C92700 / CDA 927 Leaded Tin Bronze Alloys

Specification :

CDA ASTM Asarcon SAE AMS Federal Military Other
C927 B505
B505M
102 63
J461
J462

Chemical Composition :

Cu%1 Pb% Sn% Zn% Fe% P%2 Ni%3 Al% S% Sb% Si%
Chemical Composition according to ASTM B505/B505M-18
1In determining Cu min., Cu may be calculated as Cu + Ni.   2For continuous castings, P shall be 1.5%, max.   3Ni value includes Co.
Note: Cu + Sum of Named Elements, 99.3% min. Single values represent maximums.
86.00-
89.00
1.00-
2.50
9.00-
11.00
0.70 0.20 0.25 1.00 0.005 0.05 0.25 0.005

Machinability :

Copper Alloy UNS No. Machinability Rating Density (lb/in3 at 68 °F)
C927 45 0.317

Mechanical Properties :

Mechanical Properties according to ASTM B505/B505M-18
Tensile Strength, min Yield Strength, at .5% Extension Under Load, min Elongation, in 2 in. or 50 mm min Brinell Hardness (500 kg load) Remarks
ksi MPa ksi MPa % typical BHN
38 252 20 138 8 77

Physical Properties :

Physical Properties provided by CDA
US Customary Metric
Melting Point – Liquidus 1800 °F 982 °C
Melting Point – Solidus 1550 °F 843 °C
Incipient Melting 600 °F 316 °C
Density 0.317 lb/in3 at 68 °F 8.78 gm/cm3 at 20 °C
Specific Gravity 8.78 8.78
Electrical Conductivity 11% IACS at 68 °F 0.064 MegaSiemens/cm at 20 °C
Thermal Conductivity 27.2 Btu/sq ft/ft hr/°F at 68 °F 47 W/m at 20 °C
Coefficient of Thermal Expansion 68-392 10 · 10-6 per °F (68-392 °F) 17.3 · 10-6 per °C (20-200 °C)
Specific Heat Capacity 0.09 Btu/lb/°F at 68 °F 377.1 J/kg at 293 °C
Modulus of Elasticity in Tension 16000 ksi 110000 MPa

Fabrication Properties :

Fabrication Properties provided by CDA
Joining Technique Suitability
Soldering Excellent
Brazing Good
Oxyacetylene Welding Not Recommended
Gas Shielded Arc Welding Not Recommended
Coated Metal Arc Welding Not Recommended

Thermal Properties :

Thermal Properties provided by CDA
Treatment Temp./Time – US Temp./Time – SI
Stress Temperature 500 260
Solution Minimum
Solution Maximum
Solution Time 0.0
Solution Medium
Precipitation Value
Precipitation Time
Precipitation Medium
Annealing Minimum
Annealing Maximum
Annealing Time
Hot Works Minimum
Hot Works Maximum