-40%

MST-17 / MCT-17 Geiger Müller Counter Tube w/ mica window NOS & Tested

$ 14.78

Availability: 20 in stock
  • Return shipping will be paid by: Buyer
  • MPN: Does Not Apply
  • Country/Region of Manufacture: Russian Federation
  • Condition: New – Open box
  • Restocking Fee: No
  • Item must be returned within: 30 Days
  • Refund will be given as: Money Back
  • All returns accepted: Returns Accepted
  • Model: MCT-17/MST-17
  • Brand: Unbranded
  • Custom Bundle: No
  • Radiation Detector Type: Geiger Counter

    Description

    MST-17 / MCT-17  Geiger-Müller Counter Tube w/ mica window and removable cap. NOS & Tested. Sensitive to alpha, beta (>0.16 MeV)
    , and gamma radiation. The data and certification sheet is in Russian. To the best of my knowledge, the following are the tube's specs:
    Voltage of start of counting:
    < 1600V
    Operating voltage (recommended):
    1620 – 1740V
    Length of flat part of counting curve (
    plateau
    ):
    150 V
    Slope of the counting curve:
    < 0.05%
    Own background:
    < 0.41 counts/s
    Maximum radiation:
    10,000 counts/min
    Load resistance:
    7-10 MegOhm
    Allowable stray input capacitance:
    < 10 pF
    Working temperature range:
    -30…+50 C
    Anode material:
    Platinum
    Mica window
    thickness:
    < 5 mg/cm2
    Weight:
    ~20g
    Dimensions:
    counter length 100mm, diameter 40mm
    Mica window diameter:
    20 mm.
    I tested the tube near the middle of the recommended operation voltage range (1,700V) with a Nucleus Model 500 Nuclear Scaler (not included in this auction). As the pictures show, the background radiation, measured over a 10-minute period, amounted to about 180 impulses (or 18 impulses/minute) here in central Wisconsin. Predictable for this measurement, the presence or absence of the metal cap made no significant difference. A uranium-oxide glazed pepper shaker next to the side of the tube resulted in 1,271 impulses/minute. When a small amount of Americium-241, emitting about 1 uC of alpha radiation with particle energies of about 5.4 MeV, was placed about 1 cm away from the uncovered window, the counter registered 1,536 impulses/minute. The count dropped to125 impulses/minute with the cap, which contains a small hole, covering the mica window. (The remaining above-background radiation may be due to the small hole or the beta and gamma emissions In the decay chain.)
    While the tube is NOS, there are some signs of tarnish on the brassy part (front of tube that frames the window and cap). I polished the outside of the cap with very fine sandpaper to remove the tarnish.
    I will NOT send this tube via airmail since I'm worried that a non-pressurized cargo environment might cause damage to the mica window. (It happened to a similar type of tube I had purchased in Europe.)