CN208346211U - A kind of ferrotianium core-spun yarn - Google Patents

Abstract

The utility model provides a kind of ferrotianium core-spun yarn, which includes: the first sandwich layer (1) being made of ferro-titanium, wherein the first sandwich layer (1) is solid cylindrical ferro-titanium or graininess ferro-titanium；It is set to external the first metal mesh (2) of the first sandwich layer (2), for wrapping up the first sandwich layer (1)；It is set to external the first clad (3) of the first metal mesh (2), wherein there are multiple apertures on the first clad (3)；It is set to external the second sandwich layer (4) of the first clad (3)；Second metal mesh (5) is set to the outside of the second sandwich layer (4), for wrapping up the second sandwich layer (4)；And second clad (7), it is set to the outside of the second metal mesh (5), wherein the connector on the second clad (7) both sides welds together, and is fixed on the outside of the second clad (7).Reaction efficiency of the ferro-titanium in molten steel can be improved in the utility model, improves the quality of steel.

Description

A kind of ferrotianium core-spun yarn

Technical field

The utility model relates to metallurgical technology field more particularly to core-spun wire for metallurgy use, specially a kind of ferrotianium core-spun yarn.

Background technique

During modern times steel-making, ferro-titanium is to smelt steel to rise as deoxidier, degasifier and carbon sulphur stabilizer To important role.Wherein, killed steel titanium deoxidation is produced, it is possible to reduce the segregation on steel ingot top improves the quality of steel and mentions The lumber recovery of high steel ingot.Titanium and the nitrogen being dissolved in molten steel are combined into stable titanium nitride, can eliminate nitrogen to Steel Properties not Good influence.Sulphur in titanium and molten steel generates titanium sulfide, and can eliminate causes hot-short iron sulfide to generate.Titanium generates extremely stable with carbon Titanium carbide, the particle of titanium carbide can prevent crystalline grain of steel from growing up, refine the tissue of steel, improve the intensity of steel.Between titanium and carbon Chemical affinity is greater than chromium and carbon, adds ferrotianium in stainless steel with fixed carbon, the corruption that can eliminate chromium in stainless steel crystal boundary is existing As improving the resistance to corrosion of stainless steel.Titanium has been used as micro alloying element to produce Aldecor in recent years.In cast iron Titanium is added, facilitates the generation of fine grain graphite, also plays a part of to deaerate, breeds, purifies and refine cast structure, it is resistance to improve casting Mill property.The heat resistance of ironcasting can be improved in heat-resisting cast iron addition titanium.

Cored in the market in existing ferrotianium core-spun yarn is usually powdered, and the core-spun yarn of this form is entering molten steel After will soon be reacted, or even have many powder and be ejected molten steel, although service efficiency is relative to directly being thrown Put that ferro-titanium is higher, but still suffer from many wastes, and existing core-spun yarn outer surface do not do it is some anti-skidding Measure ferrotianium core-spun yarn can not be sent into a short time so that feeding wire machine will appear slipping phenomenon in the process of work It is reacted in deeper molten steel.In addition, there are also some core-spun yarns will appear pulvis loosening, the easily-deformable problem of core-spun yarn.

Therefore, those skilled in the art need a kind of anti-skidding, high and on-deformable core-spun yarn of reaction efficiency.

Summary of the invention

The purpose of the utility model is to overcome the deficiencies in the prior art, provide a kind of ferrotianium core-spun yarn, the ferrotianium cored Line can have better reaction efficiency relative to existing core-spun yarn, largely avoid waste.And reaction is more Uniformly, the case where stablizing, being less prone to skidding during line feeding enters core-spun yarn steadily quickly in molten steel.

The utility model provides a kind of ferrotianium core-spun yarn, which includes: the first sandwich layer being made of ferro-titanium, In, first sandwich layer is solid cylindrical ferro-titanium or graininess ferro-titanium；First metal mesh is set to first core The outside of layer, for wrapping up first sandwich layer；First clad is set to the outside of first metal mesh, wherein described There are multiple apertures on first clad；Second sandwich layer, is set to the outside of first clad, and ingredient is ferro-titanium； Second metal mesh is set to the outside of second sandwich layer, for wrapping up the second sandwich layer；And second clad, it is set to institute State the outermost layer of core-spun yarn, wherein the connector on second clad both sides welds together, and is fixed on second cladding Layer outside.

In the embodiments of the present invention, the core-spun yarn further include: fluorite layer is set to second metal mesh and institute It states between the second clad, the fluorite layer is made of fluorite particle of the diameter between 3mm~6mm.

In the embodiments of the present invention, the core-spun yarn further include: anti-skid structure is set to second clad Outer surface has skidded phenomenon when for preventing feeding wire machine line feeding.

Wherein, the anti-skid structure is continuous reticular structure or dots structure or horizontal linear structure.

In the embodiments of the present invention, the core-spun yarn further include: central point be located at the metal in cored bobbin thread every It is disconnected, wherein 50 °~90 ° angles, the outer profile of the metal partition and institute is presented in the metal partition and the cored bobbin thread The inner surface for stating the second clad connects.

Wherein, the metal partition is mild steel, is divided into 40cm~80cm between setting.

In the embodiments of the present invention, second sandwich layer is that open column shape ferro-titanium or graininess ferrotianium close Gold.

In the embodiments of the present invention, first clad wraps with a thickness of 0.5mm~0.8mm, described second Coating with a thickness of 0.8mm~1.2mm.

In the embodiments of the present invention, first metal mesh, first clad, second metal mesh and Second clad is mild steel.

In the embodiments of the present invention, the outer diameter of second clad is 15mm~18mm.

Above-mentioned specific embodiment according to the present utility model is it is found that a kind of ferrotianium core-spun yarn tool provided by the utility model Have following benefit: relative to the existing core-spun yarn in market, ferrotianium core-spun yarn provided by the utility model is reacting timeliness with molten steel Rate is higher, and because of the special setting mode of inner core, reaction can be made more steady, avoid molten steel from boiling, cause ferrotianium The waste of alloy.The anti-skid structure of core-spun yarn surface setting facilitates feeding wire machine and transports core-spun yarn into molten steel, non-slip Core-spun yarn can be made to enter the deeper inside of molten steel in a short time under state.The metal mesh of core-spun yarn setting can enhance this The transverse tensile strength of core-spun yarn makes core-spun yarn be not easy to break.The core-spun yarn maximum journey that the setting of metal partition can enable The reduction of degree wastes, and excessive inner core is avoided to be exposed in air.

It is to be understood that above-mentioned general description and following specific embodiments are merely illustrative and illustrative, not The range to be advocated of the utility model can be limited.

Detailed description of the invention

Following attached drawing is the part of specification of the utility model, and the example for depicting the utility model is implemented Example, appended attached drawing are used to illustrate the principles of the present invention together with the description of specification.

Fig. 1 is a kind of cross-sectional view of ferrotianium core-spun yarn provided by the utility model.

Fig. 2 is a kind of wherein one section of the profilograph of ferrotianium core-spun yarn embodiment one provided by the utility model.

Fig. 3 is a kind of wherein one section of the profilograph of ferrotianium core-spun yarn embodiment two provided by the utility model.

Description of symbols:

The first sandwich layer of 1-, the first metal mesh of 2-, the first clad of 3-, the second sandwich layer of 4-, the second metal mesh of 5-, 6- fluorite Layer, the second clad of 7-, 8- anti-skid structure, 9- metal every

Specific embodiment

The various exemplary embodiment of the utility model is now described in detail, which is not considered as practical to this Novel limitation, and it is understood as the more detailed description of some aspects to the utility model, characteristic and embodiment.

It, can be to the specific implementation of the utility model specification without departing substantially from the scope of the utility model or spirit Mode does a variety of improvements and changes, this will be apparent to those skilled in the art.By the specification of the utility model Obtained other embodiments are apparent obtain for technical personnel.Present specification and embodiment are only exemplary 's.

Fig. 1 is a kind of cross-sectional view of ferrotianium core-spun yarn provided by the utility model.The cross-sectional view illustrates the cored Setting relationship between each level of line.As shown in Figure 1, the utility model includes: the first sandwich layer 1, the first metal mesh 2, first packet Coating 3, the second sandwich layer 4, the second metal mesh 5, fluorite layer 6, the second clad 7 and anti-skid structure 8.Wherein, 1 ingredient of the first sandwich layer For ferro-titanium.And first sandwich layer 1 be solid cylindrical ferro-titanium.Solid cylindrical ferro-titanium reaction contact surface is smaller, instead The speed answered is slow, can greatly be reacted, and reduces the waste of ferro-titanium, and can also make reacting balance, unlikely In the boiling for causing molten steel.The first sandwich layer 1 is graininess ferro-titanium in another embodiment.Granular ferro-titanium It is easier to carry out encapsulating, reaction speed can be slow relative to the ferro-titanium of powdery, not will cause the boiling of molten steel.First gold medal Belong to the outside that net 2 is set to the first sandwich layer 3, for wrapping up the first sandwich layer 1.First low-carbon steel material of metal mesh 2, the first metal The axial tensile strength of core-spun yarn can be enhanced in net 2.First clad 3 is set to the outside of the first metal mesh 2, wherein first There are multiple apertures on clad 3.Hole diameter if the first sandwich layer 1 is graininess ferro-titanium, on the first clad 3 It is less than the particle diameter of ferro-titanium.First clad 3 is mild steel.In the utility model the first clad 3 with a thickness of 0.5mm~0.8mm.The effect of aperture on first clad 3 contributes to molten steel and enters and melt the first clad 3, makes One sandwich layer 1 is reduced with the break time of reacting of the second sandwich layer 4, the continuity of intensified response.Second sandwich layer 4 is set to the first cladding The outside of layer 3, ingredient is ferro-titanium.Second sandwich layer 4 is open column shape ferro-titanium.The reaction contact of open column shape ferro-titanium Face is smaller, and the speed of reaction is slow, can greatly be reacted, and the waste of ferro-titanium is reduced, and can also make anti- Should be steady, it is unlikely to cause the boiling of molten steel.The second sandwich layer 4 is graininess ferro-titanium in another embodiment.Particle The ferro-titanium of shape is easier to carry out encapsulating, and reaction speed can be slow relative to the ferro-titanium of powdery, not will cause molten steel Boiling.Second metal mesh 5 is set to the outside of the second sandwich layer 4, for wrapping up the second sandwich layer 4.Second metal mesh 5 is low-carbon Steel, this material can make the second metal mesh 5 preferably be integrated into molten steel.Fluorite layer 6 is set to the second metal mesh 5 and second Between clad 7, fluorite layer 6 is made of fluorite particle of the diameter between 3mm~6mm.After core-spun yarn enters molten steel, pass through firefly Rock layers 6 are reacted with steel slag, can reduce the fusing point of steel slag, improve the mobility of steel slag, and the enhancing of steel slag mobility is conducive to wrap Core wire is fed in molten steel, reduces core-spun yarn in the loss of Slag Layer.Second clad 7 is set to the outermost layer of core-spun yarn, wherein The connector on 7 both sides of the second clad welds together, and is fixed on 7 outside of the second clad.Connector is welded together, and The outside of the second clad 7 is fixed on so that it is convenient to be packaged to core-spun yarn, reduces the difficulty of processing of core-spun yarn.Second packet Coating 7 with a thickness of 0.8mm~1.2mm.And second clad 7 outer diameter be 15mm~18mm.Second clad 7 is located at cored Line outermost layer, it plays the role of that internal structure is protected not to be destroyed, while internal ferro-titanium contact can also be prevented empty Gas, during entering molten steel, outermost second clad 7 can also postpone the anti-of ferro-titanium and molten steel inside core-spun yarn Between seasonable, core-spun yarn is made to can extend into molten steel depths.In addition, the second clad 7 is mild steel, this material can make second Clad 7 is preferably integrated into molten steel.Anti-skid structure 8 is set to the outer surface of the second clad 7, for preventing feeding wire machine line feeding When have skidded.Anti-skid structure 8 is continuous reticular structure.Anti-skid structure 8 is arranged in the position that feeding wire machine is contacted with core-spun yarn, can The phenomenon that having skidded during to be effectively prevented danger facilitates core-spun yarn and enters molten steel depths, in the core-spun yarn made The ferro-titanium in portion reacts more abundant with molten steel.In another embodiment, anti-skid structure 8 is continuous dotted knot Structure.There are also in a kind of embodiment, anti-skid structure 8 is continuous horizontal linear structure.

As shown in Fig. 2, the utility model further include: central point is located at the metal partition 9 in cored bobbin thread, wherein gold Belong to partition 9 and 50 °~90 ° angles, the inner surface phase of the outer profile of metal partition 9 and the second clad 7 is presented with cored bobbin thread It connects.And metal partition 9 is mild steel, is divided into 40cm~80cm between setting.As shown in figure 3, metal partition 9 has with cored bobbin thread Certain angle, and identical distance is kept between the central point of adjacent metal partition 9.When core-spun yarn uses it is a certain amount of when It waits, needs to stop to transport core-spun yarn in toward molten steel, the ferro-titanium inside core-spun yarn will be exposed in air at this time, Huo Zhecong It is fallen inside core-spun yarn.In the case where being provided with metal partition 9, when transporting core-spun yarn in stopping toward molten steel, can only there was only one The nichrome of fraction is exposed in air or falls inside core-spun yarn, greatly reduced the wave of ferro-titanium Take, and sealing can also be played the role of.

The above descriptions are merely exemplary embodiments of the present utility model, in the design that does not depart from the utility model and Under the premise of principle, the equivalent changes and modifications that any those skilled in the art is made should belong to the utility model guarantor The range of shield.

Claims (10)

1. a kind of ferrotianium core-spun yarn, which is characterized in that the core-spun yarn includes:

The first sandwich layer (1) being made of ferro-titanium, wherein first sandwich layer (1) is solid cylindrical ferro-titanium or particle Shape ferro-titanium；

First metal mesh (2) is set to the outside of first sandwich layer (1), for wrapping up first sandwich layer (1)；

First clad (3) is set to the outside of first metal mesh (2), wherein has on first clad (3) Multiple apertures；

Second sandwich layer (4) is set to the outside of first clad (3), and ingredient is ferro-titanium；

Second metal mesh (5) is set to the outside of second sandwich layer (4), for wrapping up the second sandwich layer (4)；And

Second clad (7), is set to the outermost layer of the core-spun yarn, wherein the connector on the second clad (7) both sides Weld together, is fixed on the outside of second clad (7).

2. a kind of ferrotianium core-spun yarn according to claim 1, which is characterized in that the core-spun yarn further include:

Fluorite layer (6) is set between second metal mesh (5) and second clad (7), the fluorite layer (6) by Fluorite particle composition of the diameter between 3mm~6mm.

3. a kind of ferrotianium core-spun yarn according to claim 1, which is characterized in that the core-spun yarn further include:

Anti-skid structure (8) being set to the outer surface of second clad (7), having skidded when for preventing feeding wire machine line feeding Phenomenon.

4. a kind of ferrotianium core-spun yarn according to claim 3, which is characterized in that the anti-skid structure (8) is continuous net Shape structure or dots structure or horizontal linear structure.

5. a kind of ferrotianium core-spun yarn according to claim 1, which is characterized in that the core-spun yarn further include:

Central point is located at the metal partition (9) in cored bobbin thread, wherein the metal partition (9) and the cored bobbin thread 50 °~90 ° angles are presented, the outer profile of the metal partition (9) connects with the inner surface of second clad (7).

6. a kind of ferrotianium core-spun yarn according to claim 5, which is characterized in that the metal partition (9) is mild steel, if 40cm~80cm is divided between setting.

7. a kind of ferrotianium core-spun yarn according to claim 1, which is characterized in that second sandwich layer (4) is open column shape Ferro-titanium or graininess ferro-titanium.

8. a kind of ferrotianium core-spun yarn according to claim 1, which is characterized in that first clad (3) with a thickness of 0.5mm~0.8mm, second clad (7) with a thickness of 0.8mm~1.2mm.

9. a kind of ferrotianium core-spun yarn according to claim 1, which is characterized in that first metal mesh (2), described first Clad (3), second metal mesh (5) and second clad (7) are mild steel.

10. a kind of ferrotianium core-spun yarn according to claim 1, which is characterized in that the outer diameter of second clad (7) is 15mm~18mm.