Bronze БрК1Н3 (Brkn1-3)
Bronze БрХ0,6Цр0,05 (БрХЦр0,6-0,05)
Bronze BrN10,5A0,5 (BrNA10,5-0,5)
Bronze БрН2,5Х0,7К0,6 (БрНХК2,5-0,7-0,6)
Bronze БрН5Мц2Т0,1 (БрНМцТ5-2-0,1)
BrNTsr bronze
Bronze BrSr0,1
Bronze БрТ5Х0,5 (БрТХ5-0,5)
Bronze БрХ0,2Нб0,1 (Alloy 204А; БрХНб0,2-0,1)
Bronze БрХ0,3Цр0,09 (БрХЦр0,3-0,09)
Bronze БрХ0,4Ко0,4Кр0,2Мг0,04 (Alloy №50)
Bronze БрХ0,4Нб0,25 (Alloy 204; БрХНб0,4-0,25)
Bronze БрХ0,5В0,2Цр0,2 (ХВЦр0,5-0,2-0,2)
Bronze БрХ0,6Т0,5 (БрХТ0,6-0,5)
Bronze BrMc5
BrCr0.7 bronze
Bronze БрХ0,8
Bronze BrX1
Bronze BrC1Cr
Bronze BrChNb
Bronze BrCNT
Bronze BrCrK
Bronze BrCrTV
Bronze BrCr0,2
Bronze BrCr0,3
Bronze BrCr0,4
Bronze BrCr0.7
Bronze БрА9Ж4Н4Мц1 (БрАЖНМц9-4-4-1)
Bronze BrB2
Bronze БрАЖ1,5 (БрАЖ10-1,5)
Bronze БрААЖ3Мц1,5 (БрАЖМц10-3-1,5)
Bronze БрААЖ10Ж4Н4 (БрАЖН10-4-4)
Bronze БрАА10Мц2 (БрАМц10-2)
Bronze BrA5
Bronze БрА6Мг1 (БрАМг6-1)
Bronze BrA7
Bronze БрА8,5Ж4Н5Мц1,5 (БрАЖНМц8,5-4-5-1,5)
Bronze БрАА9Ж4 (БрАЖ9-4)
Bronze БрА9Мц2 (БрАМц9-2)
Bronze БрБ1,7НТ (БрБНТ1,7)
Bronze БрБ1,9НТ (БрБНТ1,9)
Bronze БрБ1,9НТМг (БрБНТ1,9Мг)
Bronze BrN1,5Kr0,5 (BrNKr1,5-0,5)
Bronze BrB2,5
Bronze БрК0,4Х0,6Кo1,6 (БрКХКo0,4-0,6-1,6)
Bronze BrK1H3 (BrKN1-3)
Bronze БрК3Мц1 (БрКМц3-1)
Bronze BrKd0,5X0,15 (BrKdX0,5-0,15)
Bronze BrKd1
BrKo3Mts10 (BrKoMts3-10) bronze
Bronze BrMg0.03Cr0.035 (BrMgCr0.03-0.035)
Bronze BrMg0,3
Bronze BrMg0,5
Bronze BrMg0,8
Bronze BrMc12A8Zh3N2 (BrMcAzHN12-8-3-2)
Designation
| Name |
The value |
| Designation GOST Cyrillic |
БрК1Н3 |
| Designation GOST Latin |
BpK1H3 |
| Transliteration |
BrK1N3 |
| The chemical elements |
BaCo1Ni3 |
| Name |
The value |
| Designation GOST Cyrillic |
БрКН1-3 |
| Designation GOST Latin |
BpKH1-3 |
| Transliteration |
BrKN1-3 |
| The chemical elements |
BaCoNi1-3 |
Description
Bronze БрК1Н3 used: for the production of profiled bars; corrosion resistant parts with high mechanical and technological properties, good sliding properties; performance parts in the motor industry; the guide sleeves.
Note
Corrosion resistant silicon bronze БрК1Н3 (Brkn1−3) has high mechanical and technological characteristics, good antifriction properties.
Standards
| Name |
Code |
Standards |
| Bars |
В55 |
GOST 1628-78 |
| Non-ferrous metals, including rare metals, and their alloys |
В51 |
GOST 18175-78, GOST 28873-90 |
Chemical composition
| Standard |
Mn |
Si |
Ni |
Fe |
Cu |
Al |
Zn |
Sn |
Pb |
| GOST 18175-78 |
0.1-0.4 |
0.6-1.1 |
2.4-3.4 |
≤0.1 |
The rest |
≤0.22 |
≤0.1 |
≤0.1 |
≤0.15 |
Cu is the basis.
According to GOST 18175-78, the total mass fraction of normalized impurities is ≤ 0.40%. As agreed by the manufacturer with the consumer, the content of impurities of arsenic, antimony and phosphorus can be normalized.
Mechanical characteristics
| Section, mm |
σB, MPa |
d10 |
| Round bars pressed extra virgin in the state of delivery according to GOST 1628-78 (longitudinal samples) |
| 20-80 |
≥490 |
≥10 |
Description mechanical marks
| Name |
Description |
| Section |
Section |
| σB |
Limit short-term strength |
| d10 |
Elongation after rupture |
Physical characteristics
| Temperature |
Е, ГПа |
r, кг/м3 |
R, НОм · м |
| 20 |
140 |
8800 |
50 |
A description of the physical symbols
| Name |
Description |
| Е |
The normal elasticity modulus |
| l |
Coefficient of thermal conductivity |
