Alloy 16ЮХ (16ЮИХ)
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Alloy 49K2FN
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Alloy 49KF2
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Alloy 79NM (80NM)
Alloy 80H2M
Alloy 80NCHS
Alloy 81NMA
Alloy 82N6KhB (H32Kh6Yu)
Alloy 83NF
Alloy 33H2X
Alloy 10Su
Alloy 12Yu
Alloy 16X
Alloy 16YuX (16YuX)
Alloy 27KH
Alloy 30NG (EP456)
Alloy 31H3X
Alloy 31H4X
Alloy 31H6X
Alloy 31H8X
Alloy 40NKM
Alloy 33H5X
Alloy 34H2X
Alloy 34NKM
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Alloy 35NKHSP
Alloy 36KNM
Alloy 36N11H (EP297)
Alloy 36NK11
Alloy 40H
Designation
| Name | The value |
|---|---|
| Designation GOST Cyrillic | 16ЮХ |
| Designation GOST Latin | 16JuX |
| Transliteration | 16YuH |
| The chemical elements | 16AlCr |
| Name | The value |
|---|---|
| Designation GOST Cyrillic | 16ЮИХ |
| Designation GOST Latin | 16JuIX |
| Transliteration | 16YuIH |
| The chemical elements | 16AlIrCr |
Description
Alloy 16ЮХ used: for the manufacture of cores of magnetic heads and other electronic components; parts aircraft instrumentation with high resistance to fast neutron irradiation at temperatures up to +100 °C.
Note
Magnetically soft wrought iron base.
The alloy has high wear resistance.
Standards
| Name | Code | Standards |
|---|---|---|
| Sheets and stripes | В33 | OST 4-020.065-78, TU 14-1-469-73 |
Chemical composition
| Standard | C | Mn | Cr | Si | Fe | Al |
|---|---|---|---|---|---|---|
| TU 14-1-469-73 | ≤0.02 | ≤0.01 | 1.7-2.5 | ≤0.3 | The rest | 15.8-16.4 |
Fe is the basis.
According to TU 14-1-469-73 the chemical composition is given for the alloy 16YuX. When adding 2.0-3.0% of rhenium due to iron, the alloy has a marking of 16Yuikh-VI.
According to TU 14-1-469-73 the chemical composition is given for the alloy 16YuX. When adding 2.0-3.0% of rhenium due to iron, the alloy has a marking of 16Yuikh-VI.
Technological properties
| Name | The value |
|---|---|
| Features of production | Alloy have a low magnetostriction and, therefore, have a high deformation stability. The addition of rhenium at the expense of iron (alloy 16ЮИХ-VI) allows to achieve even lower magnetostriction and higher permeability in comparison with the alloy 16ЮХ-VI. Both alloys possess high electrical resistivity (1.5 μω-m) and, consequently, reduced losses in eddy currents, which is an advantage for operation at higher frequencies. |
