ERTi-5 Titanium Welding Wire | Titanium Alloy Filler Metal

ERTi-5 (Titanium Grade 5) Titanium Welding Wire

Titanium alloy filler metal for welding alloys of similar composition in applications requiring high strength and good weldability

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Chemical Composition (%)

Fe	O	C	N	H	Al	V
≤0.22	0.12-0.20	≤0.05	≤0.03	≤0.015	5.5-6.75	3.5-4.5

Features

ERTi-5 offers excellent strength, making it ideal for applications requiring materials that can withstand high stress.
This alloy performs exceptionally well in various corrosive environments, making it ideal for industries like chemical and others that demand corrosion-resistant materials.
ERTi-5 maintains stable performance in high-temperature environments, ensuring reliable functionality under extreme conditions.

Applications

Aerospace: Due to its lightweight, high strength, and corrosion resistance, ERTi-5 is widely used in aircraft engine blades, airframe structures, and landing gears, among other critical components.
Shipbuilding and marine engineering: Known for its superior corrosion resistance, ERTi-5 is used in welding hull structures, propellers, and pipeline systems.
Chemical equipment: ERTi-5 is commonly used in the manufacturing of reactors, storage tanks, and pipelines for industries requiring materials with chemical stability and corrosion resistance.
Medical devices: Due to its non-toxic, corrosion-resistant, and easily weldable properties, ERTi-5 is widely used in the manufacturing of artificial joints, dental implants, and other medical implants.

Packaging

Welding wire diameter (straight wire): 1.2mm, 1.6mm, 2.0mm, 2.4mm, 3.0mm, 4.0mm, 5.0mm, 6.0mm
Package: 1000mm length (5kg/plastic box)

Welding wire diameter (coil without spool): 1.2mm, 1.6mm, 2.0mm, 2.4mm, 3.0mm, 4.0mm, 5.0mm
Coil inner diameter: D450mm, D300mm
Package: 10-17kg/coil

Recommended Welding Method

Tungsten inert gas welding (TIG welding)
TIG welding is a widely used method for titanium alloy welding. In this process, tungsten serves as the electrode, and argon is used as the shielding gas. The electric arc melts the joint between the titanium alloy plates to form the weld. TIG welding offers high-quality welds and aesthetic, smooth seams.
Metal inert gas welding (MIG welding)
Compared to TIG welding, MIG welding uses a consumable electrode (welding wire) and argon as the shielding gas. This method is ideal for welding thicker titanium alloy plates and provides higher welding efficiency.
Laser welding
Laser welding uses a high-energy beam to create deep, narrow welds, making it suitable for welding thin-walled materials. This method provides high-quality welds, high welding efficiency, and minimizes weld distortion.

In-Depth Experience
1. We’ve specialized in aluminium and titanium welding wire for over 35 years.
2. Our manufacturing facility includes 6 processing workshops, over 60 production machines, and more than 50 production lines.
3. We’ve supplied products and services to over 5,000 clients in 15 countries.
Premium Quality
1. We are certified by ISO9001:2015 and GJB9001C-2017.
2. The welding wires we offer are approved by CE, DB (German Railway), CCS (China Classification Society), VdTÜV (Germany), and SGS.
3. A CNAS-accredited lab provides technical support and welding process evaluation.
On Time Delivery
1. Customized packaging option are available with delivery lead times between 3 to 15 days
2. We keep 280 tons of finished inventory and have an annual production capacity of 3,000 tons.
3. Our technical team offers free welding consultations, tailored solutions, and 24-hour after-sales service.

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