1. Exploring the pressure resistance limits of monolithic silica capillary columns
- Author
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Takeshi Hara, Sebastiaan Eeltink, Gert Desmet, Chemical Engineering and Industrial Chemistry, Centre for Molecular Separation Science & Technology, Industrial Microbiology, Department of Bio-engineering Sciences, and Chemical Engineering and Separation Science
- Subjects
Capillary action ,Retention Properties ,separations ,010402 general chemistry ,01 natural sciences ,Biochemistry ,Permeability ,Analytical Chemistry ,Performance Liquid-Chromatography ,Inner Diameters ,Mechanical strength ,Pressure ,PARTICLES ,Ultra high pressure ,Composite material ,Chromatography, High Pressure Liquid ,Pressure gradient ,Ultra-high pressure ,support ,Chromatography ,Silica monolith ,Chemistry ,010401 analytical chemistry ,Organic Chemistry ,General Medicine ,Silicon Dioxide ,0104 chemical sciences ,SIZE ,efficiency ,Permeability (electromagnetism) ,Mechanical stability ,Pressure stress ,Resolution ,Pressure resistance - Abstract
We report on an experimental approach to measure the pressure stability and mechanical strength of monolithic silica capillary columns with different diameters (50 and 100 mu m i.d.) and considering two different domain sizes, typical for the second generation monoliths or smaller. The approach consists of exposing the capillaries to ultra-high pressures (gradually stepwise increased from 20 to 80 MPa), with intermediate measurements of the column efficiency, permeability and retention factors to check the mechanical stability of the bed. It was observed that all tested columns withstood the imposed pressure stress, i.e., all the tested parameters remained unaffected up till the maximal test pressure of 80 MPa. The applied pressure gradient corresponded to 320 MPa/m. The two 100 mu m i.d.-capillary columns were also exposed to pressures between 80 and 90 MPa for a prolonged time (8 h), and this did not cause any damage either. (C) 2016 Elsevier B.V. All rights reserved.
- Published
- 2016
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