Thickness |
N/A .135 (10 Ga.) in |
Width |
N/A 36 in |
Length |
N/A 120 in |
Estimated Weight per Sq. Ft. |
N/A 5.562 lb |
Estimated Weight per Seet |
N/A 166.9 lb |
N/A
Carbon .10/.15 |
N/A
The following specifications are generally applicable:
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N/A This grade is used for applications requiring good mechanical properties and involving corrosive conditions that are not too severe, such as valve parts, cutlery, food industry machine parts, screws, bolts, pump rods and pistons, etc. In the annealed condition, it may be drawn or formed. In the aircraft industry, Type 410 is used for parts such as compressor shrouds, where oxidation resistance is required up to 1000°F. Useful at high temperatures only when stresses are low. |
N/A This material is resistant to corrosion from the atmosphere, fresh water, iron-bearing mine waters, food acids, neutral and basic salts, mild acids and alkalis. Maximum corrosion resistance of this grade is obtained by hardening and polishing. |
N/A Resists scaling at temperatures up to approximately 1200° - 1300°F in continuous service. Over 1300°F it has relatively low strength, and resistance to oxidation is reduced. |
N/A
Specification AMS 5504 requires the following properties of sheets and plates in the annealed condition:
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N/A Specification AMS 5504 requires that material 3/8" thick and under, and 3/8" specimens from heavier material, shall be capable of attaining hardness of Rockwell "C" 35-45 after being heated to 1750°F, held at heat to 15-30 minutes, and cooled in still air. |
N/A Type 410 has better machining characteristics than the chromium-nickel grades. It has a machinability rating of 54%, with 1212 rated 100%. Surface cutting speed on automatic screw machines is approximately 90 feet per minute. |
N/A May be welded by all the commercial processes except forge or hammer welding. Large sections should be preheated prior to welding. Because of its air-hardening properties, annealing after welding is recommended to obtain maximum ductility and toughness. |