Asymmetric hollow-fiber filtration membranes based on insoluble polyimide (R-BAPB): Influence of coagulation bath on porous structure

The insoluble polyimides are the most promising group of polymer materials for fabrication of solvent stable filtration membranes suitable for operation at elevated temperatures. In order to synthesize asymmetric membranes from insoluble polyimide, it is proposed to fabricate the membranes from a pr...

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Bibliographic Details
Published in:Journal of physics. Conference series 2020-12, Vol.1696 (1), p.12040
Main Authors: Borisov, I L, Bazhenov, S D, Vasilevsky, V P, Bakhtin, D S, Balynin, A V, Yushkin, A A, Vaganov, G V, Didenko, A L, Yudin, V E, Volkov, A V
Format: Article
Language:English
Subjects:
Asymmetry
Coagulation
Filtration
Glass transition temperature
High temperature
Hollow fiber membranes
Membranes
Microfiltration
Modulus of elasticity
Phase separation
Physics
Polyamide resins
Polyimide resins
Polymers
Solvents
Synthesis
Temperature
Transport properties
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Summary:The insoluble polyimides are the most promising group of polymer materials for fabrication of solvent stable filtration membranes suitable for operation at elevated temperatures. In order to synthesize asymmetric membranes from insoluble polyimide, it is proposed to fabricate the membranes from a pre-polymer solution (polyamide acid - PAA) by non-solvent induced phase separation method followed by imidization to form non-soluble porous polyimide membrane. The thermoplastic crystallizable polyimide R-BAPB, which is resistant to a number of known organic solvents, was chosen as a membrane material. For the first time, hollow fiber membranes based on imidized PAA (R-BAPB) with a controlled distribution of pores on the inner side of the hollow fiber were formed. It has been established that the use of "hard" non-solvents, such as water or aqueous-organic solutions, is preferable for the formation of a porous structure in the membranes based on PAA (R-BAPB). Synthesized PAA membranes were used to prepare porous membranes based on the thermoplastic polyimide R-BAPB by thermal imidization. Imidization process was confirmed by an increase in the glass transition temperature of the material to 220 °C (corresponds to the glass transition temperature of polyimide (R-BAPB)) and is accompanied by a significant increase in its elastic modulus. The results of the measurements of the transport properties of polyimide membranes for gases and liquids indicate that microfiltration transport pores are present in the membranes.
ISSN:1742-6588
1742-6596
DOI:10.1088/1742-6596/1696/1/012040