Scintillation Vial, 20 mL, 28x61 mm, 22-400, Urea Cap with PE Cone Attached

  • Converted from Type I borosilicate glass tubing
  • For scintillation counting and standard storage applications
  • Packaged in convenient utility trays, for easy sample storage
  • Use vials with PP cap and metal foil / pulp liner forapplications involving hydrocarbons, oils, ketones and alcohol. Not recommended for acids or alkalis.
  • Urea caps with PE cone liner offer superior torque retention and excellent sealing characteristics
  • Background counts are consistent and low, ultraviolet transmission is high
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Product Overview
Liquid scintillation counting is a method used for determination of the activity of low energy radioisotopes, mostly beta-emitting and alpha-emitting isotopes. Popular fields of application are the life sciences, environmental analysis as well as chemical and physical sciences. The sample of interest is mixed with a liquid scintillation cocktail (e.g. zinc sulfide) and placed in transparent or translucent vials, which are then loaded into the liquid scintillation counter. Beta particles released from the isotopic sample interact with the scintillation cocktail and, as a result, photons of light are produced. The intensity of the measured light signal is proportional to the energy of the beta particle.

Specifications

Specifications
Wall Thickness s (mm) 1.1
Diameter d (mm) 27.5
Material Boro 5.1
Liner Material PE Cone
Capacity (mL) 20
Color clear
Colour clear
Remarks Closure Type: screw
Height h (mm) 57.5
Diameter (mm) 27.5
Thread 22-400
Closure Color WHITE
Glass Color Clear
Marking Spot No
Cap Material Urea
Height (mm) 57.5
Overall Height (mm) 61
Wall Thickness (mm) 1.1
Autoclavable Yes
Quantity 500
Product Overview
Product Overview
Liquid scintillation counting is a method used for determination of the activity of low energy radioisotopes, mostly beta-emitting and alpha-emitting isotopes. Popular fields of application are the life sciences, environmental analysis as well as chemical and physical sciences. The sample of interest is mixed with a liquid scintillation cocktail (e.g. zinc sulfide) and placed in transparent or translucent vials, which are then loaded into the liquid scintillation counter. Beta particles released from the isotopic sample interact with the scintillation cocktail and, as a result, photons of light are produced. The intensity of the measured light signal is proportional to the energy of the beta particle.
Specifications

Specifications

Specifications
Wall Thickness s (mm) 1.1
Diameter d (mm) 27.5
Material Boro 5.1
Liner Material PE Cone
Capacity (mL) 20
Color clear
Colour clear
Remarks Closure Type: screw
Height h (mm) 57.5
Diameter (mm) 27.5
Thread 22-400
Closure Color WHITE
Glass Color Clear
Marking Spot No
Cap Material Urea
Height (mm) 57.5
Overall Height (mm) 61
Wall Thickness (mm) 1.1
Autoclavable Yes
Quantity 500
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