Alloy Clsrm 58,5-20 (Clsrm 585-200)
Alloy ZlSrM 97-2 (ZlSrM 970-20)
Alloy ZlSrM 58.3-20 (ZlSrM 583-200)
Alloy ZlSrM 58.3-30 (ZlSrM 583-300)
Alloy ZlSrM 58,3-8 (ZlSrM 583-80)
Alloy ZlSrM 58.5-20 (ZlSrM 585-200)
Alloy ZlSrM 58.5-30 (ZlSrM 585-300)
Alloy ZlSrM 58.5-8 (ZlSrM 585-80)
Alloy ZlSrM 75-12,5 (ZlSrM 750-125)
Alloy ZlSrM 75-15 (ZlSrM 750-150)
Alloy ZlSrM 90-4 (ZlSrM 900-40)
Alloy ZlSrM 93-4,5 (ZlSrM 930-45)
Alloy ZlSrM 95.8-2 (ZlSrM 958-20)
Alloy ZlSrM 95-2,5 (ZlSrM 950-25)
Alloy ZlSrM 96-3 (ZlSrM 960-30)
Alloy ZlSrM 50-10 (ZlSrM 500-100)
Alloy ZlSrM 98-1.5 (ZlSrM 980-15)
Alloy ZlSrM 99-0.5 (ZlSrM 990-5)
Alloy ZlSrNTs 75-15-7,5 (ZlSrNTs 750-150-75)
Alloy ZlSrNtsM 58,5-8-8,2-2,5 (ZlSrNtsM 585-80-82-25)
Alloy ZlSrPd 58.5-25.5-16 (ZlSrPd 585-255-160)
Alloy ZlSrPd 75-10-15 (ZlSrPd 750-100-150)
Alloy ZlSrPdKd 58.5-28-10 (ZlSrPdKd 585-280-100)
Alloy ZlSrPdM 37.5-10-3.8 (ZlSrPdM 375-100-38)
Alloy ZlSrPdN 75-7-14 (ZlSrPdN 750-70-140)
Alloy ZlSrPdN 75-9-14 (ZlSrPdN 750-90-140)
Alloy ZlSrPdNKd 75-9-8,5-4 (ZlSrPdNKd 750-90-85-40)
Alloy ZlSrPdC 58.5-28.7-10 (ZlSrPdC 585-287-100)
Alloy ZlSrPlM 75-8-9 (ZlSrPlM 750-80-90)
Alloy ZlPl 90-10 (ZlPl-10)
Alloy ZLM 58.3 (ZLM 583)
Alloy ZLM 90 (ZLM 900)
Alloy ZLM 91.6 (ZLM 916)
Alloy ZLM 98 (ZLM 980)
Alloy ZlMNTs 75-12,5-10-2,5 (ZlMNTs-12,5-10-2,5)
Alloy ZlN 95 (ZlN-5)
Alloy ZlNM 7,7-1,5
Alloy ZlNTsM 58.5-12.5-4 (ZlNTsM 585-125-40)
Alloy ZlNTSM 75-7,5-2,5 (ZlNTSM 750-75-25)
Alloy ZlPd 60-40 (ZlPd-40)
Alloy ZlPd 80-20 (ZlPd-20)
Alloy ZlPd 84-16 (ZlPd-16)
Alloy ZlPdPl 60-30-10 (ZlPdPl-30-10)
Alloy ZlSrM 50-20 (ZlSrM 500-200)
Alloy ZlPl 93-7 (ZlPl-7)
Alloy ZlPl 95-5 (ZlPl-5)
Alloy ZlPl 98-2 (ZlPl-2)
Alloy ZlSr 58.3-41.7 (ZlSr 583-417)
Alloy ZlSr 58.5-41.5 (ZlSr 585-415)
Alloy ZlSr 60-40 (ZlSr 600-400)
Alloy ZlSr 75-25 (ZlSr 750-250)
Alloy ZlSr 99-1 (ZlSr 990-10)
Alloy ZlSrM 33,3-33,4 (ZlSrM 333-333)
Alloy ZlSrM 37.5-10 (ZlSrM 375-100)
Alloy ZlSrM 37.5-16 (ZlSrM 375-160)
Alloy ZlSrM 37.5-2 (ZlSrM 375-20)
Alloy ZlSrM 37.5-25 (ZlSrM 375-250)
Designation
Name |
The value |
Designation GOST Cyrillic |
ЗлСрМ 58,5-20 |
Designation GOST Latin |
ZlCpM 58,5-20 |
Transliteration |
ZlSrM 585-20 |
The chemical elements |
AuAgCu 58,5-20 |
Name |
The value |
Designation GOST Cyrillic |
ЗлСрМ 585-200 |
Designation GOST Latin |
ZlCpM 585-200 |
Transliteration |
ZlSrM 585-200 |
The chemical elements |
AuAgCu 585-200 |
Description
Alloy Clsrm 58,5−20 used: for production of sliding contacts; jewellery for personal adornment (rings with artistic treatment, earrings, medallions, pendants, brooches, chains, bracelets, clips, cuff links, watch cases); ritual and ceremonial items (wedding rings, crosses).
Note
The gold-silver-copper alloy of 585-th sample.
Standards
Name |
Code |
Standards |
Sheets and stripes |
В53 |
GOST 24552-81 |
Non-ferrous metals, including rare metals, and their alloys |
В51 |
GOST 30649-99, GOST Р 51152-98, GOST 6835-2002, TU 117-1-804-95, TU 1995-804-05785324-2005 |
Classification, nomenclature and general norms |
В50 |
GOST 6563-75 |
Chemical composition
Standard |
Fe |
Cu |
Sb |
Pb |
Bi |
O |
Ag |
Au |
GOST 30649-99 |
≤0.15 |
The rest |
≤0.005 |
≤0.005 |
≤0.005 |
≤0.007 |
19.5-20.5 |
58.5-59 |
GOST 6835-2002 |
≤0.15 |
20.5-22 |
≤0.005 |
≤0.005 |
≤0.005 |
- |
19.5-20.5 |
58.2-58.8 |
Au is the base.
According to GOST 6835-2002 the amount of normalized impurities is ≤ 0.16%.
According to GOST 30649-99 the chemical composition is given for the jewelry alloy YuZlSrM 58,5-20 (ЮЗлСрМ 585-200). The sum of the normalized impurities is ≤ 0.170%.
Physical characteristics
Temperature |
r, кг/м3 |
20 |
13600 |
A description of the physical symbols
Name |
Description |
r |
Density |
Technological properties
Name |
The value |
Workability by cutting |
The best machinability of the alloy in fine condition, obtained by heat treatment of the pre-deformed alloy. Cutting, including diamond, is recommended in a hardened condition that increases hardness by 30-50 %. |
Pressure treatment |
Suitable for all types of cold treatment. |
Casting |
Suitable for all types of casting. Among the gold-silver-copper alloy has better castability (the ratio silver:copper, close to 1:1. |