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HIGH RESOLUTION! CT, PET, SPECT Radiation Anti-Scatter Grid Module

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Mr. Donny AN
No.88 Shantong Road, Shanghai, China
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HIGH RESOLUTION! CT, PET, SPECT Radiation Anti-Scatter Grid Module

Product Details:
Place of Origin: Shanghai, China
Brand Name: SH-RareMetal
Certification: ISO9001
Strip Material: Tungsten (90W, 93W, 95W, 97W)
Thickness: Min 0.02mm
Payment & Shipping Terms:
Minimum Order Quantity: 5pcs
Price: negotiation
Packaging Details: in polywood case
Delivery Time: within one month
Payment Terms: T/T
Supply Ability: Per customer request
Description

HIGH RESOLUTION! CT, PET, SPECT Radiation Anti-Scatter Grid Module

An anti-scatter grid is a device for limiting the amount of radiation scatter created in a radiographic exposure

reaching the detector.

Strip Material: 90W, 93W, 95W, 97W

90WNiFe density: 17.184 (theoretical)
91WNiFe density: 17.379 (theoretical)
92WNiFe density: 17.578 (theoretical)
93WNiFe density: 17.781 (theoretical)
94WNiFe density: 17.989 (theoretical)
95WNiFe density: 18.203 (theoretical)
96WNiFe density: 18.421 (theoretical)
97WNiFe density: 18.645 (theoretical)

90WNiCu density: 17.319 (theoretical)
91WNiCu density: 17.503 (theoretical)
92WNiCu density: 17.690 (theoretical)
93WNiCu density: 17.882 (theoretical)
94WNiCu density: 18.078 (theoretical)
95WNiCu density: 18.278 (theoretical)
96WNiCu density: 18.483 (theoretical)
97WNiCu density: 18.62 (theoretical)

SH-RareMetal capability on pure Mo. Foil: Min. 0.01mm
SH-RareMetal capability on pure W. Foil: Min. 0.03mm
SH-RareMetal capability on W alloy. Foil: Min. 0.02mm
SH-RareMetal capability on WCu Foil: Min. 0.04mm
SH-RareMetal capability on MoCu Foil: Min. 0.025mm
SH-RareMetal capability on Ti. Foil: Min. 0.01mm

Welcome contact us for other detailed technical data.

The grid is constructed of a series of alternating parallel strips of tungsten. The grid is placed between the patient

and the detector during the exposure. Primary beam radiation passes through the radiolucent strips as it travels

roughly parallel to them, but scattered radiation which has, almost by definition, deviated from the parallel beam,

cannot easily pass through the grid as it encounters the lead strips at an angle, and is attenuated, or lost, from the

beam.
 
Grids are used particularly in examinations where a large quantity of scatter is created, i.e., those involving a large

volume of tissue being irradiated and those requiring high voltage. The scatter would otherwise degrade the image

by reducing the contrast and resolution. Use of a grid, however, requires a greater radiation exposure to the patient

as a good deal of primary beam is also attenuated by the lead slats, and for this reason grids are not used for all

examinations.

Contact Us
Mr. Donny AN
  • 86-21-67291503-806
  • No.88 Shantong Road, Shanghai, China
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