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C10100 Oxygen-Free-Electronic OFE Wrought COPPERS Coppers true true https://api.copper.org/alloys.xhtml/C10100

Chemical Composition
	Elements
	Cu^(1,2,3)	Pb	Zn	Fe	P	Ag	As	O	Sb	Te
(1) This is a high conductivity copper which has, in the annealed condition a minimum conductivity of 100% IACS except for Alloy C10100 which has a minimum conductivity of 101% IACS. (2) Cu is determined by the difference between the impurity total and 100 %. For alloy C10100 the Cu value is exclusive of Ag. (3) The following additional impurity maximum limits shall apply: Bi 1ppm (0.0001%); Cd 1ppm (0.0001%); Mn 0.5ppm (0.00005%); Ni 10ppm (0.0010%); Se 3ppm (0.0003%); S 15ppm (0.0015%); Sn 2ppm (0.0002).
Min (%)	99.99
Max (%)		0.0005	0.0001	0.0010	0.0003	0.0025	0.0005	0.0005	0.0004	0.0002

Mechanical Properties ^*
Form	Temper	Temper Code	Tensile Strength (ksi)	YS-0.5% Ext (ksi)	Elongation (%)	Rockwell B scale	Rockwell F scale	Rockwell 30T scale	Shear Strength (ksi)	Torsion Modulus (ksi)	Compressive Yield Strength (ksi)	Fatigue Strength** (ksi)	Ultimate Tensile Strength in Shear (ksi)	Section Size (in)	Cold Work (%)
* Measured at room temperature, 68°F (20°C). ** Fatigue Strength: 100 x 10⁶ cycles, unless indicated as [N] x 10⁶.
Flat Products	1/2 Hard	H02	42 Typ	36 Typ	14 Typ	40 Typ	84 Typ	50 Typ				13 Typ	26 Typ	0.04
	1/4 Hard	H01	38 Typ	30 Typ	25 Typ	25 Typ	70 Typ	36 Typ					25 Typ	0.04
	1/4 Hard	H01	38 Typ	30 Typ	35 Typ	25 Typ	70 Typ						25 Typ	0.25
	1/8 Hard	H00	36 Typ	28 Typ	40 Typ	10 Typ	60 Typ						25 Typ	0.25
	1/8 Hard	H00	36 Typ	28 Typ	30 Typ	10 Typ	60 Typ	25 Typ					25 Typ	0.04
	As Hot Rolled	M20	34 Typ	10 Typ	45 Typ		45 Typ						23 Typ	0.04
	As Hot Rolled	M20	32 Typ	10 Typ	50 Typ		40 Typ				.073 Typ		22 Typ	0.25
	Extra Spring	H10	57 Typ	53 Typ	4 Typ	62 Typ	95 Typ	64 Typ					29 Typ	0.04
	Hard	H04	55 Typ	45 Typ	6 Typ								29 Typ	.08
	Hard	H04	50 Typ	45 Typ	12 Typ	50 Typ	90 Typ						28 Typ	0.25
	Hard	H04	50 Typ	45 Typ	6 Typ	50 Typ	90 Typ	57 Typ				13 Typ	28 Typ	0.04
	Hard	H04	45 Typ	40 Typ	20 Typ	45 Typ	85 Typ						26 Typ	1
	Nominal Grain Size 0.025 mm	OS025	34 Typ	11 Typ	45 Typ		45 Typ					11 Typ	23 Typ	0.04
	Nominal Grain Size 0.050 mm	OS050	32 Typ	10 Typ	45 Typ		40 Typ						22 Typ	0.04
	Nominal Grain Size 0.050 mm	OS050	32 Typ	10 Typ	50 Typ		40 Typ						22 Typ	0.25
	Spring	H08	55 Typ	50 Typ	4 Typ	60 Typ	94 Typ	63 Typ				14 Typ	29 Typ	0.04
Rod	As Hot Rolled	M20	32 Typ	10 Typ	55 Typ		40 Typ		22 Typ				22 Typ	1
	Hard	H04	55 Typ	50 Typ	10 Typ	60 Typ	94 Typ						29 Typ	0.25	40
	Hard	H04	45 Typ	40 Typ	20 Typ	45 Typ	85 Typ			6.4 Typ			26 Typ	2	16
	Hard	H04	48 Typ	44 Typ	16 Typ	47 Typ	87 Typ					17 Typ	27 Typ	1	35
	Nominal Grain Size 0.050 mm	OS050	32 Typ	10 Typ	55 Typ		40 Typ						22 Typ	1
Shapes	As Hot Extruded	M30	32 Typ	10 Typ	50 Typ		45 Typ						22 Typ	0.5
	As Hot Rolled	M20	32 Typ	10 Typ	50 Typ		45 Typ						22 Typ	0.5
	Hard	H04	40 Typ	32 Typ	30 Typ	35 Typ							26 Typ	0.5	15
	Nominal Grain Size 0.050 mm	OS050	32 Typ	10 Typ	50 Typ		45 Typ						22 Typ	0.5
Tube	Hard Drawn	H80	55 Typ	50 Typ	8 Typ	60 Typ	95 Typ	63 Typ					29 Typ	0.065
	Light Drawn, Light Cold Rolled	H55	40 Typ	32 Typ	25 Typ	35 Typ	77 Typ	45 Typ					26 Typ	0.065
	Nominal Grain Size 0.025 mm	OS025	34 Typ	11 Typ	45 Typ		45 Typ						23 Typ	0.065
	Nominal Grain Size 0.050 mm	OS050	32 Typ	10 Typ	45 Typ		40 Typ						22 Typ	0.065
Wire	Hard	H04	55 Typ		1.5 Typ								29 Typ	0.08
	Nominal Grain Size 0.050 mm	OS050	35 Typ		35 Typ								24 Typ	0.08
	Spring	H08	66 Typ		1.5 Typ								33 Typ	0.08

Physical Properties
⁽¹⁾Volume and weight basis, minimum value.
Melting Point - Liquidus°F	1981
Melting Point - Solidus°F	1981
Densitylb/cu in. at 68°F	0.323
Specific Gravity	8.94
Electrical Conductivity% IACS at 68°F	101 ⁽¹⁾
Thermal ConductivityBtu/ sq ft/ ft hr/ °F at 68°F	226
Coefficient of Thermal Expansion 68-21210 to -6 power per °F (68 – 212°F)	9.4
Coefficient of Thermal Expansion 68-39210 to -6 power per °F (68 – 392°F)	9.6
Coefficient of Thermal Expansion 68-57210 to -6 power per °F (68 – 572°F)	9.8
Specific Heat CapacityBtu/ lb /°F at 68°F	0.092
Modulus of Elasticity in Tensionksi	17000
Modulus of Rigidityksi	6400

Fabrication Properties
Technique	Suitability
Soldering	Excellent
Brazing	Excellent
Oxyacetylene Welding	Fair
Gas Shielded Arc Welding	Good
Coated Metal Arc Welding	Not Recommended
Spot Weld	Not Recommended
Seam Weld	Not Recommended
Butt Weld	Good
Capacity for Being Cold Worked	Excellent
Capacity for Being Hot Formed	Excellent
Forgeability Rating	65
Machinability Rating	20

Blanking
Coining
Coppersmithing
Drawing
Etching
Forming and Bending
Heading and Upsetting
Hot Forging and Pressing
Piercing and Punching
Roll Threading and Knurling
Shearing
Spinning
Squeezing and Swaging
Stamping

Thermal Properties
Treatment	Minimum^*	Maximum^*
^* Temperature is measured in Fahrenheit.
Annealing	700	1200
Hot Working Temperature	1400	1600

Typical uses
Product Category	Product	Reason Category	Reason
Automotive	Automotive Rectifiers	Conductivity (Electrical)	Electrical Conductivity
Automotive	Automotive Rectifiers	Conductivity (Thermal)	Thermal Conductivity
Electrical	Anodes for Vacuum Tubes	Conductivity (Electrical)	Electrical Conductivity
	Anodes for Vacuum Tubes	Conductivity (Thermal)	Thermal Conductivity
	Anodes for Vacuum Tubes	Corrosion Resistance	Corrosion Resistance
	Bus Bars	Conductivity (Electrical)	Electrical Conductivity
	Bus Bars	Welding Characteristics	Weldability
	Bus Conductors	Conductivity (Electrical)	Electrical Conductivity
	Bus Conductors	Conductivity (Thermal)	Thermal Conductivity
	Bus Conductors	Corrosion Resistance	Corrosion Resistance
	Bus Conductors	Solderability	Solderability
	Coaxial Cable	Conductivity (Electrical)	Electrical Conductivity
	Coaxial Tube	Conductivity (Electrical)	Electrical Conductivity
	Conductors	Conductivity (Electrical)	Electrical Conductivity
	Conductors	Conductivity (Thermal)	Thermal Conductivity
	Conductors	Welding Characteristics	Weldability
	Glass-to-Metal Seals	Brazing Characteristics	Will not Hydrogen Embrittle during Brazing
	Glass-to-Metal Seals	Composition	Low Oxygen Content
	Glass-to-Metal Seals	Conductivity (Electrical)	Electrical Conductivity
	Glass-to-Metal Seals	Conductivity (Thermal)	Thermal Conductivity
	Glass-to-Metal Seals	Thermal Properties	Coefficient of Expansion
	Glass-to-Metal Seals	Welding Characteristics	Weldability
	Glass-to-Metal Seals	Welding Characteristics	Will not Hydrogen Embrittle during Welding
	High Resistance-Ratio Cryogenic Shunts	Conductivity (Electrical)	Electrical Conductivity
	Hollow Conductors	Conductivity (Electrical)	Electrical Conductivity
	Hollow Conductors	Conductivity (Thermal)	Thermal Conductivity
	Klystrons	Conductivity (Electrical)	Electrical Conductivity
	Klystrons	Conductivity (Thermal)	Thermal Conductivity
	Lead-in Wire	Conductivity (Electrical)	Electrical Conductivity
	Lead-in Wire	Conductivity (Thermal)	Thermal Conductivity
	Lead-in Wire	Corrosion Resistance	Corrosion Resistance
	Lead-in Wire	Welding Characteristics	Weldability
	Microwave Tubes	Conductivity (Electrical)	Electrical Conductivity
	Microwave Tubes	Conductivity (Thermal)	Thermal Conductivity
	Transistor Component Bases	Brazing Characteristics	Will not Hydrogen Embrittle during Brazing
	Transistor Component Bases	Composition	Low Oxygen Content
	Transistor Component Bases	Conductivity (Electrical)	Electrical Conductivity
	Transistor Component Bases	Conductivity (Thermal)	Thermal Conductivity
	Transistor Component Bases	Thermal Properties	Coefficient of Expansion
	Transistor Component Bases	Welding Characteristics	Weldability
	Transistor Component Bases	Welding Characteristics	Will not Hydrogen Embrittle during Welding
	Vacuum Seals	Brazing Characteristics	Will not Hydrogen Embrittle during Brazing
	Vacuum Seals	Composition	Low Oxygen Content
	Vacuum Seals	Conductivity (Electrical)	Electrical Conductivity
	Vacuum Seals	Thermal Properties	Coefficient of Expansion
	Vacuum Seals	Welding Characteristics	Weldability
	Vacuum Seals	Welding Characteristics	Will not Hydrogen Embrittle during Welding
	Wave Guides	Conductivity (Electrical)	Electrical Conductivity
	Wave Guides	Conductivity (Thermal)	Thermal Conductivity

Applicable Specifications
Form	Specific Sub-Form	Application	System	Standard	Description
			ASTM	B577	Detection of Cuperous Oxide (Hydrogen Embrittlement Susceptibility) in Copper
			ASTM	B224	Standard Classification of Coppers
Bar			ASTM	F68	OXYGEN-FREE COPPER IN WROUGHT FORMS FOR ELECTRON DEVICES
Bar			ASTM	B152/B152M	COPPER SHEET, STRIP, PLATE AND ROLLED BAR
Bus Bar, Rod and Shapes, General Purpose, same			ASTM	B187/B187M	COPPER BUS BAR, ROD AND SHAPES AND GENERAL PURPOSE ROD, BAR AND SHAPES
Bus Bar, Rod and Shapes, General Purpose, same			ASME	SB187	COPPER BUS BAR, ROD AND SHAPES AND GENERAL PURPOSE ROD, BAR AND SHAPES
Flat Products			ASME	SB152	COPPER SHEET, STRIP, PLATE, AND ROLLED BAR
Foil		Printed Circuits	ASTM	F68	OXYGEN-FREE COPPER IN WROUGHT FORMS FOR ELECTRON DEVICES
Foil		Printed Circuits	ASTM	B451	COPPER FOIL, STRIP AND SHEET FOR PRINTED CIRCUITS AND CARRIER TAPES
Plate			ASTM	B152/B152M	COPPER SHEET, STRIP, PLATE AND ROLLED BAR
			ASTM	F68	OXYGEN-FREE COPPER IN WROUGHT FORMS FOR ELECTRON DEVICES
			ASTM	B432	COPPER AND COPPER ALLOY CLAD STEEL PLATE
Refinery Shapes			ASTM	B170	OXYGEN-FREE ELECTROLYTIC COPPER-REFINERY SHAPES
Rod			ASTM	F68	OXYGEN-FREE COPPER IN WROUGHT FORMS FOR ELECTRON DEVICES
Seamless Bus Pipe and Tube			ASTM	B188	SEAMLESS COPPER BUS PIPE AND TUBE
Seamless Condenser Tube & Ferrule Stock			ASME	SB111	COPPER AND COPPER ALLOY SEAMLESS CONDENSER TUBES & FERRULE STOCK
Seamless Heat Exchanger Tube with Integral Fins			ASME	SB359	COPPER & COPPER ALLOY SEAMLESS CONDENSER & HEAT EXCHANGER TUBES WITH INTEGRAL FINS
Seamless Tube			ASME	SB75	SEAMLESS COPPER TUBE
Seamless Tube			ASTM	B111/B111M	COPPER AND COPPER ALLOY SEAMLESS CONDENSER TUBES AND FERRULE STOCK
Shapes			ASTM	F68	OXYGEN-FREE COPPER IN WROUGHT FORMS FOR ELECTRON DEVICES
Sheet		Printed Circuits	ASTM	B451	COPPER FOIL, STRIP AND SHEET FOR PRINTED CIRCUITS AND CARRIER TAPES
		Printed Circuits	ASTM	F68	OXYGEN-FREE COPPER IN WROUGHT FORMS FOR ELECTRON DEVICES
			ASTM	F68	OXYGEN-FREE COPPER IN WROUGHT FORMS FOR ELECTRON DEVICES
			ASTM	B152/B152M	COPPER SHEET, STRIP, PLATE AND ROLLED BAR
Strip			ASTM	F68	OXYGEN-FREE COPPER IN WROUGHT FORMS FOR ELECTRON DEVICES
		Printed Circuits	ASTM	B451	COPPER FOIL, STRIP AND SHEET FOR PRINTED CIRCUITS AND CARRIER TAPES
			ASTM	B152/B152M	COPPER SHEET, STRIP, PLATE AND ROLLED BAR
			ASTM	B272	COPPER FLAT PRODUCTS WITH FINISHED (ROLLED OR DRAWN) EDGES (FLAT WIRE AND STRIP)
		Printed Circuits	ASTM	F68	OXYGEN-FREE COPPER IN WROUGHT FORMS FOR ELECTRON DEVICES
Tube			ASTM	F68	OXYGEN-FREE COPPER IN WROUGHT FORMS FOR ELECTRON DEVICES
		Rectangular Waveguide	ASTM	F68	OXYGEN-FREE COPPER IN WROUGHT FORMS FOR ELECTRON DEVICES
			ASTM	B372	SEAMLESS COPPER AND COPPER-ALLOY RECTANGULAR WAVEGUIDE TUBE
			ASTM	B641	SEAMLESS AND WELDED COPPER DISTRIBUTION TUBE (TYPE D)
			ASTM	B641	SEAMLESS AND WELDED COPPER DISTRIBUTION TUBE (TYPE D)
			ASTM	B640	WELDED COPPER AND COPPER ALLOY TUBE FOR AIR CONDITIONING AND REFRIGERATION SERVICE
		Rectangular Waveguide	MILITARY	MIL-W-85	WAVEGUIDES, RIGID, RECTANGULAR
			ASTM	B75/B75M	SEAMLESS COPPER TUBE
			ASTM	B359/B359M	COPPER AND COPPER-ALLOY SEAMLESS CONDENSER AND HEAT EXCHANGER TUBES WITH INTEGRAL FINS
			ASTM	B447	WELDED COPPER TUBE
Wire			ASTM	B226	CORED, ANNULAR, CONCENTRIC-LAY-STRANDED COPPER CONDUCTORS
			FEDERAL	QQ-B-575	BRAID, WIRE (COPPER, TIN-COATED OR SILVER-COATED, TUBULAR OR FLAT)
	Hard Drawn		ASTM	B272	COPPER FLAT PRODUCTS WITH FINISHED (ROLLED OR DRAWN) EDGES (FLAT WIRE AND STRIP)
			ASTM	B470	BONDED COPPER CONDUCTORS FOR USE IN HOOKUP WIRE FOR ELECTRONIC EQUIPMENT
	Hard Drawn		ASTM	B2	MEDIUM-HARD DRAWN COPPER WIRE
			ASTM	B33	TINNED SOFT OR ANNEALED COPPER WIRE FOR ELECTRICAL PURPOSES
			ASTM	B174	BUNCH-STRANDED CONDUCTORS
			ASTM	B172	ROPE-LAY-STANDARD CONDUCTORS WITH BUNCH STRANDED MEMBERS
			ASTM	B355	NICKEL-COATED SOFT OR ANNEALED COPPER WIRE
	Soft		AMS	4700	COPPER WIRE,BARE, ANNEALED
	Hard Drawn		ASTM	F68	OXYGEN-FREE COPPER IN WROUGHT FORMS FOR ELECTRON DEVICES
	Soft		ASTM	B48	SOFT RECTANGULAR AND SQUARE BARE COPPER WIRE FOR ELECTRICAL CONDUCTORS
	Hard Drawn		FEDERAL	QQ-W-343	WIRE, ELECTRICAL (UNINSULATED)
			ASTM	B286	COPPER CONDUCTORS FOR HOOKUP WIRE IN ELECTRONIC EQUIPMENT
	Hard Drawn		ASTM	B1	HARD-DRAWN COPPER WIRE
			ASTM	B298	SILVER-COATED SOFT OR ANNEALED COPPER WIRE
			ASTM	B189	LEAD-COATED AND LEAD ALLOY COATED SOFT COPPER WIRE FOR ELECTRICAL PURPOSES
			ASTM	B8	CONCENTRIC-LAY-STRANDED COPPER CONDUCTORS, HARD, MEDIUM-HARD OR SOFT
			ASTM	B173	ROPE-LAY-STRANDED CONDUCTORS WITH CONCENTRIC STRANDED MEMBERS
	Hard Drawn		ASTM	F68	OXYGEN-FREE COPPER IN WROUGHT FORMS FOR ELECTRON DEVICES
			ASTM	B496	COMPACT ROUND CONCENTRIC-LAY-STRANDED COPPER CONDUCTORS
	Soft		ASTM	F68	OXYGEN-FREE COPPER IN WROUGHT FORMS FOR ELECTRON DEVICES
	Soft		ASTM	B3	SOFT OR ANNEALED COPPER WIRE
			ASTM	B246	TINNED HARD-DRAWN AND MEDIUM HARD-DRAWN COPPER WIRE FOR ELECTRICAL PURPOSES

No Corrosion Properties Available.