Wheaton Roller Bottle Culture Apparatus. Suitable for vaccine production. Used in laboratory, pilot plant and production cell culture installations and also meet the expectations of the vaccine and biologic industry.
Wheaton plastic vial racks for 6mL Omni Vials are sturdy and can be stacked, even when the vials are in place and can be easily cleaned in an automatic washer or autoclaved. Each well has an opening in the bottom to facilitate drainage. Autoclavable at 121°C for 20 minutes. The vials lock in the rack for one-handed cap removal. Easy to clean and autoclavable. Alphanumeric indexing indicated
DWK Life Sciences (Wheaton) vial racks come in a variety of sizes. The racks are manufactured from polypropylene and can be easily cleaned in an automatic washer or autoclaved. The racks are sturdy and can be stacked, even when the vials are in place. Each well has an opening in the bottom to facilitate drainage. Autoclavable at 121.
WHEATON ® (4) Purity. 99% (5) 98% chemical oxygen demand (COD) (1) ... volume 0.7 mL, clear glass vial (flat bottom), O.D. × H 7 mm × 40 mm, pkg of 1000 ea ...
Chemical Oxygen Demand (Titrimetric, High Level For Saline Waters) ANALYTE: COD Chemical Oxygen Demand . INSTRUMENTATION: Titration . STORET No. 00340 . 1.0 Scope and Application 1.1 When the chloride level exceeds 1000 mg/L the minimum accepted value for the COD will be 250 mg/L. COD levels which fall below this value are highly
Chemical oxygen demand. In environmental chemistry, the chemical oxygen demand ( COD) is an indicative measure of the amount of oxygen that can be consumed by reactions in a measured solution. It is commonly expressed in mass of oxygen consumed over volume of solution which in SI units is milligrams per litre ( mg / L ).
cod reagent vials with flat bottom Wheaton precision thread gas chromatography vials with round bottom Thermo Fisher-Headspace Vials Thermo Scientific 9 mm Clear Glass Screw Thread Vials are 2 x 32 mm and built with Advanced Vial Closure System (AVCS).
WHEATON® µL MicroLiter® 9 mm Series, 12 x 32 Vials With Limited Volume Inserts, Clear, 400μL Flat-Bottom Insert, With Marking Patch. Precision borosilicate clear and amber glass inserts offer security, convenience and selection. Approved for LC & GC.
Wheaton® Cryule® Vial Racks. Wheaton® plastic vial racks are sturdy and can be stacked, even when the vials are in place and can be easily cleaned in an automatic washer or autoclaved. Each well has an opening in the bottom to facilitate drainage. Autoclavable at 121°C for 20 minutes. The vials lock in the rack for one-handed cap removal.
This glass mobile phase reservoir bottle is safety coated and comes with a 45mm screw cap. The coating acts as a UV protectant. Made of Wheaton-33®low extractable borosilicate glass that conforms to USP Type I and ASTM E 438 Type I, Class A requirements. Autoclavable. Capacity: 5000mL. O.D. x Height: 186 x 318mm. Material: Borosilicate Glass. Bottom: Flat. Thread Connection: GL 45. Wheaton
Vials are borosilicate glass, offered assembled with open top 24-400 phenolic screw caps and especially designed septu Bottles - Vial, EPA Water Analysis, Flat Bottom with Screw Cap, Wheaton - Environmental Vials - Vials - T-Z - Products
2ml lab vials for HPLC autosampler VIALS Including: 00pcs Clear/amber bottles 32x.6mm made of borosilicate glass, 2ml lab vials 9-425 screw thread, Flat base Sample Vials; Made out of USP TYPE I Glass. With writing patch for pencil mark.
This Corning® 96-well half area microplate has a UV-transparent well bottom and is ideal for determining protein and/or nucleic acid concentrations. It is certified for low background and consistent performance at 260 and 280nm, and also certified DNase- and RNase-free. The UV-transparent bottom is molded directly to an acrylic base for greater strength and maximum leak resistance. The half
DWK Life Sciences (Wheaton) EPA Vial with Black Phenolic Closure PTFE/ Silicone Liner, 40 ml EPA Vial, 40 ml, 28 dia x 96 mm H, Clear, Borosilicate Glass, 24-400 Closure Size, Black Phenolic Closure, PTFE/Silicone Liner, Screw Thread
The interior wall of the microtube transitions smoothly into the conical well at the bottom of the vial which prevents any loss of material that might get trapped in irregular surfaces and corners. The constant shape and depth of the well enables greater recovery of the sample by automated systems without concern for vial and needle damage.
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