| Customization: | Available |
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| Application: | Industrial |
| Shape: | Steel Bar |
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| Item Name | Titanium foil / strip |
| Type | GR1, GR2, GR3, GR4, GR5, 6AL4V Eli, GR7, GR9, GR12, GR23,TB3, TB6, TC4, TC6, TC11, TC17, TC18 |
| Standard | ASTM B265, AMS4911, AMS4911H, GB/T3621-2007 |
| Specification | 0.025-0.5mm Thickness 50-700mm width |
| Certificate | ISO 9001:2008 |
| Supply Ability | 100 Tons per Month |
| Delivery | Within 5~30 days |
| Grade | N | C | H | Fe | O | Al | V | Pa | Mo | Ni | Ti |
| Gr1 | 0.03 | 0.08 | 0.015 | 0.2 | 0.18 | / | / | / | / | / | bal |
| Gr2 | 0.03 | 0.08 | 0.015 | 0.3 | 0.25 | / | / | / | / | / | bal |
| Gr3 | 0.05 | 0.08 | 0.015 | 0.3 | 0.35 | / | / | / | / | / | bal |
| Gr4 | 0.05 | 0.08 | 0.015 | 0.5 | 0.4 | / | / | / | / | / | |
| Gr5 | 0.05 | 0.08 | 0.015 | 0.4 | 0.2 | 5.5~6.75 | 3.5~4.5 | / | / | / | bal |
| Gr7 | 0.03 | 0.08 | 0.015 | 0.3 | 0.25 | / | / | 0.12~0.25 | / | / | bal |
| Gr9 | 0.03 | 0.08 | 0.015 | 0.25 | 0.15 | 2.5~3.5 | 2.0~3.0 | / | / | / | bal |
| Gr12 | 0.03 | 0.08 | 0.015 | 0.3 | 0.25 | / | / | / | 0.2~0.4 | 0.6~0.9 | bal |
| Grade | Tensile strength(min) | Yield Strength(min) | Elongation(%) | ||
| ksi | MPa | ksi | MPa | ||
| Gr1 | 35 | 240 | 20 | 138 | 24 |
| Gr2 | 50 | 345 | 40 | 275 | 20 |
| Gr3 | 65 | 450 | 55 | 380 | 18 |
| Gr4 | 80 | 550 | 70 | 483 | 15 |
| Gr5 | 130 | 895 | 120 | 828 | 10 |
| Gr7 | 50 | 345 | 40 | 275 | 20 |
| Gr9 | 90 | 620 | 70 | 438 | 15 |
| Gr12 | 70 | 438 | 50 | 345 | 18 |
Properties of Titanium Alloy Tubes
Performance of Titanium Alloy Tubes: As a premier metal, titanium's performance is fine-tuned by impurity levels of carbon, nitrogen, hydrogen, and oxygen. The pinnacle of purity, titanium iodide, boasts impurity levels below 0.1%, offering high plasticity despite its low strength. Industrial pure titanium, at 99.5% purity, features a density of ρ=4.5g/cm³, melts at 1725ºC, and has a thermal conductivity of λ=15.24W/(m.K). Its tensile strength is σb=539MPa, with an elongation of δ=25% and section shrinkage of ψ=25%. The elastic modulus is E=1.078×105MPa, and its hardness stands at HB195.
Advantages of Titanium Alloys
Titanium alloys present a myriad of outstanding benefits when compared to other metallic materials:
These alloys boast an exceptional strength-to-density ratio (tensile strength/density), with tensile strengths ranging impressively between 100 to 140kgf/mm², all while retaining a mere 60% of the density found in steel.
Even at elevated temperatures, these alloys maintain remarkable strength, outperforming aluminum alloys. They consistently deliver the necessary strength at higher temperatures, ensuring reliable performance over extended periods within the 450 ~ 500 °C range.
Titanium's corrosion resistance is nothing short of extraordinary. It develops a uniform, robust oxide film on its surface, defending against a wide array of media. In oxidizing and neutral environments, titanium's corrosion resistance is superb, further amplified in seawater, wet chlorine gas, and chloride solutions. However, its performance in reducing environments, such as hydrochloric acid, is comparatively less robust.
Titanium alloys, notably with minimal gap elements like TA7, exhibit outstanding low-temperature performance, retaining impressive plasticity even at a frigid -253°C.
These alloys are distinguished by a low elastic modulus, reduced thermal conductivity, and non-ferromagnetic properties, making them unique.
Exemplary Hardness.
Although titanium alloys possess limited stamping capabilities, their thermoplasticity remains notably commendable.
The heat treatment process can be finely tuned to achieve diverse phase compositions and microstructures in heat-treated titanium alloys. Typically, a refined equiaxial structure offers commendable plasticity, thermal stability, and fatigue strength. In contrast, an acicular structure provides impressive enduring strength, creep strength, and fracture toughness. A strategic combination of equiaxed and acicular structures ensures a balance of attributes, delivering comprehensive advantages.
Common heat treatment approaches include annealing, solution treatment, and aging. Annealing is crucial for eliminating internal stresses, enhancing plasticity, and stabilizing the structure to obtain superior comprehensive properties. Generally, the annealing temperature for α alloy and (α+β) alloy is set 120-200ºC below the (α+β) -→ β phase transformation point. Solution and aging treatment involve rapid cooling from a high-temperature zone to form martensitic α 'phase and metastable β phase. These metastable phases then decompose in an intermediate temperature zone, forming α phase or compounds and other minor dispersed second-phase particles, thereby fortifying the alloy. For (alpha + beta) alloys, quenching occurs 40-100ºC below the alpha + beta) -- - > beta phase transition point, whereas metastable beta alloys quench 40-80ºC above this point. The typical aging treatment temperature spans from 450-550ºC. Additionally, to meet special workpiece requirements, the industry adopts double annealing, isothermal annealing, β heat treatment, deformation heat treatment, and other sophisticated metal heat treatment processes.
Product Parameter
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Product name |
TA7 titanium pipe/tube |
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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 |
Titanium tube (jewelry special) specifications:ф20mm-ф28mm*(2mm,2.5mm,3mm), Thin-walled titanium tube:ф8*1.5, ф12*1, ф12.7*0.7, ф16*0.8, ф16*2, ф19*0.8, ф19*1, ф19*ф25*2, ф38*1 ,ф50*1 ,ф19*1.2, ф25*1.2 |
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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 |
Ordinary annealing state TC6 titanium alloy has good microstructure and property stability below 300ºC/5000h, and high temperature properties such as instantaneous tensile, creep and durability at different temperatures are equivalent to double annealing and isothermal annealing state. The semi-finished TC6 titanium alloy processed by ordinary annealing can meet the requirements of the service temperature of aircraft structural parts (below 300ºC). |
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Delivery status |
Hot working state, annealing state |
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Export Packing |
Standard Seaworthy Package |
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Technical Specification
| main technical parameters: | ||
| Nominal diameter DN (mm) | Measuring diameter (mm) | Material |
| 15 | 18 | TA2 |
| 20 | 25 | TA2 |
| 25 | 32 | TA2 |
| 32 | 38 | TA2 |
| 40 | 45 | TA2 |
| 50 | 57 | TA2 |
| 65 | 76 | TA2 |
| 80 | 89 | TA2 |
| 100 | 108 | TA2 |
| 125 | 133 | TA2 |
| 150 | 159 | TA2 |
| 200 | 219 | TA2 |
| 250 | 273 | TA2 |
| 300 | 325 | TA2 |
| 350 | 377 | TA2 |
| 400 | 426 | TA2 |
| 450 | 480 | TA2 |
| 500 | 530 | TA2 |
| 600 | 630 | TA2 |
Titanium alloy is primarily employed in the manufacturing of aircraft engine compressor components and is a key material for structural parts in rockets, missiles, and high-speed aircraft. Since the mid-1960s, titanium and its alloys have diversified into general industrial applications, such as electrodes in the electrolytic industry, condensers in power stations, oil refining, seawater desalination heaters, and environmental pollution control devices. As a result, titanium and its alloys have emerged as leading corrosion-resistant structural materials. Additionally, they find significant use in the production of hydrogen storage materials and shape memory alloys.
China embarked on titanium and its alloys research in 1956, achieving industrial production of titanium materials by the mid-1960s and developing the TB2 alloy.
Our Advantages
Qualitative Materials:
We employ only the finest, top-tier raw materials, ensuring that our products deliver outstanding strength, resilience, and longevity.
Advanced Technology:
Our manufacturing processes leverage state-of-the-art technologies, including advanced smelting, continuous casting, and rolling techniques, ensuring precision and excellence.
Customized Service:
We provide tailored design and manufacturing services to meet the specific needs and requirements of our esteemed customers.
FAQ
Q1: Why choose your company?
A: Distinguished by over 16 years of unmatched industry prowess, Shanghai Bolaisheng Metal Group Co., Ltd. proudly stands as a leader in the field. Our cutting-edge in-house factory is a cornerstone of our operations, allowing us to provide exceptional services. These are seamlessly complemented by our professional and dedicated sales team, ensuring that every interaction is characterized by excellence and satisfaction.
Q2: What are your terms of payment?
A: We uphold a straightforward payment process, requiring a 30% T/T deposit upfront to commence the order, with the balance of 70% payable before the goods are dispatched. This ensures a smooth and reliable transaction every time.
Q3: What are your delivery terms?
A: Our flexible delivery terms are tailored to meet global standards, including FOB, CFR, CIF, and EXW. This versatility ensures that our clients can select the most convenient and cost-effective option for their shipping needs.
Q4: What is your delivery time?
A: We offer a competitive lead time, typically spanning from 7 to 15 days post receipt of the deposit. This prompt turnaround is a testament to our commitment to efficiency and customer satisfaction.
Q5: Can you provide samples?
A: Absolutely, we are pleased to offer complimentary samples when available from stock. While we cover the cost of the samples themselves, the logistical expenses for transportation are the responsibility of the buyer. This ensures you can evaluate our products effectively.
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