The main differences between steel plates and titanium alloy plates are their organizational compatibility, flexibility, ease of plasticity, hardness, price and application fields.
Structural compatibility and flexibility: The structural compatibility of titanium alloy plates is better than that of stainless steel plates, and its flexibility is also stronger than stainless steel plates. This makes it easier for titanium plates to fit over fractures, especially in medical applications where a precise fit is required.
Easy to mold: Titanium alloy steel plates are easy to mold, which helps provide better adaptability and comfort in applications that require bending or shaping, such as medical implants or complex structural parts.
Hardness: Stainless steel plates are harder than titanium plates, but they are also more brittle. This suggests that stainless steel plates may be more appropriate where heavy pressure is applied, such as on non-load-bearing parts such as shoulders.
Price: The price of titanium alloy plates is generally one and a half to two times that of stainless steel plates, which reflects its higher cost and better performance.
Application fields: Titanium alloy steel plates are widely used in aviation, aerospace, ships, automobiles and other fields due to their lightweight, high strength, high toughness and other characteristics. For example, in the aviation field, titanium alloy steel plates are used as aircraft structural parts and engine parts, which can reduce the weight of the aircraft itself and improve flight efficiency and safety.
To sum up, the choice of titanium alloy plate or steel plate mainly depends on the specific application requirements and cost considerations. If economic conditions permit and there are high requirements for the material's structural compatibility, flexibility and ease of plasticity, titanium alloy plates are a better choice. And if cost is a major consideration and there are specific requirements for hardness, stainless steel plates may be more suitable.