Titanium Sheet Ti Ta6 Titanium Plate Supplier Titanium Plate

Titanium alloy, a marvel of modern metallurgy, is composed of titanium enriched with other elements. Titanium itself exhibits two distinct crystal structures: below 882ºC, it boasts a close-packed hexagonal structure (α titanium), while above 882ºC, it transforms into a body-centered cubic structure (β titanium). Our technical expertise ensures compliance with stringent standards: 1. The chemical composition of titanium and its alloys strictly adheres to GB/T 3620.1, with permissible deviations as specified in GB/T 3620.2 upon buyer's reinspection. 2. Thickness deviations align with Table 1 provisions. 3. Width and length deviations meet Table 2 standards. 4. Plates feature precision-cut right-angle corners, with inclines within allowable deviations for both length and width.

Titanium Alloy Plate Production Specifications
Thickness (T): 0.5-1.0mm | Width (W): 1000mm | Length (L): 2000-3500mm

Thickness (T): 1.0-5.0mm | Width (W): 1000-1500mm | Length (L): 2000-3500mm
Thickness (T): 5.0-30mm | Width (W): 1000-2500mm | Length (L): 3000-6000mm
Thickness (T): 30-80mm | Width (W): 1000mm | Length (L): 2000mm

Alloying

Titanium alloy, a composite of titanium with additional elements, presents two homogeneous crystal forms: below 882ºC, the α phase with a close-packed hexagonal structure, and above 882ºC, the β phase with a body-centered cubic structure.
Alloying Elements Categorized by Phase Transition Temperature Effects:
1. α Stable Elements: These elements, including aluminum, carbon, oxygen, and nitrogen, stabilize the α phase and elevate the phase transition temperature. Aluminum, the primary alloying element, significantly enhances strength at both room and high temperatures, reduces specific gravity, and increases elastic modulus.
2. β Stable Elements: These elements stabilize the β phase and lower the phase transition temperature. They are further classified into isomorphic (e.g., molybdenum, niobium, vanadium) and eutectoid types (e.g., chromium, manganese, copper, iron, silicon).
Isomorphic β stabilizers include molybdenum, niobium, and vanadium, while eutectoid types include chromium, manganese, copper, iron, and silicon.
3. Neutral Elements: These elements, such as zirconium and tin, impart minimal effect on the phase transition temperature.
Impurities in Titanium Alloys: Oxygen, nitrogen, carbon, and hydrogen are primary impurities. Oxygen and nitrogen, with high solubility in the α phase, significantly strengthen the alloy but reduce its plasticity. Maximum allowable contents are 0.15-0.2% for oxygen and 0.04-0.05% for nitrogen. Hydrogen, with minimal solubility in the α phase, can form brittle hydrides if excessive. Therefore, hydrogen content is restricted to below 0.015% and can be mitigated through vacuum annealing.
Product Parameter

Applications

Titanium Plate Applications in Shipbuilding: Renowned for its exceptional corrosion resistance, low density, shape memory, and non-magnetic properties, titanium and its alloys are indispensable in nuclear submarines, deep-sea submersibles, atomic icebreakers, hydrofoils, hovercrafts, minesweepers, propellers, whip antennas, seawater pipes, condensers, heat exchangers, acoustic devices, and firefighting equipment. The primary titanium alloys include industrial pure titanium, titanium-zirconium alloys, and specialized titanium alloys.
(1) All Titanium Ships: F1 has substantial experience in crafting titanium boats. Throughout the 1990s, industry leaders such as Toho Titanium Co., LTD., Nikko Industrial Co., LTD., Fuji Shin Shipyard, and Eteng Shipyard produced all-titanium fishing boats and speedboats. These vessels boast numerous benefits: lightweight construction, rapid speeds, compact engines, reduced fuel costs, lower carbon emissions, no need for surface coating, and easy-to-clean accessories. Despite these advantages, challenges include high material costs, complex manufacturing processes, and stringent protection requirements. Tests confirm these ships exhibit excellent speed stability, minimal vibration, and low noise levels.
(2) Atomic Powered Ships: In Russia, titanium alloys replace stainless steel in the fabrication of steam engines, heat exchangers, and ship coolers, effectively combating corrosion. These titanium steam engines are extensively utilized in the power plants of Russian atomic icebreakers. Employing titanium alloys significantly prolongs engine life, making them last up to 10 times longer than their counterparts.
(3) Propellers: Materials for propellers must possess high strength, robust fatigue performance, and resistance to erosion and cavitation in seawater. Titanium alloys fulfill all these rigorous requirements. The U.S. Navy pioneered the use of a 1,500 mm diameter, four-bladed detachable titanium alloy propeller on a hydrofoil. China began developing hydrofoil speedboat propellers in 1972. Today, various titanium alloy propellers are available, with diameters ranging from 450-1700mm. They are capable of producing a titanium alloy fixed propeller with a 1200mm diameter and 130kg mass. Long-term usage reveals that titanium alloy propellers outlast copper alloy propellers by more than five times.
(4) Marine Pumps, Valves, and Pipes: Devices made from copper and stainless steel typically last 2-5 years under harsh marine conditions. Titanium alloy replacements offer significantly better performance, especially in large flow mobile seawater pipelines. According to Russian standards, the lifespan of ship piping requires three benchmarks: an initial docking maintenance period of 8-9 years, a minimum service life of 15 years, and reliable operation for 25-30 years across all vessel types.

Our Advantages

Qualitative Materials:

We utilize premium, top-grade raw materials to ensure our products deliver superior strength, resilience, and longevity.

Advanced Technology:

Our manufacturing processes incorporate cutting-edge technologies, including advanced smelting, continuous casting, and rolling techniques.

Customized Service:

We offer bespoke design and manufacturing services to meet the unique needs and requirements of our customers.

FAQ

Q1: Why choose your company?

A: With over 16 years of unparalleled industry expertise and the advantage of having our own state-of-the-art factory, we deliver exceptional services that are further enhanced by our professional and dedicated sales team.

Q2: What are your terms of payment?

A: We require a 30% T/T deposit upfront, with the remaining 70% due before delivery.

Q3: What are your delivery terms?

A: Our terms include FOB, CFR, CIF, and EXW.

Q4: What is your delivery time?

A: Our standard lead time ranges from 7 to 15 days after receiving the deposit.

Q5: Can you provide samples?

A: Yes, we offer complimentary samples if they are available in stock. However, the transportation fees must be borne by the buyer.
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