Bronze Bro3c13s4 (БрОЦС3-13-4)
Bronze БрО3Ц8С4Н1 (БрОЦСН3-8-4-1)
Bronze БрО8Ц4 (БрОЦ8-4)
Bronze БрО8С21 (БрОС8-21)
Bronze БрО8С12 (БрОС8-12)
Bronze БрО8Н4Ц2 (БрОНЦ8,5-4-2)
Bronze БрО6Ц6С3 (БрОЦС6-6-3)
Bronze БрО6Ц6С2х (БрОЦС6-6-2х)
Bronze БрО6Ц4С2Н1 (БрОЦСН6-4-2-1)
Bronze БрО6С6Ц3
Bronze БрО6К2Ц1
Bronze БрО5Ц6С5 (БрОЦС5-6-5)
Bronze БрО5Ц5С5 (БрОЦС5-5-5)
Bronze БрО5С25 (БрОС5-25)
Bronze БрО4Ц8С5
Bronze БрО4Ц7С5 (БрОЦС3,5-7-5)
Bronze БрО4Ц4С17 (БрОЦС4-4-17)
Bronze БрО3Ц7С5Н1 (БрОЦСН3-7-5-1)
Bronze БрО3Ц6С5 (БрОЦС3-6-5)
Bronze БрО3Ц13С4 (БрОЦС3-13-4)
Bronze БрО3Ц12С5 (БрОЦС3-12-5)
Bronze БрО3,5Ц7С5
Bronze BrO19
Bronze БрО16С5 (БрОС16-5)
Bronze БрО10Ц2Н2 (БрОЦН10-2-2)
Bronze БрО10Ц2Н1,5 (БрОЦН10-2-1,5)
Bronze БрО10Ц2 (БрОЦ10-2)
Bronze БрО10Ф1 (БрОФ10-1)
Bronze БрО10Ф0,7Н0,5 (БрОФН10-0,7-0,5)
Bronze БрО10С2Н3 (БрОСН10-2-3)
Bronze БрО10С10 (БрОС10-10)
Designation
Name | The value |
---|---|
Designation GOST Cyrillic | БрО3Ц13С4 |
Designation GOST Latin | BpO3Ts13C4 |
Transliteration | BrO3Ts13S4 |
The chemical elements | BaSn3Zn13Pb4 |
Name | The value |
---|---|
Designation GOST Cyrillic | БрОЦС3-13-4 |
Designation GOST Latin | BpOTsC3-13-4 |
Transliteration | BrOTsS3-13-4 |
The chemical elements | BaSnZnPb3-13-4 |
Description
Bronze Bro3c13s4 used: for the production of ingots from scrap and waste of nonferrous metals and alloys used as charge material for the manufacture of tin foundry of bronze according to GOST Bro3c12s5 613.
Note
The alloy system Cu-Sn-Zn-Pb.
Standards
Name | Code | Standards |
---|---|---|
Non-ferrous metals, including rare metals, and their alloys | В51 | GOST 614-97 |
Chemical composition
Standard | S | P | Si | Ni | Fe | Cu | As | Al | Zn | Sn | Sb | Pb | Mg |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|
GOST 614-97 | ≤0.08 | ≤0.1 | ≤0.02 | ≤2 | ≤0.4 | The rest | ≤0.15 | ≤0.02 | 9-16 | 2.1-3.5 | ≤0.5 | 3-6 | ≤0.02 |
Cu is the basis.
According to GOST 614-97, the total mass fraction of impurities is ≤ 1.30%. The content of arsenic, magnesium, phosphorus and sulfur is determined at the request of the customer. Nickel can be included in the mass fraction of copper - in this case nickel in the sum of impurities is not taken into account. At the request of the consumer, the total amount of impurities of aluminum and silicon should not be more than 0.020%. For parts operating under pressure, the mass fraction of aluminum and silicon can be separately up to 0.050% of each.
According to GOST 614-97, the total mass fraction of impurities is ≤ 1.30%. The content of arsenic, magnesium, phosphorus and sulfur is determined at the request of the customer. Nickel can be included in the mass fraction of copper - in this case nickel in the sum of impurities is not taken into account. At the request of the consumer, the total amount of impurities of aluminum and silicon should not be more than 0.020%. For parts operating under pressure, the mass fraction of aluminum and silicon can be separately up to 0.050% of each.