Inhaler manufacturers have found a valuable solution in porous polymers to enhance device performance and reduce costs. These versatile components play a crucial role in filtration, wicking, and capillary action within inhalers, thereby improving drug delivery efficiency and effectiveness. By incorporating Porex’s porous polymers in their designs, manufacturers can optimize manufacturing costs while elevating device […]
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This video showcases the functionality of Porex Virtek microporous PTFE as a bubble trap (for degassing or debubbling) in a microfluidic device. Porex Virtek PTFE, known for its purity, durability, and versatility, plays a crucial role in maintaining device functionality by effectively venting trapped gases.
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A valuable visual tool designed to assist engineers in making accurate material selections for integrating Porex Virtek Hydrophobic PTFE venting materials into their microfluidic device designs.
View More Explore how track-etched membranes are manufactured and the breadth of technology options.
View More Learn about Porex Virtek PTFE EV battery venting membranes as a cutting-edge solution for battery safety, longevity, and performance.
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You’ve no doubt heard the word ‘sustainability’ recently. It’s one of the latest topics concerning manufactured products. Can it be more environmentally friendly? Can it be recycled? Is it biodegradable or compostable? All of these answers add up to a sustainable product. For some manufacturers it’s easy to design from scratch, keeping in mind the […]
View More Access our comprehensive chemical compatibility chart, a valuable resource for comparing different polymers based on their chemical compatibility.
View More Instructions on proper handling of Oxyphen track-etched membranes, including the necessary level of cleanliness for maintaining the integrity and performance of our membranes.
View More A reference guide comparing the chemical compatibility of track-etched, casted (PES) and PTFE membranes.
View More This white paper presents a collaborative effort to develop a versatile Programmable Bio-Nano-Chip System for research and clinical applications. The case study highlights prototype microfluidic cartridges, integrating expertise from the McDevitt Research Group, MiniFAB’s manufacturing design, and custom components from Porex.
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