CN1249975A - Flexible powder belt for automatic built-up welding - Google Patents
Flexible powder belt for automatic built-up welding Download PDFInfo
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- CN1249975A CN1249975A CN 99119602 CN99119602A CN1249975A CN 1249975 A CN1249975 A CN 1249975A CN 99119602 CN99119602 CN 99119602 CN 99119602 A CN99119602 A CN 99119602A CN 1249975 A CN1249975 A CN 1249975A
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Abstract
The present invention relates to non-jointing arc welding and is suitable for large-area built-up welding mainly. The flexible powder belt consists of bag-like packing layer and metal powder inside the packing layer. The bag-like packing layer consists of adhered inner layer of superthin polymer film and outer layer of high-temperature high-strength quartz glass fiber knitting. The polymer material for the inner layer may be any one of high-pressure polyethylene, low-pressure polyethylene, PTFE, neoprene, polypropylene and polyvinyl chloride. The flexible powder of the present invention has relatively high strength and toughness as well as excellent built-up welding performance.
Description
The invention belongs to the arc-welding method that is used for disengaged purpose.Mainly be applicable to large-area built-up welding.
As everyone knows, under the more serious working condition of surface abrasion, for the service life of elongated component, metal surface built-up welding one deck antifriction alloy of being everlasting improves surface abrasion resistance.In overlay cladding, often contain a certain amount of hardening agent.
In existing several arc surfacing methods, respectively have different characteristics:
Gas shield (or flux shielding) powder core welding or flux cored wire automatic surfacing method, its built-up welding efficient height, stable technical process, composition are even, it is comparatively ideal overlaying method, but owing to be subjected to the restriction (general<35%) of welding, the packing factor of welding wire own, the alloy content of overlay cladding also is restricted, can be too not high; In addition, the cost of powder core welding and flux cored wire is higher, influences large-area applying.
Application number provides a kind of Lincoln weld coating solder flux and device for the Chinese patent application of CN88105750.9.It is that powder and welding wire are independently sent into the molten bath respectively, and the fusing back forms overlay cladding integral body.Its cost descends significantly, but still need to consume a large amount of solder flux, and in actual weld deposit process, in time, has because of electric arc and the powder under the solder flux can not be melted fully, adopt the dropping characteristic power supply to be equipped with arc voltage feedback alternate wire-feed because of submerged-arc welding simultaneously and carry out the mode that electric arc is regulated, cause the built-up welding composition inaccurate, inhomogeneous, and sneaked into metal powder in the solder flux and cause the difficulty of recycling; In addition, because powder feeding chews with the arcing point certain distance is arranged,, cause waste opening arc, receiving the arc place and still have the part powder not utilize fully.
In existing overlaying method, what also have is placed in powder agglomates on the metal surface before alloy powder and binding agent mixing briquet, the built-up welding, forms overlay cladding with the thermal source fusing.The thermal source that uses can be open arcs such as carbon arc, stick electrode electric arc and non-consumable gas shielded arc welding electric arc.The advantage of this method is: hardfacing alloy content height, and the wlding cost is low, need not to melt solder flux, and reasonable energy utilization does not need scarfing cinder, and the weld deposit process visuality is good, the powder agglomates of putting all can be melted the raising powder using efficiency.Its shortcoming is that powder agglomates needs manual putting, even thermal source is also manually mobile, has influenced the mechanization degree of operation; Because powder agglomates is put at the built-up welding forward swing, so can't be in the enterprising windrow weldering of the revolving body surface of rotation; In addition, position, the interval of putting powder agglomates by hand can't be accurately consistent, influence the uniformity of overlay cladding composition.
The patent No. provides a kind of method of large-area built-up welding on metal surface for the Chinese patent of ZL93105887.2.It is that alloy powder with needs mixes with binding agent, is pressed into the flexible powder band with certain thickness and width.During welding, powder belt is laid on the metal surface automatically, continuously, is thermal source with gas metal-arc welding electric arc, and electrode, powder belt and matallic surface layer melt simultaneously, form the deposited metal layer jointly.This method has been concentrated said method advantage separately: both can improve the ratio of transition alloy, reasonable energy utilization, melting efficiency height; Be convenient to mechanized operation again.Its shortcoming is that the binding agent of making flexible powder band is restricted in many use occasions.At first; if overlay cladding is used for the anti-corrosion protection of metal surface; alloy is a stainless steel for chromium nickel often; require phosphorus content or other impurity extremely low; powder belt can not be selected the organic binder bond of mainly being made up of elements such as carbon, hydrogen, oxygen for use, and is subjected to several inorganic binders of composition restriction to be difficult to satisfy powder belt " flexibility " requirement.Secondly, in hardfacing is used, powder belt " flexibility " requirement.Secondly, in hardfacing is used, though powder belt can adopt organic binder bond to guarantee to be afraid of " flexibility " that requires, if in continuous built-up welding, under the situation of workpiece one surface temperature far above the organic binder bond fusing point, flexible band will can't be by transmitting the belt wheel continuous laying because of losing intensity.
The object of the present invention is to provide a kind of built-up welding efficient height, overlay cladding composition can under multiple built-up welding worker shape condition, realized accurate, and can realize the flexible powder band for automatic overlay welding of large-area built-up welding.
At above-mentioned purpose, the present invention has adopted following technical scheme:
Flexible powder band for automatic overlay welding of the present invention is made up of bag shape wrapper and metal dust, and metal dust is in bag shape wrapper; And bag shape wrapper is formed by internal layer and outer bonding; The outer braiding by resistant to elevated temperatures high strength quartz glass fibre yarn forms the ultra-thin plastic films of internal layer for being made by macromolecular material.
Macromolecular material be in polyethylene from high pressure process, low-pressure polyethylene, polytetrafluoroethylene (PTFE), neoprene, propylene, the polyvinyl chloride any.
Described flexible powder band is of a size of: thick 3-10mm, wide 20-60mm.
Described metal dust is the transition metal powders designed according to the overlay cladding needs, as rich chromium cast iron system, nichrome system, nickel-base alloy system etc.
The manufacture method of flexible powder band for automatic overlay welding of the present invention is in the braiding process of quartz glass fibre yarn woven outer layer, on the lining and the bonding internal layer, the metal dust of thereupon packing into, the metal dust of promptly packing in the preparation process of packed wrapper forms flexible powder band.So the length of flexible powder band can be determined arbitrarily according to working condition.
The occupation mode of flexible powder band of the present invention is to make thermal source with gas metal-arc welding electric arc, is with in the flexibility that links laying automatically, and electrode self melts, and forms the hardfacing alloy layer jointly with the powder belt of fusing and the base metal surface layer in molten bath.The scope of application comprises consumable electrode gas-arc built-up welding, submerged arc overlay welding, wearing layer built-up welding and anticorrosion layer built-up welding.
Compared with prior art, the present invention has following advantage:
(1) because the skin of bag shape wrapper of the present invention is formed by the braiding of quartz glass fibre yarn, its main component is SiO
2, internal layer is a macromolecular material, contains a spot of C and H.When built-up welding, SiO
2Fusing becomes slag, floats on the deposited metal surface, helps the shaping and the protection in molten bath, and a spot of C and H make arc atmosphere have reproducibility, help the transition of alloy composition.
(2) because the skin of bag shape wrapper is a quartz glass fibre, can anti-high temperature more than 1000 ℃, can make powder belt be laid on the high-temperature metal surface reliably, again can be not defeated and dispersed too early before electric arc arrives.
(3) the own intensity height of flexible powder band, flexible good, no powder breaks away from, and the bead-welding technology performance is good.
(4) flexible powder band adaptability of the present invention is strong, not only can carry out the wearing face built-up welding, can also carry out anti-corrosion surface overlaying, and perhaps the both takes into account, and other built-up welding.
Description of drawings
Accompanying drawing 1 is the structural representation of flexible powder band of the present invention.
Among Fig. 1,1 is the flexible defeated band pipe that cross sectional shape is fixing, 2 skins for the bag shape wrapper of quartz glass fibre yarn braiding, and 3 ultra-thin plastic films for making by macromolecular material, i.e. the internal layer of bag shape wrapper, 4 is metal dust.
Embodiment
According to technical solutions according to the invention, 3 batches of flexible powder bands have been prepared.
SiO in the quartz glass fibre yarn that skin adopted of embodiment bag shape wrapper
2The kind of content, internal layer macromolecular material as shown in table 1, the bonding binding agent that adopts of ectonexine is conventional commercially available binding agent.The metal dust kind is also listed in the table 1 in the appearance and size of embodiment flexible powder band and the pack wrapper.
Adopt the embodiment of the invention 1 flexible powder band, on the mild steel metal surface, carry out the wearing layer built-up welding.Measure the hardness of overlay cladding after the built-up welding, its HRC reaches 60-65.And overlay cladding outwardly sound.
Ectonexine composition, metal dust kind and the overall dimensions of the bag shape wrapper of table 1 embodiment flexible powder band
| Lot number | 1 | ?2 | ?3 | |
| The flexible powder band overall dimensions | Thick mm | 4 | ?5 | ?6 |
| Wide mm | 30 | ?35 | ?38 | |
| Bag shape wrapper | Outer quartz glass fibre SiO 2Content (weight %) | 95 | ?98 | ?98 |
| Internal layer macromolecular material kind | Polyethylene from high pressure process | Low-pressure polyethylene | Polypropylene | |
| Metal dust kind in the wrapper | Rich chromium cast iron system | Nichrome system | Nickel-base alloy system | |
Claims (2)
1, a kind of flexible powder band for automatic overlay welding is characterized in that:
(1) this flexible powder band is made up of bag shape wrapper and metal dust, and metal dust is in bag shape wrapper;
(2) bag shape wrapper is formed by internal layer and outer bonding, and skin is formed by resistant to elevated temperatures high strength quartz glass fibre yarn braiding, the ultra-thin plastic films of internal layer for being made by macromolecular material;
2, flexible powder band according to claim 1, its feature in macromolecular material be in polyethylene from high pressure process, low-pressure polyethylene, polytetrafluoroethylene (PTFE), neoprene, propylene, the polyvinyl chloride any.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN99119602A CN1084240C (en) | 1999-09-21 | 1999-09-21 | Flexible powder belt for automatic built-up welding |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN99119602A CN1084240C (en) | 1999-09-21 | 1999-09-21 | Flexible powder belt for automatic built-up welding |
Publications (2)
| Publication Number | Publication Date |
|---|---|
| CN1249975A true CN1249975A (en) | 2000-04-12 |
| CN1084240C CN1084240C (en) | 2002-05-08 |
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Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN99119602A Expired - Fee Related CN1084240C (en) | 1999-09-21 | 1999-09-21 | Flexible powder belt for automatic built-up welding |
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| Country | Link |
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| CN (1) | CN1084240C (en) |
Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN102253268A (en) * | 2011-05-24 | 2011-11-23 | 郑雪东 | Arc intensity sensing piece |
Families Citing this family (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN100460133C (en) * | 2007-05-23 | 2009-02-11 | 山东大学 | Alloy powder block used for built-up welding |
Family Cites Families (4)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN85102440B (en) * | 1985-04-05 | 1987-12-16 | 机械部哈尔滨焊接研究所 | The surfacing welding alloy powder agglomates |
| JPS63165074A (en) * | 1986-12-26 | 1988-07-08 | Tokushu Denkyoku Kk | Build-up welding method for wear resistant metal |
| CN1032307A (en) * | 1988-07-15 | 1989-04-12 | 湘潭大学 | Automatic submerged-arc bead welding coating solder flux and device |
| CN1030970C (en) * | 1993-05-31 | 1996-02-14 | 冶金工业部钢铁研究总院 | Method for large-area built-up welding on metal surface |
-
1999
- 1999-09-21 CN CN99119602A patent/CN1084240C/en not_active Expired - Fee Related
Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN102253268A (en) * | 2011-05-24 | 2011-11-23 | 郑雪东 | Arc intensity sensing piece |
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| CN1084240C (en) | 2002-05-08 |
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