+ + C86200 Manganese Bronze

C86200 Manganese Bronze

C86200 Manganese Bronze

Bronze C86200: Manganese Bronze
Solids: 1/2" to 9" OD
Tubes: 1 1/8 " to 9" OD
Rectangles: Up to 15"
Standard Lengths: 144"

Similar or Equivalent Specification

CDA	ASTM	ASARCON	SAE	AMS	Federal	Ingot#	Military	Other Desc
C86200	ASTM B505		SAE 430 A		QQ-C-390B TYPE III	423	MIL-C-22229 COMP 9	HIGH STRENGTH YELLOW BRASS
					QQ-B-726 CLASS B

Chemical Composition (according to ASTM B505-08)

Cu%	Sn%	Pb%	Zn%	Fe%	Ni%	Sb%	P%	S%	Al%	Mn%	Si%
Note: Single values represent maximums. A In determining copper minimum, copper may be calculated as copper plus nickel.
60.00-66.00	0.20	0.20	22.00-28.00	2.00-4.00	1.00A	N/A	N/A	N/A	3.00-4.90	2.50-5.00	N/A

Mechanical Properties (according to ASTM B505-08)

Tensile Strength (min)		Yield Strength (at .5% extention under load min)		Elongation (in 2in. or 50mm min, %)	Brinell Hardness (min)	Remarks
Ksi	MPa	Ksi	MPa
90	621	45	310	18	N/A

Machinability

Alloy	Rating	Density
C86200	30	0.288

Physical Properties (provided by CDA)

	US Customary	Metric
* Field Strength 16 kA/m
Melting Point - Liquidus	1725 F	941 C
Melting Point - Solidus	1650 F	899 C
Density	0.288 lb/in3 at 68 F	7.97 gm/cm3 @ 20 C
Specific Gravity	7.970	7.97
Electrical Resistivity	136.70 ohms-cmil/ft @ 68 F	22.73 microhm-cm @ 20 C
Electrical Conductivity	8 %IACS @ 68 F	0.044 MegaSiemens/cm @ 20 C
Thermal Conductivity	20.50 Btu · ft/(hr · ft2·°F)at 68F	35.5 W/m · °K at 20 C
Coefficient of Thermal Expansion	120 ·10-6 per oF (68-392 F)	21.6 ·10-6 per °C (20-200 C)
Specific Heat Capacity	0.090 Btu/lb/°F at 68 F	377.1 J/kg · °K at 293 K
Modulas of Elasticity in Tension	15000 ksi	103400 MPa
Magnetic Permeability*	1.240	1.24

Fabrication Properties (provided by CDA)

Joining Technique	Suitability
Soldering	Poor
Brazing	Poor
Oxyacetylene Welding	Good
Gas Shielded Arc Welding	Fair
Coated Metal Arc Welding	Good

Thermal Properties (provided by CDA)

Treatment	Temp./Time - US	Temp./Time - SI
Stress Temperature	500	260
Solution Minimum
Solution Maximum
Solution Time	0.0
Solution Medium	None
Precipitation Value
Precipitation Time
Precipitation Medium	None
Annealing Minimum
Annealing Maximum
Annealing Time
Hot Works Minimum
Hot Works Maximum