MN19 alloy (cupronickel)
Alloy MNTS16-29-1.8
Alloy MNMts43-0.5 (Kopel)
Alloy MNMts5-3.7
Alloy MNMz60-20-20
Alloy MNMts68-4-2
Alloy MNMtsAZh3-12-0.25-0.2
Alloy MNMtsAZh3-12-0,3-0,3 (Manganin)
Alloy MNMtsAZhVTNb40-2-1,5-1,4 (MN40S)
Alloy MNMZh40-1,4-0,45
Alloy MNTs12-24
Alloy MNTs15-20 (Neusilber)
Alloy MNTs18-20
Alloy MNC18-27
Alloy MNMts4.5-1.5 (Alloy A)
Alloy Neusilber 30
Alloy NK
Alloy NK2.4 (Cilin)
Alloy HM25
Alloy NM40A
Alloy NM60A
Alloy NMZhMz28-2,5-1,5
Alloy NMMKZhMC30-4-2-1 (VKM)
Alloy NMMZTA26-1,5-1,1-0,5
Alloy NMCAT3-1,5-0,6
Alloy NMCATC1-1,5-2,5-0,15
Alloy NHC9-0.9 (Silch)
Alloy Alloy 273
Alloy MNA13-3 (Kunial A)
Castolin Alloy
Alloy MN0.6 (Alloy TP)
Alloy MN10
Alloy MN15
Alloy MH16 (Alloy TB)
Alloy MH17 (Alloy B)
Alloy MN19 (Melchior)
Alloy MN2.15
Alloy MN23
Alloy MN25
Alloy MN45 (Constantan)
Alloy MN6
Alloy MN95-5
Alloy MNMts40-1.5 (Constantan)
Alloy MNA6-1.5 (Kunial B)
Alloy MNAZHMZ6-0.8-0.8-0.6 (BS-3)
Alloy MNAKH11-2,5-1,0-0,8 (Alloy 131)
Alloy MNAHMC15-3,5-2-3 (Alloy 538)
Alloy MNAHMc20-4-3-4 (Alloy 546; Camelon)
Alloy MNAXMZ4,5-4,5-0,7-2,5 (Kamelin)
Alloy MNZh5-1
Alloy MNZh9.3-0.5 (Menigel)
Alloy MNZHKT5-1-0,2-0,2
Alloy MNZHMZ10-1-1
Alloy MNZHMZ30-1-1
Alloy MNMts3-12 (Manganin)
Designation
| Name |
The value |
| Designation GOST Cyrillic |
МН19 |
| Designation GOST Latin |
MH19 |
| Transliteration |
MN19 |
| The chemical elements |
CuNi19 |
| Name |
The value |
| Designation GOST Cyrillic |
Мельхиор |
| Designation GOST Latin |
Melxiop |
| Transliteration |
Melhior |
| The chemical elements |
Cuельхиор |
Description
Alloy MN19 is used: for the manufacture of semi-finished products (strips, sheets, rods and tubes); as planirovochnye material for medical instruments; fine mechanics parts; parts of vacuum devices.
Standards
| Name |
Code |
Standards |
| Tapes |
В54 |
GOST 1018-77, GOST 5187-2003, OST 4.021.085-92, TU 48-0810-206-93, TU 48-0820-387-89, TU 48-21-624-79 |
| Non-ferrous metals, including rare metals, and their alloys |
В51 |
GOST 28873-90, GOST 492-2006, OST 4.021.009-92 |
| Sheets and stripes |
В53 |
GOST 5063-73 |
| Bars |
В55 |
TU 48-21-191-72, TU 11-84 |
Chemical composition
| Standard |
C |
S |
P |
Mn |
Si |
Ni |
Fe |
Cu |
As |
Zn |
Sb |
Pb |
Bi |
O |
Mg |
H |
Ni+Co |
| TU 48-21-191-72 |
≤0.05 |
≤0.01 |
≤0.01 |
≤0.3 |
≤0.15 |
- |
≤0.5 |
The rest |
≤0.01 |
≤0.3 |
≤0.005 |
≤0.005 |
≤0.002 |
- |
≤0.05 |
- |
18-20 |
| TU 11-84 |
≤0.05 |
≤0.005 |
≤0.01 |
≤0.001 |
≤0.01 |
18-20 |
≤0.07 |
The rest |
≤0.001 |
- |
- |
≤0.001 |
≤0.001 |
≤0.003 |
≤0.005 |
≤0.0006 |
- |
| GOST 1018-77 |
≤0.05 |
≤0.01 |
≤0.01 |
≤0.3 |
≤0.05 |
- |
≤0.3 |
The rest |
≤0.01 |
≤0.3 |
≤0.005 |
≤0.005 |
≤0.002 |
- |
≤0.05 |
- |
18-20 |
Cu is the basis.
According to GOST 492-2006, the total mass fraction of impurities is ≤ 1.50%. In the alloy, the mass fraction of cobalt ≤ 0.50% is allowed due to the mass fraction of Ni + Co, which is not taken into account in the total amount of impurities. The mass fraction of cobalt exceeding 0.50% is taken into account in the total amount of impurities. In the alloy, in agreement with the consumer, it is possible to determine the mass fraction of tin. In the alloy, the mass fraction of lead is allowed to be ≤ 0.050%. In agreement with the consumer, the mass fraction of phosphorus is allowed to be ≤ 0.020%. In the MH19 nickel, which is used for making coins, an increase in the content of the manganese or iron mass fraction is possible, more than indicated in the table, but the sum of them should not exceed 1.30%. The following impurity content is established in MN19, used for the production of special-purpose tapes: Mn ≤ 0.010%, Mg ≤ 0.010%, Si≤ 0.15%, Fe≤ 0.30%, total impurities ≤ 0.60%.
According to TU 11-84, Hе0.021.153 The chemical composition is given for an alloy of the grade MN19-VP (Melchior). The total amount of all impurities in the alloy is not more than 0.20%.
Mechanical characteristics
| Section, mm |
σB, MPa |
d5, % |
d |
Brinell hardness number, MPa |
| Cold-rolled steel strip as supplied by GOST 1018-77 (samples transverse) |
|
290-370 |
- |
≥32 |
- |
| Cold-rolled steel strip as supplied by GOST 5187-2003 (samples transverse) |
| ≥0.5 |
≥290 |
- |
≥25 |
- |
| 0.5 |
≥290 |
- |
≥22 |
- |
| ≥0.5 |
≥390 |
- |
≥2.5 |
- |
| 0.5 |
≥390 |
- |
- |
- |
| Cold-rolled steel strip as supplied by OST 4.021.085-92 (samples transverse) |
| 0.1-1 |
≥390 |
- |
≥2.5 |
- |
| Cold-rolled strip in the delivery state according to GOST 5063-73 (samples transverse) |
|
≥290 |
- |
≥30 |
- |
|
≥390 |
- |
≥3 |
- |
| Bars drawn and cold-rolled steel in the delivery state THAT 48-21-191-72 |
| - |
≥294 |
- |
- |
- |
| - |
≥392 |
- |
- |
- |
| Rolled steel in delivery condition (longitudinal samples) |
|
300-400 |
35-40 |
- |
≥70 |
|
500-600 |
3-5 |
- |
≥117 |
Description mechanical marks
| Name |
Description |
| Section |
Section |
| σB |
Limit short-term strength |
| d5 |
Elongation after rupture |
| d |
Elongation after rupture |
Physical characteristics
| Temperature |
r, кг/м3 |
| 20 |
8900 |
A description of the physical symbols
| Name |
Description |
| Е |
The normal elasticity modulus |
| l |
Coefficient of thermal conductivity |
| R |
UD. the resistivity |
| С |
Specific heat |
Technological properties
| Name |
The value |
| Weldability |
Well weldable alloy. |
| Pressure treatment |
Alloy poorly deformable in the cold state. |
| Macrostructure and contamination |
In pudah alloy MN19-VP on the other 11-84 Яе0.021.153 THAT allowed the presence of non-metallic inclusions is not more than 3 points according to GOST 1778. |
| Corrosion resistance |
Corrosion resistant. |
