1. Classified by functional structure

Cannon seat plate: The titanium alloy seat plate can withstand recoil impact and has better deformation resistance than traditional steel parts;

Cannon barrel and bracket: made of α+β titanium alloy, which combines high strength and fatigue resistance, suitable for high-frequency shooting scenarios.

2. Classify by equipment type

Mortar titanium turret: such as the Chinese 83-1 and American T227 mortars, with a fully titanium alloy design to enhance portability;

Vehicle mounted turret: integrated into armored vehicles, reducing overall weight and enhancing blast resistance.

Brand: TC4, TA7, TA15 TC4 ELI。

1. Material preparation:

Melting: Vacuum consumable electric arc furnace melting, controlling oxygen content ≤ 0.15% to optimize mechanical properties;

2. Molding process:

Forging: 950 ℃ forging to improve grain uniformity;

Additive manufacturing: 3D printing technology integrates complex internal flow channels, with a material utilization rate of up to 85%;

3. Precision machining:

Cold rolling/cold drawing: Processing titanium alloy bars to the target size, with a surface roughness Ra ≤ 0.4 μ m;

Cutting optimization: using diamond coated cutting tools to reduce the risk of titanium alloy sticking to the tool;

4. Surface strengthening: Shot blasting treatment improves fatigue resistance and extends service life.

Lightweight advantage: The titanium turret system reduces weight by 30-50% compared to traditional steel components, significantly improving individual mobility;

High strength bearing: TC4 alloy has a yield strength of 830MPa and can withstand more than 5000 shooting impacts;

Extreme environmental adaptability: TA7 titanium alloy maintains toughness at low temperatures of -50 ℃, avoiding brittle fracture;

Corrosion resistance: The surface TiO ₂ oxide film resists moisture and salt spray corrosion, extending the service life by 5 times in tropical marine environments.

Individual weapons, Marine Corps, polar combat, armored vehicles.