Place of Origin:
Xi'an,China
Brand Name:
FHH
Model Number:
Titanium Wire
Titanium coil wire has emerged as a popular choice in various industrial applications, particularly in the medical field for braces welding. With its outstanding properties, such as high strength-to-weight ratio and exceptional corrosion resistance, titanium is well-suited for creating reliable and durable components. The demand for titanium coil wire, especially in 1mm and 2mm diameters, has increased significantly due to its effectiveness in orthodontic procedures. Understanding the pricing of these materials per kilogram can help professionals make informed decisions about sourcing and budgeting for their projects.
The unique properties of titanium coil wire make it an ideal material for braces welding. Titanium is known for its biocompatibility, which means it can be safely used within the human body without causing adverse reactions. This is particularly crucial in orthodontics, where materials must interact with sensitive tissues. Additionally, titanium's corrosion resistance ensures that braces made from this material will not degrade over time, maintaining their integrity and performance even under challenging conditions.
Moreover, the strength-to-weight ratio of titanium is another compelling advantage. Titanium is significantly lighter than steel yet possesses comparable strength, allowing orthodontists to provide effective treatments without adding unnecessary bulk to dental appliances. This lightweight characteristic contributes to patient comfort, as braces are less cumbersome and easier to wear throughout the treatment period. Such benefits highlight the importance of choosing high-quality titanium coil wire for braces welding.
When considering the purchase of titanium coil wire for braces welding, understanding the price per kilogram is essential for budgeting and procurement. The cost of titanium wire can vary based on several factors, including diameter, quality, and market trends. As of recent data, the price for 1mm titanium coil wire typically ranges between $50 to $80 per kilogram, while the 2mm variant may fall within the $60 to $90 range. These prices reflect the high demand and specialized manufacturing processes involved in producing titanium products.
Market fluctuations can impact the pricing of titanium wire, influenced by global supply and demand dynamics. Factors such as geopolitical events, changes in production capacity, and raw material costs all contribute to variations in pricing. Consequently, it is advisable for purchasing agents and orthodontic practices to stay informed about market trends and consider bulk purchasing options to secure more favorable rates.
Several key factors influence the pricing of titanium coil wire, particularly in the context of braces welding. First, the purity of the titanium plays a significant role; higher purity levels generally command higher prices due to the more complex extraction and refining processes involved. Grade 2 titanium, which is commonly used in medical applications, offers a balance of strength and ductility and is often preferred in the orthodontic industry.
Second, the manufacturing process impacts the final cost. The production of titanium coil wire involves several steps, including melting, forming, and heat treatment. Each stage requires specialized equipment and expertise, contributing to the overall expense. Furthermore, any additional treatments or coatings that enhance the wire’s properties can also increase the price, making it essential for buyers to assess their specific needs carefully.
Lastly, supplier relationships and distribution channels can affect pricing. Established suppliers may offer better deals based on volume discounts or long-term contracts. Therefore, orthodontic practices should evaluate different suppliers, compare quotes, and consider building relationships with trusted vendors to optimize costs while ensuring product quality.
Utilizing titanium coil wire for braces welding comes with numerous advantages that enhance treatment outcomes. One of the primary benefits is the material's exceptional strength, which allows braces to effectively withstand the forces exerted during orthodontic treatment. This strength ensures that the braces remain securely in place while gradually moving teeth into the desired positions.
Additionally, titanium's lightweight nature contributes to patient comfort, making it easier for individuals to adapt to wearing braces. Patients often report less irritation and discomfort when using titanium compared to heavier materials. This improved comfort can lead to better compliance with treatment plans, ultimately resulting in more successful orthodontic outcomes.
Moreover, titanium's biocompatibility is a significant advantage in dental applications. Since titanium interacts well with biological tissues, it minimizes the risk of allergic reactions or other complications. This characteristic is particularly important in orthodontics, where materials are in close contact with gums and oral tissues. The safety and reliability of titanium coil wire make it a preferred choice for professionals in the field.
In summary, titanium coil wire, particularly in 1mm and 2mm sizes, offers numerous benefits for braces welding, including excellent strength, light weight, and biocompatibility. Understanding the price per kilogram for these materials is crucial for orthodontic practices looking to make informed purchasing decisions. Although prices can vary based on factors such as purity and manufacturing processes, the investment in high-quality titanium wire is justified by the enhanced outcomes it provides. By staying informed about market trends and exploring various suppliers, practices can optimize their sourcing strategies while ensuring the best materials are used for patient care. The continued popularity of titanium in braces welding underscores its critical role in advancing orthodontic treatment and improving patient experiences.
| 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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