Low-temperature steel flux-cored wire

A technology of flux-cored welding wire and low-temperature steel, applied in the direction of welding medium, welding equipment, welding/cutting medium/material, etc., can solve the problems of poor welding process performance, poor arc stability, and high cost, and achieve low-temperature impact toughness and low-temperature resistance Good crack resistance, excellent low temperature impact toughness, high welding efficiency

Inactive Publication Date: 2009-06-10
NINGBO LONGXING WELDING CUTTING TECH STOCK
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

Thereby, the demand for the low-temperature steel flux-cored welding wire used for welding low-temperature steel is increased, but the low-temperature steel flux-cored welding wire of the prior art is all, because the low-temperature impact toughness and low-temperature crack resistance of the acidic slag-based flux-cored weld

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0011] The preparation method of the present invention adopts prior art, is manufactured with following process:

[0012] 1. Raw materials for preparing the drug core: rutile, wollastonite, silicon-manganese alloy, iron powder, nickel powder, cryolite, feldspar, ferro-titanium, ferro-boron, medium-carbon ferromanganese, magnesia, quartz and fluorite. Requirements TiO in rutile 2 The content is 96%; CaSiO in wollastonite 3 The content of Ni in silicon-manganese alloy is 67%; Si22% in silicon-manganese alloy, Mn78%; Fe content in iron powder is 98%; Ni content in nickel powder is 99%; Na in cryolite 3 AlF 6 The content is 98%; SiO in feldspar 2 68%, Al 2 o 3 18%; Ti21% in ferro-titanium; B21% in ferroboron; Mn80% in medium carbon ferromanganese; MgO content in magnesia is 98%; SiO in quartz 2 The content is 98%; CaF in fluorite 2 The content is 98%. And crush all the above raw materials to the powder that can pass through a 60 mesh sieve;

[0013] 2. prepare drug core o...

Embodiment 2

[0021] Manufactured by:

[0022] 1. Raw materials for preparing the drug core: rutile, wollastonite, silicon-manganese alloy, iron powder, nickel powder, cryolite, feldspar, ferro-titanium, ferro-boron, medium-carbon ferromanganese, magnesia, quartz and fluorite. Requirements TiO in rutile 2 The content is 96%; CaSiO in wollastonite 3 The content of Ni in silicon-manganese alloy is 67%; Si22% in silicon-manganese alloy, Mn78%; Fe content in iron powder is 98%; Ni content in nickel powder is 99%; Na in cryolite 3 AlF 6 The content is 98%; SiO in feldspar 2 68%, Al 2 o 3 18%; Ti21% in ferro-titanium; B21% in ferroboron; Mn80% in medium carbon ferromanganese; MgO content in magnesia is 98%; SiO in quartz 2 The content is 98%; CaF in fluorite 2 The content is 98%. And crush all the above raw materials to the powder that can pass through a 60 mesh sieve;

[0023] 2. prepare drug core of the present invention by the weight percentage of following raw material:

[0024] 33%...

Embodiment 3

[0031] Manufactured by:

[0032] 1. Raw materials for preparing the drug core: rutile, wollastonite, silicon-manganese alloy, iron powder, nickel powder, cryolite, feldspar, ferro-titanium, ferro-boron, medium-carbon ferromanganese, magnesia, quartz and fluorite. Requirements TiO in rutile 2 The content is 96%; CaSiO in wollastonite 3 The content of Ni in silicon-manganese alloy is 67%; Si22% in silicon-manganese alloy, Mn78%; Fe content in iron powder is 98%; Ni content in nickel powder is 99%; Na in cryolite 3 AlF 6 The content is 98%; SiO in feldspar 2 68%, Al 2 o 3 18%; Ti21% in ferro-titanium; B21% in ferroboron; Mn80% in medium carbon ferromanganese; MgO content in magnesia is 98%; SiO in quartz 2 The content is 98%; CaF in fluorite 2 The content is 98%. And crush all the above raw materials to the powder that can pass through a 60 mesh sieve;

[0033] 2. prepare drug core of the present invention by the weight percentage of following raw material:

[0034] 30%...

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PUM

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Abstract

The invention discloses a low-temperature steel flux cored wire. Flux core of the flux cored wire comprises the following raw materials by weight percentage: 28 to 33 percent of rutile, 1 to 3 percent of aedelforsite, 14 to 18 percent of silicon-manganese alloy, 16 to 21 percent of ferrous powder, 2 to 4 percent of nickel powder, 1 to 2 percent of cryolite, 5 to 7 percent of feldspar, 1.5 to 2.5 percent of ferrotitanium, 0.5 to 1 percent of ferroboron, 5 to 6 percent of mid-carbon ferromanganese, 2.5 to 4 percent of magnesite, 4 to 6 percent of quartz and 1.5 to 3.5 percent of fluorite. Compared with the similar product of the prior art, the flux cored wire belongs to the meta-acid slag series, and has the advantages of good electric arc stability, less splash, easy slag removal, good low-temperature impact ductility, good low-temperature crack resisting performance, high efficiency and low cost.

Description

Technical field: [0001] The invention belongs to the field of metal welding, in particular to a low-temperature steel flux-cored welding wire. Background technique: [0002] At present, steel structures for offshore operations such as drilling derricks and production platforms are mainly used, including LPG (liquefied petroleum gas) ships, refrigeration ships and other ships, production equipment in cold regions, oil pipelines and other steel structures. To prevent brittle failure at low temperature, low temperature steel is often used for construction. With the increasing exploitation of offshore oil and natural gas, and the expansion of the mining area from the shallow warm area in the past to the deep cold area, low-temperature steel will be used in large quantities in marine structural parts. Thereby, the demand for the low-temperature steel flux-cored welding wire used for welding low-temperature steel is increased, but the low-temperature steel flux-cored welding wire...

Claims

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Application Information

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IPC IPC(8): B23K35/24
Inventor 陈定龙鲁永顺
Owner NINGBO LONGXING WELDING CUTTING TECH STOCK
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