Place of Origin:
Xi'an,China
Brand Name:
FHH
Model Number:
Titanium Wire
GR23 titanium wire is an alloy primarily composed of titanium, aluminum, and vanadium. The typical composition includes approximately 90% titanium, 6% aluminum, and 4% vanadium. This specific blend results in enhanced strength and corrosion resistance compared to pure titanium. The "ELI" (Extra Low Interstitial) designation indicates that the alloy contains lower levels of oxygen, iron, and other interstitial elements, which significantly improves its ductility and impact toughness.
One of the hallmark features of GR23 titanium wire is its excellent strength-to-weight ratio. With a density considerably lower than steel yet comparable strength, it offers significant advantages in weight-sensitive applications, such as aerospace and medical devices. Additionally, GR23 titanium exhibits remarkable corrosion resistance, particularly against saltwater and harsh chemicals, making it ideal for use in marine and chemical processing environments.
GR23 titanium wire boasts impressive mechanical properties, including:
These characteristics make GR23 titanium wire suitable for high-performance applications where strength, resilience, and reliability are paramount.
One of the primary advantages of GR23 titanium wire is its excellent weldability. The ELI grade has been specifically designed to ensure superior performance in welding applications. It can be easily joined using various welding techniques, including TIG (Tungsten Inert Gas) and MIG (Metal Inert Gas) welding. Its low interstitial content minimizes the risk of embrittlement during the welding process, resulting in strong, reliable joints.
The corrosion resistance of GR23 titanium wire is another compelling reason for its use in demanding environments. The oxide layer that forms on the surface of titanium offers protection against oxidation and degradation, extending the lifespan of welded structures. This property is especially beneficial in marine applications, chemical processing facilities, and other environments where exposure to corrosive substances is inevitable.
In the medical field, biocompatibility is critical for materials used in implants and surgical instruments. GR23 titanium wire is exceptionally biocompatible, making it suitable for fabricating orthopedic implants, dental fixtures, and other medical devices. Its ability to integrate seamlessly with biological tissues without causing adverse reactions enhances patient safety and outcomes.
The lightweight nature of GR23 titanium wire translates to significant weight savings in applications where every gram counts. This is particularly advantageous in the aerospace sector, where reduced weight can lead to improved fuel efficiency and overall performance. By utilizing GR23 titanium wire, manufacturers can design components that not only meet strength requirements but also contribute to sustainability goals.
The aerospace industry is one of the leading sectors leveraging the benefits of GR23 titanium wire. It is utilized in the manufacture of critical components such as airframes, engine parts, and fasteners. The combination of high strength, low weight, and corrosion resistance makes GR23 titanium wire an ideal choice for aerospace applications, where performance and safety are paramount.
In the medical field, GR23 titanium wire is extensively used for producing surgical implants and instruments. Its biocompatibility ensures that it can be safely implanted in the human body, while its strength and corrosion resistance contribute to the longevity and reliability of medical devices. Applications include orthopedic implants, dental implants, and surgical tools, where precision and strength are essential.
The chemical processing industry benefits from GR23 titanium wire's corrosion resistance and mechanical properties. It is employed in the production of equipment such as reactors, tanks, and piping systems that must withstand aggressive chemicals and extreme temperatures. The durability of GR23 titanium wire prolongs the lifespan of these components, reducing maintenance costs and downtime.
Given its exceptional resistance to saltwater and corrosive environments, GR23 titanium wire is well-suited for marine applications. It is used in constructing components such as boat fittings, underwater equipment, and offshore structures. The ability to resist corrosion ensures that these components maintain their integrity even in harsh conditions, enhancing safety and performance.
The rise of additive manufacturing has opened new avenues for GR23 titanium wire. Its properties make it suitable for 3D printing applications, allowing for the creation of complex geometries and lightweight designs. Industries such as aerospace and medical are increasingly adopting additive manufacturing techniques to produce customized components that meet specific performance criteria.
GR23 titanium wire represents a significant advancement in welding materials, offering a combination of strength, corrosion resistance, and biocompatibility that is hard to match. Its versatile applications across various industries, including aerospace, medical, chemical processing, and marine, underscore its importance as a modern engineering material.
As industries continue to seek innovative solutions that prioritize performance and sustainability, GR23 titanium wire is poised to play a pivotal role in shaping the future of manufacturing. Its ability to meet the stringent demands of high-performance applications makes it a preferred choice for engineers and designers looking to push the boundaries of what is possible with titanium. In an era where quality and reliability are paramount, GR23 titanium wire stands out as a material that delivers on all fronts, ensuring its relevance in the years to come.
| Material | Pure titanium and Titanium alloy |
| Titanium Grade |
GR1/GR2/GR3/Gr4/GR5/GR7/GR9/GR12/Gr5Eli/Gr23 ERTi-1/ERTi-2/ERTi-3/ERTi-4/ERTi-5Eli/ERTi-7/ERTi-9/ERTi-11/ERTi-12 Ti15333/Nitinol Alloy |
| Standard | AWS A5.16/ASTM B863/ASME SB863, ASTMF67, ASTM F136, ISO-5832-2(3) etc |
| Shape | Titanium Coil Wire/Titanium Spool Wire/Titanium Straight Wire |
| Wire Gauge | Dia(0.06--6) *L |
| Process | Bar billets-hot rolling-drawing-annealing-strength-pickling |
| Surface | Polishing, picking, acid washed, black oxide |
| Main Technique | Hot Forged; Hot Rolled; Cold drawn; Straighten etc |
| Material Milling Certificate | According to. EN 10204.3.1 Including Chemical composition and Mechanical property |
| Application | Welding, Industry, Medical, Aerospace, Electronic etc |
| ASTM Base Metal Grade | Base metal | Normal composition | Recommended Filler Metal | |
| UTS(min.) ksi[Mpa] | YS(min.) ksi[Mpa] | |||
| Grade 1 | 35[240] | 20[138] | Unalloyed Ti CP1 | ERTi-1 |
| Grade 2 | 50[345] | 40[275] | Unalloyed Ti CP2 | ERTi-2 |
| Grade 4 | 80[550] | 70[483] | Unalloyed Ti CP4 | ERTi-4 |
| Grade 5 | 130[895] | 120[828] | Ti 6AL-4V | ERTi-5 |
| Grade 7 | 50[345] | 40[275] | Ti 0.15Pd | ERTi-7 |
| AWS | CHEMICAL SPECIFICATIONS | ||||||||
| AWS A5.16 | UNS | C | O | N | H | I | Al | V | Pd |
| Number | |||||||||
| ERTi 1 | R50100 | 0.03 | 0.03-0.10 | 0.012 | 0.005 | 0.08 | - | - | - |
| ERTi 2 | R50120 | 0.03 | 0.08-0.16 | 0.015 | 0.008 | 0.12 | - | - | - |
| ERTi 4 | R50130 | 0.03 | 0.08-0.32 | 0.025 | 0.008 | 0.25 | - | - | - |
| ERTi 5 | R56400 | 0.05 | 0.12-0.20 | 0.03 | 0.015 | 0.22 | 5.5-6.7 | 3.5-4.5 | - |
| ERTi 7 | R52401 | 0.03 | 0.08-0.16 | 0.015 | 0.008 | 0.12 | - | - | 0.12-0.25 |
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