9mm Vial is screw thread vials with a 9-425 GPI thread and the closure is dimensionally equivalent to 11mm crimp cap vials. This means that they can be used in any auto sampler that uses 11mm crimp cap vials. 9mm screw caps have an advantage over 11mm crimp caps because 9mm screw caps can easily be applied and removed by hand and they can be reused.
Chromacol innovative micro- and precision sampling products are made with high quality, stringent manufacturing tolerances that have been tested extensively for comprehensive autosampler compatibility. They were developed in close technical cooperation with instrument manufacturers.
2ml Screw Thread Vial gas liquid chromatography screw thread vial manufacturers and suppliers, welcome to wholesale cheap 9-425 screw thread vial, 2ml plastic vials, plastic micro sampling for 2.0 mL, 8 mm Screw-Thread VialsFit all 2.0 mL, 12 x 32 mm, screw-thread 8 mm/425 vial-based auto samplers
Glass vials are made from 33-Expansion Coefficient clear borosilicate glass from Germany for exceptional resistance to chemical and temperature variations. Our 2mL 12 x 32mm standard mouth vials have a useable volume of 1.5mL and are available in 8/425 and 9/425 screw-thread style for polypropylene caps or 11mm crimp style for aluminum crimp caps.
2ml 9mm Screw Thread HPLC sample vials&Spetas. High quality manufacturing 20ml 20mm crimp open-topped Blue ... The top countries of suppliers are India, China ...
The most commonly used vials are 9mm, 12x32mm screw thread vials. A 12x32mm vial is also known as 1.5mL, 1.8mL, and 2.0mL vials by different manufacturers. Microsampling options include using a one-piece vial with fused insert molded into the vial, or using a separate insert placed into a vial.
Fisher Scientific - Lagoas Park, Edificio 11 - Piso 0 - Porto Salvo Tel. +351 21 425 33 50 - Fax. +351 21 425 33 51 - pt.fisher@thermofisher.com
Athena 1.5mL Clear Screw Neck Vial w/Write-on Spot, 9-425 Thread, 11.6*32mm, USP type 1 . Features. 1)9mm screw vials can be used on all common autosampler. 2)Standard narrow neck design for GC and HPLC. 3)9mm wider opening for easy puncture. 4)Clear, type 1 class A borosilicate glass. 5)9mm PTFE/silicone septa, has excellent chemical inertness
The most commonly used vials are 9mm, 12x32mm screw thread vials. A 12x32mm vial is also known as 1.5mL, 1.8mL, and 2.0mL vials by different manufacturers. Microsampling options include using a one-piece vial with fused insert molded into the vial, or using a separate insert placed into a vial.
2mL Clear Glass 12x32mm Flat Base 9-425 Screw Thread Vial. 100pcs/pk. C0000008. 2mL Clear Glass 12x32mm Flat Base 9-425 Screw Thread Vial with Label. 100pcs/pk. C0000010. 2mL Amber Glass 12x32mm Flat Base 9-425 Screw Thread Vial. 100pcs/pk. C0000011. 2mL Amber Glass 12x32mm Flat Base 9-425 Screw Thread Vial with Label. 100pcs/pk.
Price : Get Quote Capacity : 2ml/Half Dram, 4ml/1 Dram, 7ml/2 Dram, 11ml/3 Dram, 15ml/4 Dram, 22ml/6 Dram and 30ml/8 Dram These tubular glass screw threaded vials are available in both clear and amber Borosilicate Type I glass.
9-425 (9mm) screw thread vials are the original standard opening vials; they have a closure that is dimensionally equivalent to 11mm crimp cap vials and are therefore compatible with most autosamplers. For use with 9-425 (9mm) screw closure. and 9mm septa.. A graduated write-on patch is provided for easy filling and identification.
CCITM has wide offering of 11.6mm x 32mm glass and plastic vials, inserts and closures in the industry. 9mm screw thread vials are the preferred choice for modern read more Chromachemie Laboratory Private Limited
Fisher Scientific - Lagoas Park, Edificio 11 - Piso 0 - Porto Salvo Tel. +351 21 425 33 50 - Fax. +351 21 425 33 51 - pt.fisher@thermofisher.com
About 9mm wide opening screw top vials. 2mL, 12x32mm, 9mm wide opening vial; Wide neck opening provides easy filling and a safer larger target for the needle; Superior quality 1st hydrolytic class glass (Type 1) in clear and amber; Meets all requirements of Pharm. US, EU, JPN; Available silanized (deactivated) for optimal recovery of critical polar compounds