Customization: | Available |
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Application: | Industrial |
Shape: | Steel Plate |
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T 1.0-5.0mm x W1000-1500mm x L 2000-3500mm
T 5.0-30mm x W1000-2500mm x L 3000-6000mm
T 30-80mm x W1000mm x L 2000mm
Alloying
Titanium alloy is a sophisticated blend of titanium with other elements, engineered to enhance its properties. Titanium exhibits two homogeneous crystal forms: the close-packed hexagonal structure α titanium below 882ºC, and the body-centered cubic β titanium above 882ºC.
Alloying elements are classified into three categories based on their influence on the phase transition temperature:
1. α Stabilizing Elements: These elements increase 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 reduce the phase transition temperature and stabilize the β phase. β stabilizers can be further divided into isomorphic (e.g., molybdenum, niobium, vanadium) and eutectoid types (e.g., chromium, manganese, copper, iron, silicon).
The former includes molybdenum, niobium, and vanadium; the latter includes chromium, manganese, copper, iron, and silicon.
3. Neutral Elements: Elements like zirconium and tin have minimal impact on the phase transition temperature.
Impurities such as oxygen, nitrogen, carbon, and hydrogen significantly affect titanium alloys. Oxygen and nitrogen, which have high solubility in the α phase, enhance strength but decrease plasticity. Typically, the 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, thus maintaining hydrogen content below 0.015% is crucial. Hydrogen dissolution in titanium is reversible and can be mitigated by vacuum annealing.
Product Parameter
Product name |
Grade4 Grade F-4 titanium plate |
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Material |
TA0,TA1,TA2,TA3,TA4,TA5,TA6,TA7,TA9,TA10,TC1,TC2,TC3,TC4,TC6,TC11,GR1,GR2,GR3,GR5 Ti6AL4V ELI,Ti6AL7Nb,Ti13Nb13Zr,Ti1533 |
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Specification |
0.8mm---16mm(as you requirement) |
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Surface state |
Black surface, polished surface, polished surface (H11, H9, H8) |
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Standard |
GB/T,GJB,AWS,ASTM,AMS,JIS |
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Production technology |
Hot forging - Hot rolling - Annealing straightening - Polishing - Flat head - Inspection - packaging |
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Typical uses |
Aerospace, aviation, navigation, ships, seawater desalination, petroleum, chemical industry, machinery and equipment, nuclear power equipment, electric power equipment, automobile and motorcycle parts, sports and leisure, medical parts, steel and metallurgy, high-tech fields. |
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Delivery status |
Hot working state, annealing state |
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Thickness |
as customer's requirement |
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Export Packing |
Standard Seaworthy Package |
Grade 4 Chemical element content (%) | |||||||
element | Fe | C | N | H | O | Other individual | other totals |
Min | - | - | - | - | - | - | - |
Max | 0.5 | 0.08 | 0.05 | 0.015 | 0.4 | 0.1 | 0.4 |
Grade 4 mechanical property | |||||
condition | Heat treatment or condition | strength of extension | yield point | Elongation or elongation after breaking | percentage reduction of area |
σb | σs | δ | ψ | ||
Mpa | Mpa | % | % | ||
Rods;d≤76;S≤64.5 | anneal | ≥550 | ≥483 | ≥15 | ≥25 |
d= Diameter or parallel plane distance or thickness, in mm | |||||
S= section area, unit square centimeter |
Application
Titanium plates are predominantly utilized in the shipbuilding industry, leveraging their exceptional corrosion resistance, low density, memory, and non-magnetic properties. Titanium and its alloys find extensive applications 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.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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