Thermo Scientific™ 9 mm Clear Glass Screw Thread Vials are 12 x 32 mm and built with Advanced Vial Closure System (AVCS). This innovation not only prevents septa push through, but provides a stop point for the cap to prevent over- or under-tightening and provide an optimal, consistent seal every time.
Thermo Scientific™ 9mm Clear Glass Screw Thread Vials are 2mL, 12x32mm and built with Advanced Vial Closure System (AVCS). This innovation not only prevents septa push through, but provides a stop point for the cap to prevent over- or under-tightening and provide an optimal, consistent seal every time.
Thermo Scientific™ 9mm Certified Clear Wide Opening Screw Thread Kits Use certified clean, low particle, low background vials for your high sensitivity LC/MS and GC/MS applications. They are fully lot-tested for 15 critical parameters.
Thermo Scientific™ 9mm Clear Glass Screw Thread Vials are 2mL, 12x32mm and built with Advanced Vial Closure System (AVCS). This innovation not only prevents septa push through, but provides a stop point for the cap to prevent over- or under-tightening and provide an optimal, consistent seal every time.
Made of clear type 1 borosilicate glass, Our screw thread vials are designed with a continuous thread “CT” finish, permitting a positive seal, ideal for a variety of uses including laboratory or manufacturer’s use and packaged in attractive, white low-particulate cardboard boxes.
With Advanced Vial Closure System (AVCS) technology built into 9 mm Thermo Scientific™ 9 mm Autosampler Vial Screw Caps and Septa you will get an optimal, consistent seal every time. With just one turn, they offer easy-on, easy-off convenience, and are a cost effective alternative to caps with bonded septa.
Vials are manufactured of Clear, Type 1 Class A or Amber, Type 1 Class B, borosilicate glass; StepVial II may be used with robotic autosamplers in place of crimp style vials; Vials have a 40% larger opening for easier sample preparation; StepVial II vials must be used with 9mm, StepVial II closures to ensure proper fit and functionality.
VWR® 9mm Wide Opening Screw Thread Vials and Inserts Description Glass Patched Dimension (mm) Profile Total Volume Usable Volume Residual (µL) Cat. No. Pack of Case of 9mm Screw Thread Vial Clear No 12x32 Flat Bottom 2.0mL 1.8mL <170 46610-722 100 1000 Clear Yes 12x32 Flat Bottom 2.0mL 1.8mL <170 46610-724 100 1000
Autosampler Vials, Caps and Closures Thermo Scientific™ 9mm Clear Glass Screw Thread Vials Nearly eliminate septa push-through and improve sealing with vials built with the innovative Advanced Vial Closure System (AVCS).
Thermo Scientific™ 9mm Clear Glass Screw Thread Vials Nearly eliminate septa push-through and improve sealing with vials built with the innovative Advanced Vial Closure System (AVCS). Brand: Thermo Scientific™ 60180-509
9mm screw thread closures and septa are accommodated on this vials Available with graduated marking spots which can be written on with a # 2 pencil Product must be used in compliance with the intended use statement listed on the product or its accompanying product information.
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Acme Vial manufactures clear glass vials made in the USA. Acme’s clear screw thread glass vials provides maximum visibility and range from 1 ml to 40 ml capacities. Various screw thread closures and plugs are available.
Thermo Scientific™ 9mm MS Certified Clear Screw Thread Kits Use certified clean, low particle, low background vials for your high sensitivity LC/MS and GC/MS applications. They are fully lot-tested for 15 critical parameters.
Specifications Model No. Size Description VA101A 22.5x46mm 10ml Clear precision screw-thread vial, round bottom VA201A 22.5x75.5mm 20ml Clear precision screw-thread vial, round bottom SACA00A ∅18mm blue PTFE/white silicone septa, 18mm magnetic precision screw-thread metal cap, 8mm centre hold Applied to Shimadzu Varian, and other autosampler
Thermo Scientific™ 9mm Clear Glass Screw Thread Vials are 2mL, 12x32mm and built with Advanced Vial Closure System (AVCS). This innovation not only prevents septa push through, but provides a stop point for the cap to prevent over- or under-tightening and provide an optimal,