China Supplier Factory Price G (6AI-2Nb-1Ta-0.8Mo) 1mm 2mm 3mm 4mm 5mm Thin Titanium Sheet Plate Stock

Titanium alloy is a sophisticated blend of titanium with other elements, engineered to maximize its superior qualities. This remarkable material exhibits two distinct crystal forms: the close-packed hexagonal structure α titanium when below 882ºC, and the body-centered cubic β titanium when above 882ºC. Technical Requirements: 1: The chemical composition of titanium and its alloys must adhere to GB/T 3620.1 standards, with any permissible deviations during reinspection complying with GB/T 3620.2 guidelines. 2: Thickness deviations must align precisely with the specifications outlined in Table 1. 3: Width and length deviations are required to meet the standards specified in Table 2. 4: Ideally, plate corners should be cut to perfect right angles, with permissible inclines not exceeding the specified width and length deviations.

Titanium Alloy Plate Production Specifications
Dimensions: T 0.5-1.0mm x W1000mm x L 2000-3500mm

Dimensions: T 1.0-5.0mm x W1000-1500mm x L 2000-3500mm
Dimensions: T 5.0-30mm x W1000-2500mm x L 3000-6000mm
Dimensions: T 30-80mm x W1000mm x L 2000mm

Alloying Process

Titanium alloy is a sophisticated blend of titanium with other elements, engineered to maximize its superior qualities. This remarkable material exhibits two distinct crystal forms: the close-packed hexagonal structure α titanium when below 882ºC, and the body-centered cubic β titanium when above 882ºC.
Alloying elements are meticulously categorized into three types based on their impact on the phase transition temperature:
1. α Stabilizing Elements: These elements elevate the phase transition temperature and stabilize the α phase. Notable α stabilizers include aluminum, carbon, oxygen, and nitrogen. Aluminum, in particular, significantly enhances the alloy's strength at both room and elevated temperatures, reduces density, and increases elastic modulus.
2. β Stabilizing Elements: These elements lower the phase transition temperature and stabilize the β phase. β stabilizers are further classified into isomorphic (e.g., molybdenum, niobium, vanadium) and eutectoid types (e.g., chromium, manganese, copper, iron, silicon).
The isomorphic type includes molybdenum, niobium, and vanadium, while the eutectoid type encompasses chromium, manganese, copper, iron, and silicon.
3. Neutral Elements: Elements such as zirconium and tin have minimal influence on the phase transition temperature.
Impurities like oxygen, nitrogen, carbon, and hydrogen significantly affect titanium alloys. Oxygen and nitrogen, which have high solubility in the α phase, enhance strength but reduce plasticity. Typically, oxygen and nitrogen content in titanium is limited to 0.15~0.2% and 0.04~0.05%, respectively. Hydrogen, with limited solubility in the α phase, can cause brittleness through hydride formation if in excess, necessitating that hydrogen content be kept below 0.015%. Hydrogen dissolution in titanium is reversible and can be mitigated by vacuum annealing.
Product Parameter Details

Applications

Titanium plates are predominantly utilized in the shipbuilding industry due to their exceptional corrosion resistance, low density, memory, and non-magnetic properties. Titanium and its alloys are extensively used in nuclear submarines, deep submersibles, atomic icebreakers, hydrofoils, hovercraft, minesweepers, propellers, whip antennas, seawater pipes, condensers, heat exchangers, acoustic devices, and fire-fighting equipment. Key product categories include industrial pure titanium, titanium-zirconium alloys, and custom titanium alloys.
(1) All Titanium Ships. F1 is at the forefront of titanium vessel construction, boasting extensive practical experience since the 1990s. Innovators like Toho Titanium Co., LTD., Nikko Industrial Co., LTD., Fuji Shin Shipyard, and Eteng Shipyard have pioneered crafting titanium fishing boats and speedboats. These vessels are renowned for being lightweight, speedy, and cost-efficient, with smaller engines, reduced fuel consumption, and lower carbon dioxide emissions. They require no surface coating and feature easy-to-clean accessories. Despite the high material costs, complex manufacturing processes, and rigorous protection requirements, the advantages are undeniable. Test results reveal excellent speed stability, minimal vibration, and low noise.
(2) Atomic-Powered Ships. Russian innovations have seen titanium alloy supplant stainless steel in steam engines, heat exchangers, and ship coolers, drastically reducing corrosion and extending the lifespan of these components. Titanium steam engines are now a mainstay in Russian atomic icebreaker power plants, with titanium alloy enhancing engine longevity by an astounding 10-fold.
(3) Propellers. Propeller materials must be robust, fatigue-resistant, and impervious to erosion and cavitation in seawater. Titanium alloy meets these stringent criteria. The U.S. Navy was a pioneer, utilizing a 1,500 mm diameter, four-bladed detachable titanium alloy propeller on a hydrofoil. China's journey began in 1972, and today, various titanium alloy propellers ranging from 450-1700mm in diameter are produced. We manufacture titanium alloy fixed propellers up to 1200mm in diameter and 130kg in weight. Long-term use shows titanium alloy propellers last more than five times longer than their copper counterparts.
(4) Marine Pumps, Valves, and Pipes. Traditional copper and stainless steel parts last just 2-5 years in harsh conditions. Titanium alloy replacements have proven to be highly effective, especially for large-flow mobile seawater pipelines. According to Russian standards, ship pipelines must adhere to a maintenance-free period of 8-9 years, a service life of no less than 15 years, and reliable operation for 25-30 years across all vessel types.

Our Advantages

Qualitative Materials:

We leverage premium, top-grade raw materials to ensure our products offer unmatched strength, resilience, and longevity.

Advanced Technology:

Our manufacturing processes incorporate state-of-the-art technologies, including advanced smelting, continuous casting, and rolling techniques.

Customized Service:

We provide bespoke design and manufacturing services tailored to meet the unique needs and specifications of our clients.

FAQ

Q1: Why choose your company?

A: With over 16 years of unparalleled industry expertise and a state-of-the-art factory, we offer exceptional services, supported 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% payable before delivery.

Q3: What are your delivery terms?

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

Q4: What is your delivery time?

A: Our standard lead time is between 7 to 15 days after receiving the deposit.

Q5: Can you provide samples?

A: Yes, we offer complimentary samples if available in stock. However, the buyer must cover the transportation fees.
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