Aluminum Sheet - 5086-H116

For many years there has been a need for aluminum sheet and plate alloys that would offer, for high strength welded applications, several distinct benefits over such alloys as 5052 and 6061. Some of the benefits fabricators have been seeking are greater design efficiency, better welding characteristics, good forming properties, excellent resistance to corrosion and the same economy as in other non heat-treatable alloys. Metallurgical research has developed 5083 and 5086 as superior wieldable alloys which fill these needs. Both alloys have virtually the same characteristics with 5083 having slightly higher mechanical properties due to the increased manganese content over 5086. Applications: unfired pressure vessels, missile containers, heavy-duty truck and trailer assemblies, boat hulls and superstructures.

5086-H116

Mill Finish
ASTM B209

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Unit of Measure

Items	5086-H116-080-60-120 Aluminum Sheet - 5086-H116	5086-H116-125-48-96 Aluminum Sheet - 5086-H116	5086-H116-125-48-120 Aluminum Sheet - 5086-H116	5086-H116-125-48-144 Aluminum Sheet - 5086-H116	5086-H116-190-48-120 Aluminum Sheet - 5086-H116
Material	N/A Aluminum
Shapeform	N/A Sheets
Series	N/A 5086-H116
Grade	N/A 5086
Temper	N/A H116
Finish	N/A Mill
Thickness	N/A 0.080 inches2.032 mm	N/A 0.125 inches3.1750 mm	N/A 0.125 inches3.1750 mm	N/A 0.125 inches3.1750 mm	N/A 0.190 inches4.826 mm
Size	N/A 60 x 120	N/A 48 x 96	N/A 48 x 120	N/A 48 x 144	N/A 48 x 120
Width	N/A 60	N/A 48	N/A 48	N/A 48	N/A 48
Length	N/A 120	N/A 96	N/A 120	N/A 144	N/A 120
Sheet Weight per Unit Area	N/A 1.106 lbs/ft²5.399492 kg/m²	N/A 1.728 lbs/ft²8.436096 kg/m²	N/A	N/A	N/A 2.627 lbs/ft²12.825014 kg/m²
Weight per Sheet	N/A 55.30 lbs25.0509 kg	N/A 55.30 lbs25.0509 kg	N/A 69.12 lbs31.31136 kg	N/A 82.94 lbs37.57182 kg	N/A 105.06 lbs47.59218 kg
ASTM Specification	N/A ASTM B209 ASTM SB-209
Ultimate Strength	N/A 42 ksi
Yield Strength	N/A 30 ksi
Elongation percent in 2 inches	N/A 12
Modulus of Elasticity¹	N/A 10.3 x 10² ksi
Resistance to Corrosion - General²	N/A A
Stress Corrosion Cracking³	N/A A
Workability (Cold)⁴	N/A B
Mechinability	N/A D
Brazeability⁵	N/A D
Gas Weldability⁶	N/A C
Arc Weldability⁷	N/A A
Resistance Spot and Seam Weldability⁸	N/A A
Applications	N/A Unfired, welded pressure vessels, marine, auto aircraft cryogenics, TV, towers, drilling rigs, transportation, equipment, missile components
Density	N/A 0.096 lbs/in³
Specific Gravity	N/A 2.66
¹ Average of tension and compression moduli. Compression modulus is about 2 percent greater than tension modulus. ² Ratings A through E are relative ratings in decreasing order of merit, based on exposures to sodium chloride solution by intermittent spraying or immersion. Alloys with A and B ratings can be used in industrial and seacoast atmospheres without protection. Alloys with C, D and E ratings generally should be protected at least on faying surfaces. ³ Stress-corrosion cracking ratings are based on service experience and on laboratory tests of specimens exposed to the 3.5% sodium chloride alternate immersion test. ⁴ Ratings A through D for Workability (cold), and A through E for Machinability, are relative ratings in decreasing order of merit. ⁵ Ratings A through D for Weldability and Brazeability are relative ratings. ⁶ A = Generally weldable by all commercial procedures and methods. B = Weldable with special techniques or for specific applications that justify preliminary trials or testing to develop welding procedure and weld performance. C = Limited weldability because of crack sensitivity or loss in resistance to corrosion and mechanical properties. ⁷ A = Generally weldable by all commercial procedures and methods. B = Weldable with special techniques or for specific applications that justify preliminary trials or testing to develop welding procedure and weld performance. C = Limited weldability because of crack sensitivity or loss in resistance to corrosion and mechanical properties. ⁸ A = Generally weldable by all commercial procedures and methods. B = Weldable with special techniques or for specific applications that justify preliminary trials or testing to develop welding procedure and weld performance. C = Limited weldability because of crack sensitivity or loss in resistance to corrosion and mechanical properties.

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