ZCUAL9Fe4Ni4Mn2 is an important cast aluminum-bronze alloy with rich application fields and excellent performance characteristics. The composition content of this alloy plays a crucial role in its field of application.
First, let's take a closer look at the ingredient content of zcual9fe4ni4mn2. This alloy is mainly composed of copper (Cu), aluminum (Al), nickel (Ni), iron (Fe), manganese (Mn) and other elements, and its specific content is:
Copper: The rest. Aluminum: 85~10.0%
Nickel: 40~5.0%
Iron: 40~5.0%
Manganese: 08~2.5%
In addition, it also contains a small amount of lead (PB), silicon (Si), carbon (C) and other impurities, the sum of which does not exceed 10%。The precise ratio of these components has a significant impact on the performance and application of the alloy.
Zcual9Fe4Ni4Mn2 has excellent mechanical properties. It has a tensile strength of 630MPa or more, a yield strength of 250MPa or more, an elongation of 16 or more, and a hardness of 1570HB or more. These excellent mechanical properties make this alloy widely used in the engineering field.
This cast aluminum-bronze alloy also has excellent corrosion resistance, making it not only good for long-term use in the atmosphere, but also in fresh and seawater. In addition, it has high corrosion fatigue strength and is able to work stably for a long time in harsh environments. This makes ZCUAL9Fe4Ni4Mn2 widely used in corrosive environments such as marine engineering and chemical equipment.
In addition, ZCUAL9Fe4Ni4Mn2 has good heat resistance below 400 and can work safely in high temperature environments. It also has good wear resistance and is suitable for occasions that require wear resistance. These properties make the alloy widely used in aerospace, automotive manufacturing, machining and other fields.
In general, ZCUAL9Fe4Ni4Mn2 cast aluminum-bronze alloy has important applications in various fields such as aerospace, marine engineering, and chemical equipment due to its excellent mechanical properties, corrosion resistance, and heat resistance. The precise control of its ingredient content is a key factor in ensuring its performance and range of applications, making it one of the indispensable materials in today's engineering field.