In high pressure liquid chromatography (HPLC) and ultra-high pressure liquid chromatography (UHPLC) equipment, our custom-engineered spring-energized seals help improve equipment throughput and efficiency. They provide superior performance in a wide range of temperatures, pressures and media types, and exhibit strong resistance to abrasion in mobile phases. Our Bal Spring™ canted coil spring grounds and efficiently transfers electrical current in mass spectrometers and other diagnostic instruments.
Since 1981, Bal Seal® spring-energized seals have been helping some of the biggest names in HPLC/UHPLC push the pressure envelope and gain a competitive edge. Today, we’re applying that same expertise to the advancement of supercritical fluid chromatography.
Our reciprocating flange seals, which combine proven Bal Spring™ canted coil spring energizer technology with advanced polymer formulations, are proven performers in SFC. In pressures of 6,000+ psi and temperatures as low as 5 °C, they seal consistently for more cycles, making better sample resolution and faster throughput a reality.
Unlike elastomeric gaskets and O-rings that may dissolve in CO2 media, the reciprocating seal is engineered to operate effectively at both the low and the high pressures inherent in SFC as the media changes from liquid to gas to vapor to supercritical fluid.
In HPLC and UHPLC systems, a leaking seal can lead to catastrophic failure, contamination and system breakdown.
Our seals for HPLC and UHPLC equipment are custom-engineered and precision manufactured to fit around the pump piston and prevent seepage of eluent. They offer effective sealing in a wide range of temperatures, pressures and media types, strong resistance to abrasion and increased service life in mobile phases, especially when buffer salts are present.
For today's most demanding pump applications, we offer the Enduris™ high-pressure sealing system. Enduris is the first seal proven to deliver consistent, long-term performance in liquid chromatography pumps at pressures of 22,000 psi and higher.
Genomic and proteomic research requires automated equipment to handle a potentially large volume of assay targets. Our designs are driven by requirements for high productivity and minimal probability of system or human error.