C99500 Leaded Red Brass

St. Paul
Foundry

St. Paul Foundry 954 Minnehaha Ave West St. Paul MN 55104 651-488-5567 www.stpaulfoundry.com

Simplifying the Supply Chain For High Knowledge Content Components

Compare Alloy Properties

Alloy Specifications, Chemistries, and Technical Data

C99500 LEADED RED BRASS

Aliases
CDA NUMBER	C99500

Specification Composition
	Minimum	Maximum
Lead (Pb)		0.09
Zinc (Zn)	0.5	2
Iron (Fe)	3	5
Nickel (Ni)	3.5	5.5
Aluminum (Al)	0.5	2
Silicon (Si)	0.5	2
Copper + Sum of Named Elements	99.7

Typical Properties
	Heat Treat State	Typical
Modulus of Elasticity (ksi)		19000
Hardness (Brinell) (HB @ 500kg)		196
Machinability (% of free cutting brass)		50
Impact Strength (Izod) (ft-lb)		0.0
Coefficient of Thermal Expansion (per F @ 68-400F)		.0000083
Specific Heat (Btu/lb/F @ 68F)		.09
Electrical Conductivity (% IACS @ 68F)		10
Density (lb/cu.in. @ 68F)		.300
Patternmakers Shrinkage (in/ft)		3/16
Drossing		Medium
Gassing		Low
Fluidity		Medium
Shrinkage		High
Casting Yield		Low

Applications

Boat Hardware
Electrical Hardware
Fire Equipment
Fittings
Hydraulic Pressure Castings
Impellers
Injectors
Ornamental Fixtures
Plumbing Goods
Small Gears
Valves - Low Pressure Bodies
Valves - Trim
Valves - Vapor
Water Pump Parts

St. Paul Foundry 954 Minnehaha Ave West St. Paul MN 55104 651-488-5567 www.stpaulfoundry.com

St. Paul Foundry
954 Minnehaha Avenue West
Saint Paul, Minnesota 55104
(651) 488-5567 Fax: (651) 488-0908
Sales and Estimating: (651) 312-4734 email

Directions

Alloy Guide Sheet Terms of Use

Use Good Design Principles

1. St. Paul Foundry is providing this information on metal characteristics for informational purposes only. Before making a final decision on alloy selection consider the following and all other appropriate design and specification principles. Please note that this is not an exhaustive list.

2. Consult the appropriate specification from an accredited specifying body (ASTM, SAE, Federal or Military) to determine current minimum values of this alloy.

3. Use appropriate design safety factors.

4. Use Failure Modes and Effects Analysis to help identify possible weaknesses in designs and specifications.

5. Use computerized stress analysis tools.

6. Use appropriate certification requirements for your casting suppliers. These may include test bars, chemical certifications, radiography, dye penetrant or other non-destructive testing methods.

7. Test your design to failure in a controlled environment. Then test it to failure in a simulation of its end use.

8. You and you alone are responsible for the suitability of your design and the materials that you select.

Disclaimer

WHILE EVERY EFFORT IS MADE BY ST. PAUL FOUNDRY (SPF) TO ENSURE ACCURACY, THIS INFORMATION IS PROVIDED FOR GENERAL INFORMATION PURPOSES ONLY AND NOT FOR ANY OTHER PURPOSE. BY ACCESSING THIS INFORMATION, YOU AGREE THAT IT MAY BE REVISED AT ANY TIME, IT IS PROVIDED “AS IS” AND WITHOUT ANY EXPRESS OR IMPLIED WARRANTY, THAT NO WARRANTY OR REPRESENTATION IS MADE ABOUT ITS CONTENT OR SUITABILITY FOR ANY PURPOSE, AND THAT SPF EXPRESSLY DISCLAIMS WARRANTIES OF MERCHANTABILITY AND FITNESS. YOU ASSUME ALL RISK AND LIABILITY FOR ANY LOSS, DAMAGE, CLAIM, OR EXPENSE RESULTING FROM YOUR REVIEW, USE, OR POSSESSION OF THIS INFORMATION.