loading
| Name | Titanium Strip andFoil,Tape | Dlivery Status |
| According to your requirements or sheet Hot rolling cold rolling coil rolling-annealing cold rolling-annealing smooth according to your Hardness Requirements | ||
| Standard | GB/T3621.ASTM B265 | |
| Certification | IOS9001:2015,ISO/TS 16949:2009 | |
| Wall thickness | 0.08-3.0mm | |
| Allowable width Deviation | +/-0.15 mm | |
| Material | Gr1(TA1),Gr2(TA2),Gr12(TA10) | |
| Delivery time | Within 25 days after receiving deposit | |
| Payment term | T/T,L/C | |
| Supply ability | 250 tons per month | |
| Packing | Export standard package with polywood pallet or ISPM 15 stamped wooden case | |
| Information | Max coil weight:10000KG Coil inner Diameter Φ500/600/610/762 The Narrowest slitting slip width:15mm Max Length:5600M |
牌号 Grade | 厚度 Thickness(mm) | 厚度允许偏差 Allowable Thickness Deviation(mm) | 材料宽度 Width(mm) | 允许宽度偏差 Allowable width Deviation(mm) | |
普通精度 General precision | 高精度 High Precision | ||||
TA1/GR1 TA4/GR4 TA2/GR2 TC4/GR5 TA10/GR12 | 0.01<T≤0.1 | +/-0.01 | +/-0.005 | 5~1200 | +/-0.1 |
0.1<T≤0.6 | +/-0.01 | +/-0.005 | |||
0.6<T≤1.0 | +/-0.01 | +/-0.005 | |||
+/-0.02 | +/-0.01 | ||||
1.0<T≤2.0 | |||||
牌号 Grade | 状态 Status | 室温力学性能 Room-Temperature Mechanical Properties | |||
抗拉强度Rm/Mpa Tensile Strength Rm/Mpa | 规定非比例延伸强度Rp0.2/Mpa Provisions of Non-proportional Extension Intensity Rp0.2/Mpa | 断后伸长率A50 mm/% Precentage Elongation after Fracture | |||
TA1/GR1 | 退火态 Annealed | ≥240 | 140~310 | ≥24% | |
TA2/GR2 | ≥400 | 275~450 | ≥20% | ||
TA10/GR12 | ≥460 | ≥300 | ≥18% | ||
Titanium coils are typically produced into titanium tubes through a process called tube forming or tube welding. Here is a general overview of the steps involved in converting titanium coils into titanium tubes:
Coil Preparation: The titanium coil is first uncoiled and straightened to prepare it for further processing. This may involve passing the coil through a series of rollers or straightening machines to remove any bends or deformations.
Tube Forming: The straightened titanium coil is then fed into a tube forming machine, which shapes the coil into a tube. The machine uses a combination of rollers and mandrels to gradually bend and shape the titanium coil into the desired tube shape.
Welding: Once the titanium coil is formed into a tube shape, the edges of the coil are brought together to create a seam. The seam is then welded using a suitable welding technique, such as TIG (Tungsten Inert Gas) welding or laser welding. The welding process ensures the seam is securely joined and forms a continuous tube.
Heat Treatment: After welding, the titanium tube may undergo a heat treatment process to relieve any stresses and improve the mechanical properties of the welded seam. This heat treatment process helps to enhance the strength and integrity of the titanium tube.
Finishing and Inspection: The titanium tube may undergo various finishing processes, such as polishing or cleaning, to remove any surface imperfections or contaminants. The tube is then inspected for dimensional accuracy, weld quality, and overall integrity to ensure it meets the required specifications and standards.
It's important to note that the specific details of the tube forming and welding processes may vary depending on the equipment, techniques, and quality standards employed by the manufacturer. The production of titanium tubes from coils requires specialized machinery and skilled operators to ensure the tubes meet the desired specifications and performance requirements.
