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High Performance Powdered Metal (PM) Copper Steels

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Copper Iron

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High Carbon Steel

Material	PSM Code	Density G/CC	Yield Strength PSI (A)	Ultimate Tensile Strength PSI(A)	Elong- ation % (A,B)	Impact Strength Ft-Lbs (A,E)	Apparent Hardness Rockwell (F)	Transverse Rupture PSI (A)	Bearing Strength Constant K-10³ PSI	Equivalent MPIF Spec	Applications
Copper Iron	FC-203-N	5.8/6.0	26,000	30,000	<1.0	4	RB 15	53,000	38	FC-1000-20	Excellent for self-lubricating parts and heavy duty bearings.
Copper Iron	FC-208-N	5.8/6.0	26,000	28,000	<1.0	3	RB 14	50,000	37	FC-2000-K40
Copper Steel	FCC-221-P	6.0/6.4	40,000	40,000	<1.0	3	RB 48	75,000	30	FC-0205-35	Medium strength mechanical components.
High Carbon Copper Steel	FCC-216-P	6.0/6.4	45,000	50,000	<1.0	2	RB 61	90,000	49	FC-0208-40	High strength, good impact resistant material for mechanical components. Excellent hardenability. High performance material with high strength and wear resistance after heat treatment.
	FCC-216-P (HT)	6.0/6.4	(D)	65,000	<1.0	3	RC 20	95,000	N/A	FC-0208-50HT
	FCC-214-S	6.8/7.2	60,000	68,000	<1.0	6	RB 78	140,000	N/A	FC-0208-50
	FCC-214-S (HT)	6.8/7.2	(D)	90,000	<1.0	5	RC 35	140,000	N/A	FC-0208-80HT
	FCC-200-P	6.0/6.4	47,000	58,000	<1.0	5	RB 62	102,000	46	FC-0505-40

NOTES:

A	--	Mechanical property data represents average values derived from laboratory specimens produced under production conditions.
B	--	Elongation is given as inch/inch in one inch (1") gauge length.
C	--	Additional data is being developed.
D	--	Yield and ultimate tensile strength values are approximately the same in the heat treated condition.

E	--	Impact strength values are from unnotched Charpy Impact specimens.
F	--	Apparent hardness is measured directly using the Rockwell scales indicated. The value is always lower than the actual metal particle hardness as measured by the microhardness tester because of the porosity in the structure.
H	--	Transverse rupture strengths on tool steels are a function of heat treat and draw conditions.