Index of Alloy Properties 



343 



BRASSES, TIS— Continued 

 Subroom Temperature: 



elongation, per cent, 298 



reduction of area, per cent, 298 



tensile strength, 298 



yield strength, 298 

 Elevated Temperature: 



coefficient of expansion, 152 



elongation, per cent, 157 



melting point, 152 



reduction of area, per cent, 157 



tensile strength, 157 

 General: 



annealing, 133, 154, 156 



cold working, 133 



corrosion resistance, 133 



hot working, 133, 152 



machineability, 133 



structural, 133, 152 



uses, 133 

 Low-leaded Naval Brass (60% Cu, 0.75% Sn, 0.50% Pb) 

 Room Temperature: 



apparent elastic Umit, 161, 162 



coefficient of expansion, 161 



density, 161 



electrical conductivity, 161 



elongation, per cent, 161-163 



hardness, 161-163 



modulus of elasticity, 161 



reduction of area, per cent, 161-163 



tensile strength, 161, 162 



thermal conductivity, 161 



yield strength, 161-163 

 Elevated Temperature: 



coefficient of expansion, 161 



melting point, 161 

 General: 



anneaUng, 133, 162 



cold working, 133 



corrosion resistance, 133 



hot working, 133, 161 



machineabUity, 133 



structural, 133, 161 



uses, 133 

 Medium-leaded Naval Brass (60% Cu. 0.75% Sn, 0.75% Pb) 

 Room Temperature: 



apparent elastic limit, 163, 164 



coefficient of expansion, 163 



density, 163 



electrical conductivity, 163 



elongation, per cent, 163-165 • 



hardness, 163-165 



modulus of elasticity, 163 



reduction of area, per cent, 163-165 



tensile strength, 163, 164 



thermal conductivity, 163 



yield strength, 163-165 

 Elevated Temperature: 



coefficient of expansion, 163 



melting point, 163 

 General : 



annealing, 133, 164 



cold working, 133 



corrosion resistance, 133 



hot working, 133 



machineability, 133 



structural, 133, 163 



uses, 133 



BRASSES, Tl^— Continued 



High-leaded Naval Brass (60% Cu, 1% Sn, 2% Pb) 

 Room Temperature: 



apparent elastic Umit, 165, 166 



coefficient of expansion, 165 



density, 165 



electrical conductivity, 165 



elongation, per cent, 165-167 



hardness, 165-167 



modulus of elasticity, 165 



reduction of area, per cent, 165-167 



shear strength, 167 



tensile strength, 165, 166 



thermal conductivity, 165 



yield strength, 165-167 

 Elevated Temperature: 



coefficient of expansion, 165 



melting point, 165 

 General: 



annealing, 133, 166 



cold working, 133 



corrosion resistance, 133 



hot working, 133 



machineability, 133 



structural, 133, 165 



uses, 133 

 Modified Manganese Bronze (61% Cu, 0.75% Sn, 0.1% Mn) 



(Coal-screen Bronze) 

 Room Temperature: 



apparent elastic limit, 171, 172 



coefficient of expansion, 171 



density, 171 



electrical conductivity, 171 



elongation, per cent, 171, 173 



hardness, 171, 173 



modulus of elasticity, 171 



tensile strength, 171-173 



thermal conductivity, 171 



yield strength, 171-173 

 Elevated Temperature: 



coefficient of expansion, 171 



melting point, 171 

 General: 



annealing, 133, 172 



cold working, 133 



corrosion resistance, 133 



hot working, 133 



machin ability, 133 



structural, 133 



uses, 133 

 Manganese Eronze (58% Cu, 1% Sn, 0.75% Fe, 0.5% Mn) 

 Room Tern lerature: 



apparent elastic limit, 168, 169 



density, ' 68 



elastic lin it, 174 



electrical conductivity, 168 



elongation per cent, 168, 169, 170, 174, 298 



hardness, 168, 169, 174 



impact strength, 298 



modulus of elasticity, 168, 174 



reduction of area, per cent, 168-170, 298 



shear strength, 170 



tensile strength, 168-170, 174, 298 



thermal condu itivity, 168, 170 



torsional strength, 174 



yield strength, 168, 169, 298 

 Subroom Temperature: 



elongation, per cent, 298 



impact strength, 298 



