RADIO PROTECTIVE GLASSES FOR DIFFERENT PURPOSE PRODUCTS
Description of the project: Radioprotective materials are used to solve the problems of electromagnetic compatibility of radio electronic devices, to protect computer information processing systems from unauthorized access, to protect biological objects from electromagnetic radiation, as well as to reduce the radar signature of military and civilian objects. Glassy materials will make it possible to create radio-absorbing screens with a high level of absorption of electromagnetic radiation in the microwave frequency range.
Benefits:
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Technical and economic indicators |
The value of indicators at the beginning of the planning period |
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planned sample |
the best domestic analogue |
the best foreign analogues |
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radioprotective glass TU 21-54-41-73 |
glass Advantex |
EN-1 glass |
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Frequency range, GHz |
0.03 – 78 |
– |
0.03 – 30 |
– |
– |
|
Attenuation, dB |
20-30 |
– |
20-40 |
– |
– |
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The dielectric constant |
from 3 to 9 |
– |
– |
7.2
|
5.1 |
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Light transmission,% |
70–90 |
– |
– |
– |
– |
|
Temperature dependence of viscosity |
1013.5 – 530-550 оС 1012 – 580-600 оС |
– |
– |
1013.5 – 736 ° C 1012 – 916 оС |
1013.5 – 437 oC 1012 – 482 oC |
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Heat resistance, оС |
120-150 |
– |
– |
|
– |
|
Temperature coefficient of linear expansion (TCLE), K – 1 |
(30-60) ∙ 10-7 |
– |
– |
– |
47 ∙ 10–7 |
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Gas permeability |
Gas tight. |
– |
– |
|
– |
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Gas release |
is absent |
– |
– |
|
– |
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Density, kg / m3 |
2600-2800 |
– |
– |
2620 |
– |
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Cooking temperature, оС |
1450 ± 25 |
– |
1700-2000 |
1600 |
1550 |
|
Forming temperature, оС |
1200-1250 |
– |
1550-1650 |
– |
1260 |
|
Annealing temperature, оС |
580 ± 10 |
– |
1080-1100 |
– |
– |
Results achieved: carried out as part of educational research work
Market and consumers:
- to create radioprotective screens that significantly reduce the level of electromagnetic fields in special premises;
- for the design of radio-absorbing and radio-protective products intended for anechoic shielded chambers (BEC) and rooms;
- to create glass beads used as filler in paints for military equipment;
- to create radioprotective materials and structures with specified parameters;
- as radioprotective glass intended for window frames in childcare facilities, medical institutions and environmentally friendly residential buildings;
- as ophthalmic lenses;
- as dual-use radioprotective glasses.