High temperature titanium alloy, as a leader in the field of titanium alloy, plays an important role in aviation, aerospace, energy and chemical industry and other extreme working environments because of its excellent heat resistance, high strength and excellent corrosion resistance. In order to maximize these superior properties, it is particularly important to deeply study and continuously optimize the casting process of high temperature titanium alloy. In this paper, the casting process of high temperature titanium alloy will be explored comprehensively, and the corresponding optimization strategy will be put forward.

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Basic characteristics and Application Field of High temperature Titanium Alloy

High temperature titanium alloy is mainly made of titanium and alloyed with appropriate amount of aluminum, vanadium, molybdenum, chromium and other elements to form an alloy system with excellent high temperature properties. This unique composition gives high temperature titanium alloy excellent performance in high temperature, high pressure and corrosive environment, especially in engine components in aerospace field, heat exchanger in energy field and corrosion resistant equipment in chemical field. High temperature titanium alloy plays an irreplaceable role.

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Innovation of Foundry process and optimized melting Technology of High temperature Titanium Alloy

Traditional melting methods can easily cause titanium alloys to react with oxygen, nitrogen and other impurities in the air to form oxides and nitrides, which seriously affect the purity and properties of titanium alloys.

Optimization strategy: advanced technologies such as vacuum consumable arc melting or plasma melting are adopted to ensure the chemical purity of titanium alloy in the melting process. At the same time, the advanced numerical simulation technology is used to accurately control the melting temperature, pressure and alloy composition to realize the precise control of alloy properties.

Refinement of Mould Design and preparation

Mold design is directly related to the microstructure and quality of titanium alloy castings. Unreasonable mold design can easily lead to defects such as shrinkage, porosity, inclusion and so on.

Optimization strategy: the fine design of the mold was carried out by combining numerical simulation technology and experimental verification. The shape, size and material selection of the mold are optimized to ensure the uniform microstructure of titanium alloy during solidification. At the same time, advanced mold preparation technology is adopted to improve the heat resistance and stability of the mold and ensure the quality of the castings.

Innovation of pouring process

The pouring process has an important influence on the compactness and crystal structure of titanium alloy castings. Unreasonable pouring process can easily lead to defects such as pores and inclusions in castings.

Optimization strategy: advanced technologies such as centrifugal casting and vacuum suction casting are adopted to reduce the defects such as pores and inclusions in the solidification process of titanium alloy. At the same time, the gating system is designed reasonably, the pouring speed is controlled, and the grain refinement and microstructure homogenization are realized.

Improvement of follow-up heat treatment

The cast high temperature titanium alloy needs proper heat treatment to eliminate casting stress, improve microstructure and improve properties.

Optimization strategy: formulate reasonable heat treatment process parameters, such as annealing temperature, holding time, cooling mode and so on. At the same time, advanced heat treatment equipment and technology are adopted to ensure the stability and uniformity of the heat treatment process.

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Summary and prospect

Through the in-depth research and optimization of high temperature titanium alloy casting process, we can significantly improve its performance and stability, and meet the high requirements of high temperature titanium alloy materials in various fields. In the future, with the continuous progress of science and technology and the continuous innovation of processing technology, the application field of high temperature titanium alloy will be more extensive, which will provide strong support for the development of various industries. At the same time, we also need to constantly pay attention to the environmental protection problems that may occur in the casting process, and actively take effective measures to achieve green casting and sustainable development.