356.0 Aluminum Silicon Magnesium

St. Paul
Foundry

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

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Alloy Specifications, Chemistries, and Technical Data

356.0 Aluminum

Aliases
ANSI AA NUMBER	356.0
Common Name	356
UNS Designation	A03560

Nearest Applicable Casting Standards
ASTM (B Series)	B26
Federal (QQ-C- Series)	601e
Military (Mil-C- Series)	21180c

Specification Composition
	Minimum	Maximum
Silicon (Si)	6.5	7.5
Iron (Fe)		0.6
Copper (Cu)		0.25
Manganese (Mn)		0.35
Magnesium (Mg)	0.2	0.45
Zinc (Zn)		0.35
Titanium (Ti)		0.25
Other (Total)		0.15

Specification Properties
(Heat Treat 'F' Denotes As Cast)	Heat Treat State	Minimum
Tensile Strength (ksi)	T51	25
Yield Strength (.5% extension under load) (ksi)	T51	20
Elongation (2 inch gauge length) (%)	T51	2
Tensile Strength (ksi)	T6	33
Yield Strength (.5% extension under load) (ksi)	T6	24
Elongation (2 inch gauge length) (%)	T6	3.5
Tensile Strength (ksi)	T7	34
Yield Strength (.5% extension under load) (ksi)	T7	30
Elongation (2 inch gauge length) (%)	T7	2
Tensile Strength (ksi)	T71	28
Yield Strength (.5% extension under load) (ksi)	T71	21
Elongation (2 inch gauge length) (%)	T71	3.5

Typical Properties
	Heat Treat State	Typical
Melting Range (Liquidus-Solidus)(F)		1035-1135
Resistance to Hot Cracking		E
Pressure Tightness		E
Fluidity		E
Solidification Shrinkage Tendency		E
Strength at Elevated Temperatures		G
Corrosion Resistance		VG
Machinability		F
Polishing		G
Gas Welding		E
Arc Welding		E
Brazing		No
Normally Heat Treated		Yes
Annodizing Appearance		Gray
Electroplating		E
Compressive Yield Strength (ksi)	T51	21
Hardness (Brinell) (HB @ 500kg)	T51	60
Shear Strength (ksi)	T51	20
Endurance Limit (K ksi)	T51	8
Electrical Conductivity (% IACS @ 68F)	T51	43
Thermal Conductivity (cal/sec/sq cm/cm/C @ 25C)	T51	0.4
Compressive Yield Strength (ksi)	T6	25
Hardness (Brinell) (HB @ 500kg)	T6	70
Shear Strength (ksi)	T6	26
Endurance Limit (K ksi)	T6	8.5
Electrical Conductivity (% IACS @ 68F)	T6	39
Thermal Conductivity (cal/sec/sq cm/cm/C @ 25C)	T6	0.36
Compressive Yield Strength (ksi)	T7	31
Hardness (Brinell) (HB @ 500kg)	T7	75
Shear Strength (ksi)	T7	24
Endurance Limit (K ksi)	T7	9
Electrical Conductivity (% IACS @ 68F)	T7	40
Thermal Conductivity (cal/sec/sq cm/cm/C @ 25C)	T7	0.37
Compressive Yield Strength (ksi)	T71	22
Hardness (Brinell) (HB @ 500kg)	T71	60
Shear Strength (ksi)	T71	20
Endurance Limit (K ksi)	T71	8.5
Electrical Conductivity (% IACS @ 68F)	T71	40
Thermal Conductivity (cal/sec/sq cm/cm/C @ 25C)	T71	0.36

Applications

Actuator
Adapter
Adapter - Bearing
Adapter Housing
Adapter Oilless Primer
Adapter Suction
Air Guide
Air Quide
Aircraft Fittings
Airframe Castings
Anchor
Antennae Base
Arm
Back Cover
Baffle Blower
Baffle Cast
Baja Shaft Log
Bar Stock
Base
Base Table
Bearing Holder
Bearing Housing
Bearing Retainer
Bell Housing
Bellow Mold
Blank
Block
Blower Baffle
Body
Body - Primer
Body - Volute
Body Valve
Body Volute
Bolt
Bonnet
Bottom Case
Bottom Transmission
Bracket
Bracket Blade Spring
Cannon Wheel Pattern
Cap
Case Chain Pto
Check Valve
Chute Pully
Clamp
Clock Face
Cluster Housing
Clutch Adapter
Compressor Housing
Connecting Rod
Consistency Transmitter
Control Handle - Lon
Control Panel
Cover
Crank Case
Cutter Bar
Cylinder
Cylinder Head
Dental Sterilization
Diode Wheel
Discharge
Discharge Extension
Discharge Fitting
Discharge Manifold
Divider Plate
Drive End Bracket
Drive Shaft Housing
Driver Pulley
Driveshaft Housing
Drum
Dual Bead Breaker
Eductor
Elbow
Electric Motor Parts
Elevating Foot
End Bell
End Cap
Engine Adapter
Engine Blocks
Engine Parts
Engine Stand
Fan
Fitting - Intake
Fitting - Suction
Flange
Flange Blank
Flange Body
Flanged Cap
Flywheel Housings
Foot
Foot Support Bellows
Frames
Front Panel Frame
Gear Case Cover
Gear Housing
Gear Housing End Plate
Gearbox
Generator Adaptor
Gerotor Housing
Gimbal Housing
Gimbal Ring
Guide - Piston
Handle
Heat Sink
Housing
Housing - Bearing
Housing - Tachometer
Housing - Valve
Housing Compressor
Housing Oilless Prim
Impeller
Impellers
Inner Plate
Intake Fitting
Intake Manifold
Interstage Manifold
Jaw
Jaw Support
Jet Engine Compressor Cases
Lens Frame Section
Lift Pivot
Light Pole Bases
Locking Nut
Manifold
Manifold - Discharge
Mid Transmission
Missile Components
Motor Housing
Mount
Mount Top
Nose Piece
Pedal
Pedestal Bearing
Piston Guide Primer
Piston Primer Guide
Pivot Compression
Plate
Plug
Press Roller
Presure Cap
Primer
Primer Cover
Pump Base
Pump To Eng Adapter
Ram Housing
Rear Axle Housings
Ring
Sausage Piston
Seal Ring
Seat - Bellow
Seat Ring
Semi Seat Bellow
Sheave
Shell
Snout Section
Stator Follower
Testicle Holder Bracket
Throttle Body
Tombstone Sign
Torch Crown
Torque Arm
Tower Insert
Tower Wind Turbine
Track Sys Carrier
Transmission Cases
Upper Body
Upper Motor
Upper Volute
Valve
Valve Bank Control L
Valve Ctrl Lever
Volute
Volute Body
Volute Section
Water - Jacket
Water Jackets
Winch Drum
Wire Reel
Yoke

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

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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.

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