Titanium Steel Clad Plate

Applicable Materials Table of Titanium Steel Clad Plate

The Titanium clad steel plate shall meet the Industrial Standards. The cladding material and the base metal in the table can be combined freely according to different needs. Titanium-clad steel sheets should be manufactured in accordance with ASTM B898.

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Uses of Titanium Clad Steel Plate

1. Chemical Processing Industry

• Pressure Vessels: Used in the construction of pressure vessels that store or process highly corrosive chemicals.

• Heat Exchangers: Ideal for heat exchanger plates where both corrosion resistance and high thermal conductivity are required.

• Reactor Tanks: Used in reactors for chemical synthesis and processing, providing durability in harsh chemical environments.

2. Oil and Gas Industry

• Offshore Platforms: Used in offshore drilling platforms where they are exposed to harsh marine environments and corrosive substances.

• Pipelines: Used for cladding pipelines to transport corrosive fluids, extending the lifespan of the pipelines.

• Storage Tanks: Utilized in storage tanks for crude oil and refined products that contain corrosive agents.

3. Marine Industry

• Shipbuilding: Used in the construction of ship hulls and other components that are exposed to seawater, providing excellent resistance to saltwater corrosion.

• Desalination Plants: Utilized in desalination equipment where saltwater is processed into fresh water.

4. Power Generation

• Condensers and Boilers: Employed in power plant condensers and boilers, especially in nuclear power plants where resistance to high temperatures and corrosion is critical.

• Heat Recovery Systems: Used in heat recovery steam generators to enhance efficiency and durability.

5. Aerospace Industry

• Aircraft Components: Used for making parts that require high strength-to-weight ratios and resistance to corrosion, such as structural components and engine parts.

• Spacecraft: Utilized in spacecraft where both lightweight and high durability are essential.

6. Medical and Healthcare

• Medical Equipment: Used in medical devices and equipment that require biocompatibility and resistance to body fluids.

• Implants: Although less common, titanium clad materials can be used in some medical implants due to their biocompatibility and strength.

7. Architectural Applications

• Facade Panels: Used in building facades to provide a durable, corrosion-resistant exterior that is also aesthetically pleasing.

• Roofing and Cladding: Utilized in roofing and external cladding for buildings, particularly in coastal regions where salt air can cause rapid deterioration of other materials.

8. Automotive Industry

• Exhaust Systems: Used in high-performance and racing cars for exhaust systems that need to withstand high temperatures and corrosive exhaust gases.

• Structural Components: Employed in making lightweight, high-strength structural components for vehicles.

9. Mining and Mineral Processing

• Equipment Linings: Used to line equipment that processes corrosive ores and minerals, enhancing the lifespan of the equipment.

• Processing Tanks: Utilized in tanks and vessels that handle corrosive slurries and leaching solutions.

10. Water Treatment

• Wastewater Treatment Plants: Used in equipment and tanks that treat industrial wastewater containing corrosive substances.

Titanium Steel Clad Plate Manufacturing Process

Surface Preparation:

• Both the titanium and steel plates undergo surface preparation, which includes cleaning to remove any contaminants that could interfere with the bonding process.

Assembly:

• The titanium and steel plates are aligned and stacked together in the desired configuration. The stacking sequence depends on the application and required properties of the clad plate.

Explosion Bonding:

• An explosive material, such as C4 or TNT, is placed on top of the titanium plate.

• Upon detonation, the explosive generates a high-pressure shock wave that drives the titanium plate into the steel plate.

• This impact causes the metals to bond metallurgically at their interface without melting, resulting in a strong bond.

• Explosion bonding is the primary method used to bond titanium and steel plates. In this process:

Post-Bonding Treatment:

• After the explosion bonding process, the clad plate undergoes heat treatment to relieve residual stresses and improve the overall mechanical properties of the bond interface.

Quality Control:

• Various non-destructive testing methods, such as ultrasonic testing and visual inspection, are conducted to ensure the integrity of the clad plate. These tests verify the bonding quality and detect any defects that may have occurred during the bonding process.

Trimming and Cutting:

• The clad plate is trimmed and cut to the required dimensions, ensuring it meets the specific requirements of the customer or the application.

Surface Finishing:

• Final surface finishing processes may be applied to the clad plate as per customer specifications, including polishing or coating, to enhance corrosion resistance or aesthetic appearance.

Packaging and Shipping:

• Once all quality checks and finishing processes are complete, the titanium steel clad plates are packaged securely for shipping to the customer or further processing.