2020 Good Quality E308l - Arc welding electrodes AWS E7024 – Tianqiao
2020 Good Quality E308l - Arc welding electrodes AWS E7024 – Tianqiao Detail:
Arc welding electrodes AWS E7024 (J501Fe18 / GB/T E5024)
Rutile iron powder electrode for high efficiency
APPLICATIONS:
It is suitable for welding of carbon steel and low alloy steel structure, such as ship, vehicle, mechanical structure, etc.
CHARACTERISTICS:
J501Fe18 is a rutile iron powder coated acid electrode. Can be welding by both AC & DC power source and flat and fillet welding.
Good welding performance, stable arc, small spatter, easy slag removal, beautiful weld forming, deposition efficiency up to about 180%
ATTENTION:
1.Remove rust, grease, moisture and other impurities before welding.
2.Under normal circumstances, the welding rod does not need to be baked before welding,
when the electrode is exposed to moisture must be baked at 150-170℃ for 1 hour after use.
WELDING POSITIONS: PA, PB
Product detail pictures:
Related Product Guide:
The composition of the welding electrode
To create extra value for customers is our enterprise philosophy; buyer growing is our working chase for 2020 Good Quality E308l - Arc welding electrodes AWS E7024 – Tianqiao, The product will supply to all over the world, such as: Australia, Bolivia, Nigeria, We have constructed strong and long co-operation relationship with an enormous quantity of companies within this business in Kenya and overseas. Immediate and specialist after-sale service supplied by our consultant group has happy our buyers. Detailed Info and parameters from the merchandise will probably be sent to you for any thorough acknowledge. Free samples may be delivered and company check out to our corporation. n Kenya for negotiation is constantly welcome. Hope to get inquiries type you and construct a long-term co-operation partnership.
By James Brown from Swiss - 2018.10.01 14:14
The company has a good reputation in this industry, and finally it tured out that choose them is a good choice.
By Anastasia from Macedonia - 2018.09.29 13:24