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 performance.
View MoreThis 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.
View MoreA 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 MoreTrack-etched membranes feature a unique pore structure that offers the smallest tolerances regarding pore sizes and density on the market. This means they can target specific customer requirements that affect air and media flow as well as entry pressure. They are the perfect surface filter with reversible and self-cleaning functionality with hydrophobic, oleophobic, and hydrophilic […]
View MoreWhen it comes to advanced porous components for automotive venting applications, POREX Virtek® PTFE Hydrophobic & Oleophobic membranes continues to be the material OEMs rely on. POREX offers an IP-Rated Protection Vent made from sintered PTFE gives the highest thermal, chemical, andmechanical properties over any other membrane. It is manufactured in a way to be […]
View MoreYou’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 MorePipette design has taken a quantum leap forward. The modern pipette and its components have undergone significant evolution and practical redesign since the origins of pipetting in the 18th century. Following the 1980s introduction of multichannel liquid-handling devices with positioning stage bases for holding microplates, pipette tips, and reservoirs, however, pipette design experienced a 30-year […]
View MoreOur chemical compatibility chart is a valuable resource that provides information on how different polymers react with various chemicals. It will help make informed decisions when choosing materials for specific applications where exposure to different substances is a concern. Download our chart below
View MoreInstructions on proper handling of Oxyphen track-etched membranes, including the necessary level of cleanliness for maintaining the integrity and performance of our membranes.
View MoreWhen it comes to membrane technology, understanding the compatibility of different chemicals is key to ensuring optimal performance and longevity. Our membrane comparison guide not only simplifies the intricate relationships between diverse chemicals, but also empowers you to make informed decisions in selecting the right membranes for your specific needs. Get all the details by […]
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