Stainless Steel Family

Tempering at SOOT (425 C) does not reduce the hardness of the part and in this condition these alloys show an exceptional resistance to fruit and vegetable acids, lye, ammonia, and other corrodents to which cutlery may be subjected. [Pg.139]

Moderate corrosion resistance, relatively high strength, and good fatigue properties after suitable heat treatment are usually the reasons for selecting the martensitic stainless steels. [Pg.139]

Type 410 stainless steel is heat treatable and is the most widely used of the martensitic stainless steels. Its chemical composition is shown in Table 9.1. [Pg.139]

This alloy, when heat treated, has high-strength properties with good ductility. Type 410 stainless steel has a maximum operating temperature of 1300°F (705°C) for continuous service, but for intermittent service may be operated at a maximum of ISOOT (SIS C). [Pg.140]

Type 410 stainless steel is used where corrosion is not severe, such as air, fresh water, some chemicals, and food acids. Table 9.2 provides the compatibility of t) e 410 stainless steel with selected corrodents. [Pg.140]

Figure 4-4. Martensitic stainless steels are the least corrosion resistant stainless steel family. [Pg.83]

Stainless steel family 316L stainless steel Surgical Stainless Steel Monofilament... [Pg.332]

Depending on their structure and their chemical composition, one distinguishes six types of stainless steels (Table 12.7). In addition to the listed alloying elements, stainless steels may contain other elements in small quantity, in particular Cu, Mn, W, Ti, Nb, Ta, P, Si, and N. The different stainless steel families differ not only in their corrosion resistance, but also in their mechanical properties. [Pg.519]

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