RU2091873C1 - X-ray protective material - Google Patents

Abstract

FIELD: radiation protection. SUBSTANCE: material contains (in wt %): epoxide oligomer, 5.0-9.0; maleic anhydride, 3.0-4.0; lead stearate, 0.3-0.5; lead polyethylsiliconate, 85.5-90; and tetraethoxysilane, 0.7-1.5. EFFECT: reduced weight of protection material. 2 tbl

Description

 The invention relates to protection against x-ray radiation and can be used for biological protection of staff in x-ray rooms.

 The most widely used protective material in medical X-ray technology is lead rubber.

 In the known material, the metal filler is uniformly distributed over the thickness of the material, as a result of which such a material has a relatively high yield of characteristic radiation from a metal filler close to the surface of the material, as well as radiation scattered by the smooth surface of the material.

 In the practice of building nuclear installations, as well as radiochemical enterprises and laboratories, materials consisting of epoxy resins, hardener and filler are used to improve the radiation environment of the premises.

 The closest in technical essence and the achieved result is an X-ray protective material containing a polymer compound and an organic compound of a heavy metal.

The disadvantages of the known material are low X-ray protective properties, low heat resistance (up to 100 ^o C).

 The purpose of the invention is the increase of X-ray protective properties and heat resistance of the material.

 This goal is achieved in that the X-ray protective material containing polymer and organic compounds of a heavy metal further comprises maleic anhydride and tetraethoxysilane. An epoxy oligomer is used as a polymer compound, and lead stearate and lead polyethylsiliconate as the organic compound of a heavy metal in the following ratio, wt.

Epoxy Oligomer 5.0-9.0
Maleic anhydride 3.0-4.0
Lead Stearate 0.3-0.5
Lead Polyethylsiliconate 85.5-90
Tetraethoxysilane 0.7-1.5
The use of lead stearate promotes the plasticization of the composition, and the use of tetraethoxysilane ensures a homogeneous matrix by reducing the viscosity of the system, and also increases the heat resistance of the material.

 The use of this composition allowed to prepare a homogeneous material.

 As the epoxy polymer used resin brand ED-20 (TU-6-05-1584-86). Lead polyethylsiliconate (TU-2257-001-10406470-94) is used as a filler.

 The proposed coating composition is obtained by hot pressing.

Example. In a mechanical mixer, the calculated amount of epoxy polymer and tetraethoxysilane is mixed for 20 minutes at 50-60 ^° C. Then, the calculated amount of lead polyethylsiliconate and maleic anhydride is introduced into the composition. The mixture is stirred for 15-20 minutes at 50-60 ^o C. Enter the calculated amount of lead stearate and mix for 5-10 minutes.

The prepared raw material composition is loaded into the mold and pressed under a specific pressure of 100 MPa, the temperature is raised to 150-170 ^o C for 10 minutes The mold with the sample under pressure is cooled to 80-90 ^o C. Relieve pressure to atmospheric.

 The compositions of the proposed materials are given in table 1. The properties of the X-ray protective material are given in table 2.

Table analysis 2 shows that the proposed X-ray protective material has significantly higher x-ray protective characteristics. So, at an energy of E 20, 80 and 120 keV, the linear attenuation coefficient is 5, 2.7 and 4 times higher, respectively, than in the known material. The heat resistance of the proposed material is increased by 45-50 ^o C.

 Thus, the proposed X-ray protective material has high operational characteristics and can be used as an effective radiation-protective material for the biological protection of staff and patients, for example, in medical X-ray diagnostics. The application of the proposed radiation-protective material expands the range of X-ray protective materials.

Claims (1)

 X-ray protective material containing a polymeric compound and an organic compound of a heavy metal, characterized in that it additionally contains maleic anhydride and tetraethoxysilane, an epoxy oligomer is used as a polymeric compound, and lead stearate and lead polyethyl silicate as an organic compound of a heavy metal in the following ratio of components, wt . Epoxy Oligomer 5 9
Maleic anhydride 3 4
Lead stearate 0.3 0.5
Lead Polyethylsiliconate 85.5 90.0
Tetraethoxysilane 0.7 1.5s

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