This type of Flux Cored Welding Wire cladding layer with excellent anti-oxidant and anti-cavitation performance, high hardness, good wear resistance, HS103 is a boron-containing welding wire of high chromium cast iron with its carbide weld overlay is difficult to cut props processing of strong durability.

This type of Welding Wires Manufacturer used requires a strong antioxidant occasion wear, such as Aaron drill a small shaft, coal hole digging device, crusher rolls, mixed leaves and other surfacing.

A1E209 commonly used for welding the same type of stainless steel, can also be used for welding dissimilar steels, such as low carbon steel and stainless steel, but also directly on the welding of low carbon steel to prevent corrosion. A2 E219 is usually the same type used for welding stainless steel, can also be used for welding dissimilar steels, such as low carbon steel and stainless steel, but also directly on the welding of low carbon steel to prevent corrosion. A3 E240 is usually the same type used for welding stainless steel, can also be used for welding dissimilar steels, such as low carbon steel and stainless steel, but also directly on the welding of low carbon steel to prevent corrosion. A4 E307 is commonly used for welding dissimilar steels such as austenitic manganese steel and welded carbon steel forgings or castings. Weld strength moderate, good crack resistance. A5 E308 is usually the same type used for welding stainless steel, also Cr18Ni9, Cr18Ni12 stainless steel. A6 E308H addition to the carbon content in the upper limit, the deposited metal alloying elements and E308 the same. As the high carbon content, at high temperatures than the tensile strength and creep strength. A7 E308L addition to the low carbon content, the weld metal alloy content and E308 the same. As the carbon content is low, the non-niobium, titanium and other stabilizers, they can resist the return generated by carbide precipitation and intergranular corrosion. However, with the niobium stabilized welds compared to the high temperature strength is low. A8 E308Mo In addition to higher levels of molybdenum, the metal content of alloying elements deposited the same with the E308. Typically used for welding the same type of stainless steel. When you want to weld metal ferrite content in more than E316-type Welding Electrodes Manufacturer, they can be used Cr18Ni12Mo stainless steel welding. A9E308MoL usually the same type used for welding stainless steel, when you want deposited metal ferrite content of more than E316-type electrode, they can be used Cr18Ni12Mo welding stainless steel forgings. A10 E309 is usually the same type used for welding stainless steel, welding can also be used in strong corrosive medium used in welding requires a high content of alloying elements in stainless steel or for dissimilar steel, Dr18Ni9 stainless steel and carbon steel welding . A11D309L In addition to lower carbon content, the weld metal alloy content and E309 the same. As the carbon content is low, so the non-niobium, titanium and other stabilizers, they can resist due to carbide precipitation resulting from intergranular corrosion. However, with the niobium stabilized welds compared to the high temperature strength is low. A12E309Nb In addition to lower carbon content and add other than niobium, metal alloying elements deposited the same with the E309, niobium weld metal resistance to intergranular corrosion and high temperature strength is increased. Compound commonly used 0Cr18Ni11Nb steel or carbon steel welding on welding. A13E309Mo In addition to lower carbon content and adding molybdenum, the deposited metal content of alloying elements in the same with the E309. Compound commonly used 0Cr17N12Mo2 steel or carbon steel welding on welding. A14E309MoL deposited metal alloying elements in addition to a low carbon content and E309Mo than the same amount of deposited metal with low carbon content, so the weld resistance to intergranular corrosion ability. A15 E310 is usually the same type used for welding of stainless steel, such as 0Cr25Ni20 stainless steel. A16 E310H addition to the higher carbon content, the deposited metal content of alloying elements and the E310 the same. Often used the same type of heat, corrosion-resistant stainless steel castings, welding and repair welding. Should not be there in a sulfur atmosphere or used under severe thermal shock conditions, since a long time to stay at 810-870 ℃, it can promote the formation of σ phase and secondary carbides, reduce corrosion resistance and toughness. A17 E310Nb addition to reducing the carbon content and adding niobium, the metal content of alloying elements deposited the same with the E310. Typically used for welding heat-resistant castings, 0Cr18Ni11Nb composite surfacing on steel or carbon steel. A18 E310Mo addition to reducing the carbon content and adding molybdenum, the deposited metal alloying elements and E310 the same school for the heat-resistant castings, 0Cr17Ni12Mo2 composite steel welding, or welding on carbon steel. A19 E312 is usually used for high-nickel alloys and other metals welding. Austenitic weld metal substrate on which a large number and distribution of ferrite phase composition of the organization, even if being diluted by a large number of austenite phase while still maintaining the organization, so the anti-attack capability with high . Should not be used at temperatures below 420 ℃ in order to avoid the formation of the second phase embrittlement. A20 E316 0Cr17Ni12Mo2 usually used for welding stainless steel and similar alloys. Since molybdenum improves the creep resistance weld, and therefore can be used for soldering at higher temperatures using the stainless steel. When there is a continuous weld metal or non-continuous network of ferrite and chromium-molybdenum weld metal is less than 8.2-1, and weld metal in corrosive media, the weld metal corrosion may occur quickly. A21 E316H addition to the carbon content in the upper limit, the deposited metal alloying elements with the same 316. As the high carbon content, at high temperature with high tensile strength and creep strength. A22 E316L In addition to lower carbon content, the weld metal alloy content and E316 the same. As the carbon content is low, so the non-niobium, titanium and other stabilizers, they can resist due to carbide precipitation resulting from intergranular corrosion. Typically used for welding low-carbon austenitic steel containing molybdenum. When the weld metal carbon content below 0.04% limit, in most cases can prevent intergranular corrosion. High-temperature strength than E316H type Flux Core Welding Wire. A23 E317 deposited metal alloying elements (especially Mo) slightly higher than the E316 type electrode. Typically used for welding the same type of stainless steel, can be used in highly corrosive conditions. A24 E317L In addition to lower carbon content, the deposited metal content of alloying elements and the E317 the same. As the carbon content is low, so the non-niobium, titanium and other stabilizers, they can resist due to carbide precipitation resulting from intergranular corrosion, weld strength than E317-type electrode. A25E317MoCu deposited metal in the high copper content, it has a high resistance to corrosion. Usually the same type of copper used for welding stainless steel. A26 E317MoCuL deposited metal and contains a high amount of molybdenum-containing copper, so in sulfuric acid has a high corrosion resistance. Typically used for welding in thin, the concentration of sulfuric acid in the work of the same type of ultra-low carbon stainless steel. In addition to working E318 A27 niobium increases, the deposited metal alloying elements and E316 are similar, niobium improve the weld metal resistance to intergranular corrosion. Typically used for welding the same type of stainless steel.