TC21 is a high-strength, high-toughness, and high-damage-tolerance титановый сплав. It is a crucial material used in advanced aerospace applications.
TC21 was designed to exceed the fracture toughness, crack growth resistance, and thermal stability of the TC4 alloy while having higher strength. It aims to match or surpass the properties of the American Ti-62222S alloy.
TC21 alloy is primarily used in aerospace applications, particularly in structural components of advanced fighter jets. Например, 3% of the structural parts of the U.S. F22 fighter jet use the Ti-6-22-22S alloy, highlighting the importance of titanium alloys in aircraft structures.
In China, the application and technology of titanium alloys still lag behind developed countries. During the “15th Five-Year Plan,” China launched a research program to develop high-strength, high-toughness, high-damage-tolerance titanium alloys to align with the international trend of damage tolerance design. This led to the successful development of the TC21 alloy.
TC21 titanium alloy is available mainly in the form of bars, forgings, and thick plates. The processing of such titanium alloy parts typically requires plastic deformation methods. Due to the high specific strength of titanium alloys, their cold plastic deformation ability is poor. Поэтому, high-temperature thermoplastic deformation processes, such as forging, are usually required for plastic deformation processing, and TC21 is no exception.
The performance of an alloy is significantly influenced by alloying elements, processing techniques, and its microstructure. The microstructure, under specific alloy compositions, becomes the primary factor affecting its properties.
During the deformation process of dual-phase titanium alloys like TC21, various microstructures can emerge depending on the processing methods and conditions. These microstructures include Widmanstätten structure, basketweave structure, duplex structure, and equiaxed structure, each exhibiting unique shapes, sizes, structures, and performance characteristics.
In aerospace industries, designing for failure-safe based on damage tolerance criteria is crucial. Materials with damage-tolerant features should ideally possess:
Understanding the relationship between material damage and critical conditions is essential for accurately estimating fatigue life. The basketweave structure of TC21 titanium alloy, achieved through specific heat treatment regimes, demonstrates superior strength, plasticity, toughness, and crack propagation resistance compared to other microstructures. Its fracture toughness and thermal stability are maintained at levels not lower than TC4 alloy, with strength surpassing TC4 alloy by a significant margin and comparable to the American Ti-62222S alloy.
To enhance the damage tolerance of materials like TC21 titanium alloy, it is crucial to establish mathematical models that correlate microstructural parameters, especially fracture toughness, with performance. These efforts are essential for advancing material development and optimizing production processes in aerospace applications.
Обзор рынка на этой неделе, Рынок титана продемонстрировал резкую дивергенцию. The surge in aerospace…
Цена на губку титана (Юань/тонна) Цена (USD/Тон) Цена (Евро/тонна) 0 ¥48,000–¥49,000 $6,694–$6,835 €6,185–€6,313 1…
Тенденции рынка цен на титановые цены в Китае - Февраль 27, 2025 Титановая руда: Panxi titanium ore…
When you hold a lightweight yet razor-sharp titanium alloy knife in your hand, every slice…
По мере приближения китайского новогоднего праздника, significant changes are occurring in the domestic titanium…
Когда мы приближаемся к праздничному сезону, the domestic titanium materials market has entered a period…
This website uses cookies.