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Fil de soudure en titane Stock à vendre
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Vue d'ensemble du fil de soudure en titane
Fabriqué à partir de titane pur ou d'alliages de titane, Yesheng Titanium Weld Wire est un produit de fil de soudage de qualité supérieure. Pour les industries aérospatiale, médicale, chimique, marine et automobile, ces fils de soudage sont fréquemment utilisés pour joindre différentes pièces et composants en titane. La haute résistance, la résistance à la corrosion et la capacité de soudage exceptionnelle du fil de soudure en titane Yesheng en font un choix populaire. Prix concurrentiel du fil de soudage titane enquête!Yeshengti est unFournisseur de fil de titanePour les sélections personnalisées, cliquez ici pour en savoir plus.
Caractéristiques du fil de soudure en titane
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Haute résistance: Le fil de soudure en titane a un rapport résistance/poids très élevé, ce qui en fait un matériau idéal pour de nombreuses applications hautes performances.
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Résistance à la corrosion: le titane est très résistant à la corrosion dans un large éventail d'environnements, y compris l'eau de mer, les acides et les solutions alcalines.
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Faible dilatation thermique: le titane a un très faible coefficient de dilatation thermique, conduisant à une excellente stabilité dimensionnelle.
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Point de fusion élevé: Le titane a un point de fusion élevé, ce qui le rend approprié pour une utilisation dans des applications à haute température.
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Bonne conductivité électrique: Le titane a une bonne conductivité électrique, ce qui le rend idéal pour une utilisation dans des applications électriques.
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Léger: Le titane est léger, ce qui le rend adapté à une utilisation dans des applications où le poids est un facteur critique.
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Biocompatible: Le titane est biocompatible, ce qui le rend idéal pour une utilisation dans les implants médicaux.
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Non magnétique: Le titane est non magnétique, ce qui le rend idéal pour une utilisation dans des applications où les champs magnétiques doivent être évités.
Titanium Weld Wire Specification
| Product Name | Titanium wire |
| Grade | GR1, GR2, GR5, GR5ELI, GR7, GR9, GR12, GR23, Ti-4Al-2V, Ti-4Al-1.5Mn. |
| Size | Diameter 0.02mm-5mm or as your request |
| Standard | ASTM F1341-1999, AMS4951-2003, AMS4954-2003, BS2TA28:1974, GB/T3623-2007, GJB2219-1994, ΓOCT27265-87, JISH4670-1993, DIN17863-1973 |
| Brand Name | Yesheng |
| Application | chemical industry, Aerospace, deep sea, military, medical, etc. |
| Feature | High corrosion resistance, low density, good thermal stability, High strength and light weight. |
| Technics | hot rolled and cold rolled, extruded. |
| Surface | Annealed surface, pickled surface, bright surface. |
| Packing | Export Standard Woodcase |
| MOQ | as your request |
| Payment terms | T/T, Western Union, PayPal. |
| Certificate | ISO 9001:2015; The third test report. |
| Delivery time | 10—25days according to the quantity and process of the product |
| Quality and test | Ingredient testing |
| Price Term: | CIF CNF/CFR FOB Ex-work |
Welding method of titanium welding wire
Welding titanium welding wire is a critical process that demands precision and expertise due to the unique properties of titanium alloys. Several welding methods are available for working with these materials, each with its own advantages and considerations.
Gas tungsten arc welding (GTAW), also known as TIG (tungsten inert gas) welding, is one of the most commonly used methods for welding titanium alloys. It is favored for its ability to produce high-quality welds and its versatility in achieving good results. TIG welding is known for its clean and precise welds, making it a preferred choice in aerospace, medical, and high-performance applications.
Gas metal arc welding (GMAW), or MIG (metal inert gas) welding, is another commonly used method for welding titanium. It is especially suitable for certain situations, such as when high deposition rates are required. This method offers efficiency and ease of use while ensuring strong and reliable welds.
Other methods, like resistance welding, plasma arc welding, and electron beam welding, can also be used for titanium alloys but are relatively limited in their applications.
Additionally, more advanced techniques like laser welding offer benefits in terms of speed and precision, making them suitable for specific requirements.
In summary, the welding method for titanium welding wire is carefully selected based on the specific needs of the application, taking into account factors like material thickness, joint configuration, and the desired weld quality. Each method has its unique strengths, allowing for tailored solutions in various industries, including aerospace, medical, and high-performance manufacturing.
Manufacturing quality certifications for titanium welding wire
Manufacturing quality certifications for titanium welding wire are essential to ensure the reliability and performance of this crucial material in various industries. Titanium welding wire is a vital component used in welding titanium alloys and custom titanium products, and adhering to stringent quality standards is paramount.
Certifications for titanium welding wire manufacturing typically include compliance with industry-recognized standards such as AWS A5.16. This standard specifies the requirements for titanium and titanium alloy welding wire, ensuring that it meets precise composition and quality specifications. The different grades, such as ErTi-2, ErTi-3, ErTi-5, ErTi-7, and Er-12, adhere to these standards, reflecting the specific alloy composition and characteristics suitable for distinct applications.
Quality certifications are a testament to the commitment of manufacturers to maintain consistency and precision in the production of titanium welding wire. These certifications ensure that the material meets the demands of critical industries like aerospace, medical, and high-performance manufacturing, where precision, reliability, and performance are non-negotiable.
Having the appropriate quality certifications guarantees that titanium welding wire aligns with the stringent requirements of industries, reinforcing its value as an indispensable material for welding titanium alloys, and ensuring that it delivers the expected performance and longevity in critical applications.
