Cast Processing Technology of Copper Alloy with Direct Wedge Angle Size
In life, casting processing technology mainly refers to the process of casting a liquid material into a predetermined shape cavity by pouring and solidifying. It occurs in a wide range of fields and is often used to form parts with complex shapes or to form parts with high strength and other properties. One of the most commonly used casting processing technology is the direct pouring of copper alloy with a wedge angle size.
The direct pouring production of copper alloy with a wedge angle size is generally composed of the following processes: first of all, the material that needs to be casted should be selected. According to the process requirements, the proper alloy type should be selected to reach the desired alloy performance. Then the model drawing, cast process drawing and strict inspection should be completed. After that, the corresponding pattern, core and other molds are processed according to the drafted process drawing. In this way, the preparation of a series of materials related to the casting process is completed.
The next step is to prepare the raw materials. Generally speaking, copper rods, copper plates and copper bars are used, and then copper alloy and other elements are added according to process requirements. The proportions of each component should be calculated according to the required physical and chemical properties, and the molten liquid should be prepared. Finally, the molten liquid is poured into the mold, and the temperature, pressure, and pouring speed are strictly controlled to ensure that the molten liquid is evenly distributed in the cavity.
When the molten liquid solidifies, it can be demoulded with the mold and processed with the corresponding tools. The parts produced by this process have high accuracy, good mechanical properties and excellent wear resistance. The casting parts are widely used in cars, ships, aerospace and other industries.
Direct pouring the copper alloy with a wedge angle size is a very complicated casting process technology. It requires the technical personnel to have a certain understanding of metallurgy, foundry production and process design and scientific equipment. The operator must combine the process conditions and experience correctly, strictly control the process parameters, and constantly improve the technology, ensuring that the casting can reach the desired requirements.
