CN102492890A - Low silicon nodularizer and application thereof - Google Patents
Low silicon nodularizer and application thereof Download PDFInfo
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- CN102492890A CN102492890A CN2011104387081A CN201110438708A CN102492890A CN 102492890 A CN102492890 A CN 102492890A CN 2011104387081 A CN2011104387081 A CN 2011104387081A CN 201110438708 A CN201110438708 A CN 201110438708A CN 102492890 A CN102492890 A CN 102492890A
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Abstract
The invention relates to a nodulizing treatment method for a low silicon nodularizer for producing nodular cast irons. The nodulizing treatment method is characterized by comprising steps of pressing a powdery material containing chemical compositions as follows: 10-12.5% of Mg, 15-25% of Si, 1-2% of Cal, 0.5-1% of Re and the rest of Fe and a rare earth ferro-silicon alloy containing less than or equal to 5% of magnesium into a square steel tube in a layering manner, and then preparing the powdery material and the rare earth ferro-silicon alloy into the whole nodularizer; the materials pressed into the square steel tube comprise 10-12.5% of magnesium powder with 100 meshes and silicon iron powdery with the particle size of less than 1mm and 50-60% of silicon content, wherein calcium is introduced to the materials through calcium contained in the silicon iron or is added in a calcium-silicon alloy, the particle size of the materials is less than 1mm, a rare-earth composition is added in the manner of the rare earth ferro-silicon alloy containing less than or equal to 5% of magnesium, and the particle size of the rare-earth composition is less than 15 mm; and a preparation method of the low silicon nodularizer is follows: firstly, mechanically and uniformly mixing magnesium powder, silicon iron powder and iron powder needed in the square steel tube according to a proportion, and pressing the magnesium powder, silicon iron powder and iron powder in the square steel tube by adopting a press machine; and carrying out nodulizing treatment in combination with a nodulizing treatment device by adopting a pouring ladle method.
Description
Technical field
The invention relates to the working method and the application thereof of low-silicon nodulizer, powder material that contains magnesium, silicon, calcium and iron that specifically will mix and rare earth alloy layering are pressed into the whole nodulizing agent of processing in the rectangular steel tube and cooperate spheroidization apparatus to adopt the spheroidizing of pouring Bao Neifa.
Background technology
In producing the enterprise of nodular iron casting, when the more and silicon content of the foundry returns ratio of generation is higher, need to use the lower nodulizing agent of silicon content.Traditional low-silicon nodulizer silicon content is about 5~10%, and when spheroidizing, the add-on of low-silicon nodulizer is about 1/3 of whole nodulizing agent add-ons; Surplus is that silicon content is 40~41% rare earth magnesium ferrosilicon alloy; When all adopting low-silicon nodulizer, feed intake when handling greater than 1480 ℃ red heat bag, the phenomenon that molten iron splashes occurs in tapping temperature; The cylindric nodulizing agent of tradition compacting is cracky when carrying, the influence of fluctuations nodulizing agent of composition stable.
Summary of the invention
The nodulizing process that the purpose of this invention is to provide a kind of low-silicon nodulizer; Cooperate spheroidization apparatus to solve the problem that reaction is violent when pouring the Bao Neifa spheroidizing, the effective element specific absorption is low, realize accurately the control spheroidizing reacion time, improve the quality of products, reduce production costs, give full play to and utilize resource.
For realizing above-mentioned purpose; Utilize rectangular steel tube within it portion will contain the powder material of magnesium, silicon, calcium and iron and the rare earth ferrosilicon alloy branch of magnesium content≤5% is laminated into; Process whole nodulizing agent, cooperate spheroidization apparatus, employing is poured Bao Neifa and is carried out spheroidizing.
Concrete technical scheme of the present invention is following: Mg10~12.5%, and Si15~25%, Ca1~2%, RE0.5~1%, all the other are iron.Select 100 order magnesium powder to account for 10~12.5%; Silicon content is at 50~60% ferrosilicon powder; Its granularity is less than 1mm, and calcium content is wherein brought into the calcium content in the ferrosilicon or added with the mode of silicocalcium, and its granularity is less than 1mm; Rare earth composition adds with the mode of the rare earth ferrosilicon alloy of magnesium content≤5%, and its granularity is less than 15mm.
Its making method is: earlier mechanically mixing is even in proportion with magnesium powder, ferrosilicon powder and the iron powder of required total amount 50% in the rectangular steel tube; Adopt pressing machine with the end of its compacting at rectangular steel tube; In the middle of will being placed on less than the rare earth ferrosilicon alloy of 5%Mg content, other 50% magnesium powder, ferrosilicon powder and the iron powder compound that will mix again packed into and is compacted into the identical plane of outer lining rectangular steel tube length with pressing machine in the rectangular steel tube.Fixedly my patent No. of application of the low-silicon nodulizer of outer lining rectangular steel tube employing is PCT/2011/001762; Name is called the fixing means of pole pressure head in the applying for a patent of " smokeless nodulizing process ", and adopting with the 3rd bolt and nut on column and the Position Scale is that the mode of the first bolted-on connection pole pressure head of the steering shaft on the pressure thick stick of rotating shaft rotation is placed on the pole pressure head above the whole low-silicon nodulizer of outer lining rectangular steel tube and fixing; Its removable position of pole pressure head also can be fixed in the desired position, and the pressure head bottom surface of its pole pressure head is a plane, and the outer lining refractories of pole pressure head partly is the skeleton with Deformed Steel Bars, iron wire weldering system; Column in column and the Position Scale and Position Scale are an integral body that is welded into, and are provided with in the end of Position Scale and move up and down the location, are hung with balance iron at the other end of pressing thick stick; Above-mentioned in addition pole pressure head also can be employed in the telescopic joint pole pressure head of nodularization bag outer upper end welding positioning rotating shaft; The nut that welds on the screw thread that utilizes the positioning handle end and the positioning rotating shaft sleeve pipe cooperates; The threaded portion of positioning handle end passes the fastening pole pressure head of positioning rotating shaft sleeve pipe, realizes regulating the position of pole pressure head in the nodularization bag; The removable position of pole pressure head and can be in needed stationkeeping, pole pressure head are fixed on the low silicon Si nodularizer of integral body of outer lining rectangular steel tube below it; The pressure head bottom surface of its pole pressure head is a plane, and the outer lining refractories of pole pressure head partly is the skeleton with round steel and reinforcing bar and iron wire weldering system.With the mode of the telescopic joint pole pressure head of positioning rotating shaft, when pouring the molten iron spheroidizing, the pole pressure head moves with the nodularization bag.
For the cooling of the molten iron after reduce handling and prevent the escape of effective element, add the covering clad in the hot metal ladle upper end, its cover clad fixedly half clad of sealing be provided with the molten iron inlet at neighbour bag wall place; Second half of covering clad can movable overturn, and can cover clad in its pole pressure head upper end leaving certain gaps uncovered by the economic plan by movable half of overturning, and during the processing molten iron, half clad that can overturn is buckled on the pack processing; Fixedly its spheroidizing step of mode of pole pressure head is following to adopt above-mentioned two kinds:
A, open half clad that can overturn, the whole low-silicon nodulizer that outer lining rectangular steel tube on request is pressed into put into the nodularization bag, arrive the predetermined position after, the pole pressure head is pressed above that and fixing;
B, in the nodularization bag, drop into the ferrosilicon nucleating agent, half clad that can overturn is buckled on the pack processing;
C, molten iron pour the nodularization bag through the molten iron inlet and carry out spheroidizing reacion;
After d, spheroidizing reacion finish, open the upset clad, rotate the pole pressure head, scratch clean scum silica frost, buckle the upset clad behind the covering nucleating agent;
E, the molten iron inlet that on the covering clad, is provided with are poured into a mould.
Beneficial effect of the present invention: reaction is fierce when having solved the employing low-silicon nodulizer and pouring the Bao Neifa spheroidizing; The problem that the effective element specific absorption is low; The low-silicon nodulizer of producing with the present technique scheme can be used in the spheroidizing of pouring Bao Neifa separately, can accurately control the spheroidizing reacion time.
Embodiment
The even ripple disable of composition in order to ensure the whole low-silicon nodulizer of each exert pressure consolidation; Adopt each independently in the outer lining rectangular steel tube whole nodulizing agent carry out mechanical uniform mixing again after the batching separately; Mix the back and adopt 100 tons or 360 tons of pressing machine compactings; The low-silicon nodulizer chemical ingredients that guarantees same specification outer lining rectangular steel tube is identical, segregation-free.The wall thickness of outer lining rectangular steel tube is chosen in the needs that 2~4mm just can satisfy spheroidizing.Greater than 1480 ℃, the spheroidizing reacion time when adopting plain base nodularization bag, is selected the wall thickness of higher limit when longer for spheroidization treatment temperature.The above-mentioned used also optional material cylinder iron of outer lining rectangular steel tube adopts the method manufacturing of casting.
For spheroidization treatment temperature greater than 1480 ℃; When the nodularization bag was processed continuously red heat bag state, the low-silicon nodulizer composition in the outer lining rectangular steel tube is: magnesium content took off limit value, silicon content capping value, calcium contents capping value; Can control the situation of spheroidizing reacion effectively; When producing lower temperature spheroidizing such as roll foundry goods, its magnesium content capping value, silicon content and calcium content take off limit value.
The rare earth ferrosilicon alloy of magnesium content≤5% in the above-mentioned outer lining rectangular steel tube, its RE content is 15~50%.
For preventing that the nodularization time is too short, reaction is too fierce, and the height that the whole low-silicon nodulizer of outer lining rectangular steel tube is placed in the spheroidizing bag is advisable with≤12cm, when surpassing 12cm, should select the structure of rectangular steel pipe for use, the size of rectangular steel pipe leptoprosopy should≤12cm.
Claims (5)
1. nodulizing process about the low-silicon nodulizer of producing spheroidal graphite cast iron; The first part of its characteristic is a nodulizing agent: utilize rectangular steel tube within it portion will contain chemical ingredients Mg10~12.5%, Si15~25%, Ca1~2%, RE0.5~1% surplus for Fe powder material and the rare earth ferrosilicon alloy branch of magnesium content≤5% be laminated into, process whole nodulizing agent; The material that is pressed in its rectangular steel tube is: 100 order magnesium powder account for 10~12.5%; Granularity is the ferrosilicon powder 50~60% less than the 1mm silicon content; Calcium content is wherein brought into the calcium content in the ferrosilicon or is added with the mode of silicocalcium; Its granularity is less than 1mm, and rare earth composition adds with the mode of the rare earth ferrosilicon alloy of magnesium content≤5%, and its granularity is less than 15mm; Its making method is: earlier mechanically mixing is even in proportion with magnesium powder, ferrosilicon powder and the iron powder of required total amount 50% in the rectangular steel tube; Adopt pressing machine with the end of its compacting at rectangular steel tube; In the middle of the rare earth ferrosilicon alloy of magnesium content≤5% was placed on, other 50% magnesium powder, ferrosilicon powder and the iron powder compound that will mix again packed into and is compacted into the identical plane of outer lining rectangular steel tube length with pressing machine in the rectangular steel tube; The second section of its characteristic is a spheroidization apparatus: adopting with the 3rd bolt and nut on column and the Position Scale is that the mode of the first bolted-on connection pole pressure head of the steering shaft on the pressure thick stick of rotating shaft rotation is placed on the pole pressure head above the whole low-silicon nodulizer of outer lining rectangular steel tube and fixing; Its removable position of pole pressure head also can be fixed in the desired position, and the pressure head bottom surface of its pole pressure head is a plane, and the outer lining refractories of pole pressure head partly is the skeleton with Deformed Steel Bars, iron wire weldering system; Column in column and the Position Scale and Position Scale are an integral body that is welded into, and are provided with in the end of Position Scale and move up and down the location, are hung with balance iron at the other end of pressing thick stick;
Add the covering clad in the hot metal ladle upper end, its covering clad fixedly half clad of sealing is provided with the molten iron inlet at neighbour bag wall place; Second half of covering clad can movable overturn, and can cover clad in its pole pressure head upper end leaving certain gaps uncovered by the economic plan by movable half of overturning, and during the processing molten iron, half clad that can overturn is buckled on the pack processing; Adopt its spheroidizing step of mode of said fixing pole pressure head following:
A, open half clad that can overturn, the whole low-silicon nodulizer that outer lining rectangular steel tube on request is pressed into put into the nodularization bag, arrive the predetermined position after, the pole pressure head is pressed above that and fixing;
B, in the nodularization bag, drop into the ferrosilicon nucleating agent, half clad that can overturn is buckled on the pack processing;
C, molten iron pour the nodularization bag through the molten iron inlet and carry out spheroidizing reacion;
After d, spheroidizing reacion finish, open the upset clad, rotate the pole pressure head, scratch clean scum silica frost, buckle the upset clad behind the covering nucleating agent;
E, the molten iron inlet that on the covering clad, is provided with are poured into a mould.
2. nodulizing process about the low-silicon nodulizer of producing spheroidal graphite cast iron; The first part of its characteristic is a nodulizing agent: utilize rectangular steel tube within it portion will contain chemical ingredients Mg10~12.5%, Si15~25%, Ca1~2%, RE0.5~1% surplus for Fe powder material and magnesium content be laminated into less than 5% rare earth ferrosilicon alloy branch, process whole nodulizing agent; The material that is pressed in its rectangular steel tube is: 100 order magnesium powder account for 10~12.5%; Granularity is the ferrosilicon powder 50~60% less than the 1mm silicon content; Calcium content is wherein brought into the calcium content in the ferrosilicon or is added with the mode of silicocalcium; Its granularity is less than 1mm, and rare earth composition adds with the mode of the rare earth ferrosilicon alloy of magnesium content≤5%, and its granularity is less than 15mm; Its making method is: earlier mechanically mixing is even in proportion with magnesium powder, ferrosilicon powder and the iron powder of required total amount 50% in the rectangular steel tube; Adopt pressing machine with the end of its compacting at rectangular steel tube; In the middle of the rare earth ferrosilicon alloy of magnesium content≤5% was placed on, other 50% magnesium powder, ferrosilicon powder and the iron powder compound that will mix again packed into and is compacted into the identical plane of outer lining rectangular steel tube length with pressing machine in the rectangular steel tube; The second section of its characteristic is a spheroidization apparatus: be employed in the telescopic joint pole pressure head of nodularization bag outer upper end welding positioning rotating shaft; The nut that welds on the screw thread that utilizes the positioning handle end and the positioning rotating shaft sleeve pipe cooperates; The threaded portion of positioning handle end passes the fastening pole pressure head of positioning rotating shaft sleeve pipe, realizes regulating the position of pole pressure head in the nodularization bag; The removable position of pole pressure head and can be in needed stationkeeping, pole pressure head are fixed on the low silicon Si nodularizer of integral body of outer lining rectangular steel tube below it; The pressure head bottom surface of its pole pressure head is a plane, and the outer lining refractories of pole pressure head partly is the skeleton with round steel and reinforcing bar and iron wire weldering system.With the mode of the telescopic joint pole pressure head of positioning rotating shaft, when pouring the molten iron spheroidizing, the pole pressure head moves with the nodularization bag;
Add the covering clad in the hot metal ladle upper end, its covering clad fixedly half clad of sealing is provided with the molten iron inlet at neighbour bag wall place; Second half of covering clad can movable overturn, and can cover clad in its pole pressure head upper end leaving certain gaps uncovered by the economic plan by movable half of overturning, and during the processing molten iron, half clad that can overturn is buckled on the pack processing; Adopt its spheroidizing step of mode of said fixing pole pressure head following:
A, open half clad that can overturn, the whole low-silicon nodulizer that outer lining rectangular steel tube on request is pressed into put into the nodularization bag, arrive the predetermined position after, the pole pressure head is pressed above that and fixing;
B, in the nodularization bag, drop into the ferrosilicon nucleating agent, half clad that can overturn is buckled on the pack processing;
C, molten iron pour the nodularization bag through the molten iron inlet and carry out spheroidizing reacion;
After d, spheroidizing reacion finish, open the upset clad, rotate the pole pressure head, scratch clean scum silica frost, buckle the upset clad behind the covering nucleating agent;
E, the molten iron inlet that on the covering clad, is provided with are poured into a mould.
3. according to claim 1 and the described low silicon nodulizing process of claim 2; It is characterized in that adopting each independently in the outer lining rectangular steel tube whole nodulizing agent carry out mechanical uniform mixing again after the batching separately, mix the back and adopt 100 tons or 360 tons of pressing machine compactings.
4. according to claim 1 and the described low silicon nodulizing process of claim 2, it is characterized in that the rare earth ferrosilicon alloy of magnesium content≤5% in the outer lining rectangular steel tube, its RE content is 15~50%.
5. according to claim 1 and the described low silicon nodulizing process of claim 2, it is characterized in that the outer lining rectangular steel tube selects the material of cast iron for use, adopt the castmethod manufacturing.
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102717035A (en) * | 2012-07-09 | 2012-10-10 | 江苏多为泵业股份有限公司 | Low Si-Mg ratio and low RE-Mg nodularizer |
CN102884210A (en) * | 2012-06-21 | 2013-01-16 | 天津市万路科技有限公司 | Spheroidizing method |
CN103725820A (en) * | 2012-10-15 | 2014-04-16 | 于跃华 | Novel cast iron nodulizer |
Citations (2)
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SU1068526A1 (en) * | 1982-10-14 | 1984-01-23 | Центральный научно-исследовательский институт черной металлургии им.И.П.Бардина | Alloy for alloying and reducing steel |
CN102021468A (en) * | 2010-10-25 | 2011-04-20 | 刘年路 | Smokeless spheroidizing method |
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Patent Citations (2)
Publication number | Priority date | Publication date | Assignee | Title |
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SU1068526A1 (en) * | 1982-10-14 | 1984-01-23 | Центральный научно-исследовательский институт черной металлургии им.И.П.Бардина | Alloy for alloying and reducing steel |
CN102021468A (en) * | 2010-10-25 | 2011-04-20 | 刘年路 | Smokeless spheroidizing method |
Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102884210A (en) * | 2012-06-21 | 2013-01-16 | 天津市万路科技有限公司 | Spheroidizing method |
CN102717035A (en) * | 2012-07-09 | 2012-10-10 | 江苏多为泵业股份有限公司 | Low Si-Mg ratio and low RE-Mg nodularizer |
CN102717035B (en) * | 2012-07-09 | 2014-03-26 | 江苏多为泵业股份有限公司 | Low Si-Mg ratio and low RE-Mg nodularizer |
CN103725820A (en) * | 2012-10-15 | 2014-04-16 | 于跃华 | Novel cast iron nodulizer |
CN103725820B (en) * | 2012-10-15 | 2015-06-17 | 于跃华 | Novel cast iron nodulizer |
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Effective date of registration: 20181107 Address after: 221300 Industrial Park, Pizhou, Xuzhou, Jiangsu Patentee after: Pizhou Cheng Ding mechanical equipment Co., Ltd. Address before: 300450 Tianjin Binhai New Area Tanggu new village street Xiangyang 2-5-201 Co-patentee before: Liu Nianlu Patentee before: Tianjin Wanlu Technology Co., Ltd. Co-patentee before: Liu Changchen |