Precision Tooling Plate

6061 is the least expensive and most versatile of the heat-treatable aluminum alloys. It has most of the good qualities of aluminum. It offers a range of good mechanical properties and good corrosion resistance. It can be fabricated by most of the commonly used techniques. In the annealed condition it has good workability. In the T4 condition fairly severe forming operations may be accomplished. The full T6 properties may be obtained by artificial aging. It is welded by all methods and can be furnace brazed. It is available in the clad form ("Alclad") with a thin surface layer of high purity aluminum to improve both appearance and corrosion resistance. Applications: This grade is used for a wide variety of products and applications from truck bodies and frames to screw machine parts and structural components. 6061 is used where appearance and better corrosion resistance with good strength are required.

6061-T651
Thickness Tolerance is 1/2 Commercial on Plus Side
Stenciled and Interleaved
AMS-QQ-A-250/11 ASTM B209

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Items	6061-T651-250-365-965 Precision Tooling Plate	6061-T651-250-485-965 Precision Tooling Plate	6061-T651-250-485-1445 Precision Tooling Plate	6061-T651-250-605-1445 Precision Tooling Plate	6061-T651-250-725-1445 Precision Tooling Plate
Material	N/A Aluminum
Shapeform	N/A Plates
Series	N/A 6061-T651
Grade	N/A 6061
Preparation	N/A Interleaved and Stenciled
Temper	N/A T651
Thickness	N/A 0.25 inches6.3500 mm
Thickness Tolerance	N/A +0.5 inches
Size	N/A 36.5 x 96.5	N/A 48.5 x 96.5	N/A 48.5 x 144.5	N/A 60.5 x 144.5	N/A 72.5 x 144.5
Width	N/A 36.5	N/A 48.5	N/A 48.5	N/A 60.5	N/A 72.5
Length	N/A 96.5	N/A 96.5	N/A 144.5	N/A 144.5	N/A 144.5
Sheet Weight per Unit Area	N/A 3.627 lbs/ft²17.707014 kg/m²	N/A	N/A	N/A	N/A
Weight per Plate	N/A 88.71 lbs40.18563 kg	N/A 117.88 lbs53.39964 kg	N/A 176.51 lbs79.95903 kg	N/A 220.18 lbs99.74154 kg	N/A 263.85 lbs119.52405 kg
ASTM Specification	N/A AMS-QQ-A250/11 ASTM B209
Ultimate Strength	N/A 45 ksi
Yield Strength	N/A 40 ksi
Elongation percent in 2 inches	N/A 12
Hardness Brinnel Number	N/A 95
Ultimate Shearing Strength	N/A 30 ksi
Fatigue Endurance Limit¹	N/A 14 ksi
Modulus of Elasticity²	N/A 10.0 x 10² ksi
Resistance to Corrosion - General³	N/A B
Stress Corrosion Cracking⁴	N/A A
Workability (Cold)⁵	N/A C
Mechinability	N/A C
Brazeability⁶	N/A A
Gas Weldability⁷	N/A A
Arc Weldability⁸	N/A A
Resistance Spot and Seam Weldability⁹	N/A A
Applications	N/A Heavy-duty structures requiring good corrosion resistance, truck and marine, railroad cars, furniture, pipelines
Density	N/A 0.098 lbs/in³
Specific Gravity	N/A 2.70
¹ Based on 500,000.000 cycles of completely reversed stress using the R. R. Moore-type of machine and specimen. ² Average of tension and compression moduli. Compression modulus is about 2 percent greater than tension modulus. ³ 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. ⁴ 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. ⁵ Ratings A through D for Workability (cold), and A through E for Machinability, are relative ratings in decreasing order of merit. ⁶ Ratings A through D for Weldability and Brazeability are relative ratings. 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. ⁹ 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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