by thermal and x-ray techniques. A mechanism detailing the annealing and pore formation process during biaxial stretching is presented. An appropriate metric was developed to relate the crystallinity of the precursor films to the porosity of the films after biaxially stretching. The porosity developed in biaxially stretched films increased substantially when its precursor was annealed near the melting temperature of β crystalline material, enabling the production of high permeability microporous membranes.",

keywords = "Pore formation, Thermal annealing, β crystalline polypropylene",

author = "Offord, {Grant T.} and Armstrong, {Shannon R.} and Freeman, {Benny D.} and Eric Baer and Anne Hiltner and Swinnea, {John S.} and Paul, {Donald R.}",

note = "Funding Information: Financial support from the NSF Science and Technology Center for Layered Polymeric Systems (Grant 0423914 ) is gratefully acknowledged. Isotactic polypropylene samples were generously provided for this study free of charge by Dow Chemical Co. and Exxon Mobil Corp. Dr. Sandy Landoll and Dr. Clive Bosnyak had the insight to suggest we study this class of porous polymeric materials. X-ray diffraction studies were performed in large part by Dr. Steve Swinnea of the Texas Materials Institute at UT-Austin, and our understanding of these materials has been greatly improved thanks to his contribution. Copyright: Copyright 2018 Elsevier B.V., All rights reserved.",

year = "2013",

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day = "26",

doi = "10.1016/j.polymer.2013.03.026",

language = "English",

volume = "54",

pages = "2577--2589",

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T1 - Porosity enhancement in β nucleated isotactic polypropylene stretched films by thermal annealing

AU - Offord, Grant T.

AU - Armstrong, Shannon R.

AU - Freeman, Benny D.

AU - Baer, Eric

AU - Hiltner, Anne

AU - Swinnea, John S.

AU - Paul, Donald R.

N1 - Funding Information: Financial support from the NSF Science and Technology Center for Layered Polymeric Systems (Grant 0423914 ) is gratefully acknowledged. Isotactic polypropylene samples were generously provided for this study free of charge by Dow Chemical Co. and Exxon Mobil Corp. Dr. Sandy Landoll and Dr. Clive Bosnyak had the insight to suggest we study this class of porous polymeric materials. X-ray diffraction studies were performed in large part by Dr. Steve Swinnea of the Texas Materials Institute at UT-Austin, and our understanding of these materials has been greatly improved thanks to his contribution. Copyright: Copyright 2018 Elsevier B.V., All rights reserved.

PY - 2013/4/26

Y1 - 2013/4/26

N2 - Microporous polymer membranes were fabricated by extrusion, thermal annealing, and subsequent biaxial stretching of β nucleated isotactic polypropylene. Fabrication conditions were optimized based on prior studies so that the influence of annealing on the precursor film crystallinity and the pore formation in such films upon stretching could be investigated. Annealing perfected the crystalline structure of these materials, as evidenced by thermal and x-ray techniques. A mechanism detailing the annealing and pore formation process during biaxial stretching is presented. An appropriate metric was developed to relate the crystallinity of the precursor films to the porosity of the films after biaxially stretching. The porosity developed in biaxially stretched films increased substantially when its precursor was annealed near the melting temperature of β crystalline material, enabling the production of high permeability microporous membranes.

AB - Microporous polymer membranes were fabricated by extrusion, thermal annealing, and subsequent biaxial stretching of β nucleated isotactic polypropylene. Fabrication conditions were optimized based on prior studies so that the influence of annealing on the precursor film crystallinity and the pore formation in such films upon stretching could be investigated. Annealing perfected the crystalline structure of these materials, as evidenced by thermal and x-ray techniques. A mechanism detailing the annealing and pore formation process during biaxial stretching is presented. An appropriate metric was developed to relate the crystallinity of the precursor films to the porosity of the films after biaxially stretching. The porosity developed in biaxially stretched films increased substantially when its precursor was annealed near the melting temperature of β crystalline material, enabling the production of high permeability microporous membranes.

KW - Pore formation

KW - Thermal annealing

KW - β crystalline polypropylene

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DO - 10.1016/j.polymer.2013.03.026

M3 - Article

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VL - 54

SP - 2577

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JO - Polymer

JF - Polymer

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ER -

Porosity enhancement in β nucleated isotactic polypropylene stretched films by thermal annealing

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Keywords

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