CN100409955C - Technique for CSP sheet billet production line cold rolling feeding - Google Patents

Technique for CSP sheet billet production line cold rolling feeding Download PDF

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Publication number
CN100409955C
CN100409955C CNB2006100483695A CN200610048369A CN100409955C CN 100409955 C CN100409955 C CN 100409955C CN B2006100483695 A CNB2006100483695 A CN B2006100483695A CN 200610048369 A CN200610048369 A CN 200610048369A CN 100409955 C CN100409955 C CN 100409955C
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temperature
finishing mill
cold rolling
mill
production line
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CN1927485A (en
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吝章国
谷凤龙
张玉道
孙洪利
吕德文
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Hebei Iron and Steel Co Ltd
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Handan Iron and Steel Group Co Ltd
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Abstract

The invention relates to a method for cold rolling material feeding of CSP sheet product line. Wherein, it comprises temperature control rule and deformation control rule; and the improved temperature rule comprises the outlet steel temperature of heating furnace is 1045-1062Deg. C, the final rolling temperature is 860-880Deg. C, the coiling temperature is 625-635Deg. C, and the compress rate of rough roller is 48.5-50.3%. The invention via lots of comparison tests can fine optimized coiling temperature and compress rate, to low-temperature coil at 630Deg. C and improve the compress rate of R1 rough roller. And it can obtain normal ferrite and pearlite, without additive, to reduce the yield strength of steel band.

Description

A kind of process of CSP sheet billet production line cold rolling feeding
Technical field
The present invention relates to a kind of steel rolling process method, the particularly temperature schedule of CSP sheet billet production line cold rolling feeding and deformation system, belong to metallurgical technical field of steel rolling.
Background technology
Steel rolling is a kind of main machining method in the stress metal processing, produces permanent deformation by rolling strand or the steel ingot of making, and can change also that their inside is more loose porous, grain structure is thick and the phenomenon inhomogeneous, that segregation is more serious.The technological parameter of major control has deformation system, temperature schedule etc. in the operation of rolling, reasonably formulates these technological parameters and can obtain desired crystal grain and tissue, and can make steel obtain needed comprehensive mechanical property.
The CSP sheet billet production line cold rolling feeding is different with CSP common process production low carbon steel plate, require to reduce the purpose that the finished product grain size number reaches coarsened grain, thereby the reduction yield strength improves percentage elongation, for tissue and performance preparation are carried out in the cold rolling processing of subsequent handling.The CSP common process is produced low carbon steel plate according to the finished product thickness difference, the R of deformation system 1The roughing mill reduction ratio is 40~46%, and the coiling temperature of temperature schedule is for being higher than 670 ℃.It is inappropriate that above-mentioned technological parameter is produced cold rolling feeding for the CSP production line, one: be higher than 670 ℃ high temperature coiling technique scheme, phase transformation is not easy to finish before batching, make that batching follow-up supervention looks becomes, because this moment, cooling velocity was slow, generate cementite easily at ferrite crystal boundary place, the processing performance and the comprehensive mechanical property of band steel are degenerated; Its two: because the roughing mill reduction ratio is less than normal, make that the reduction ratio of finishing mill is bigger than normal, cause finished product crystal grain thin partially, yield strength is higher to be unfavorable for cold rolling machining deformation.Thin partially for solving finished product crystal grain, the higher problem that is unfavorable for cold rolling machining deformation of yield strength, some manufacturer adds trace when producing mild steel boron element is avoided improving intensity because of the tiny aluminum nitride particle of generation disperse with the nitrogen in the fixing steel.Add the fixedly process of nitrogen in steel of trace B element but adopt, increase smelting cost on the one hand, generate boron nitride or carbon boron nitride because the nitrogen in the steel preferentially combines with boron on the other hand, generate aluminium nitride thereby can not combine with aluminium.And aluminium nitride is controlled the formation of cake crystal grain in cold rolling post anneal, makes cold-reduced sheet have good punching performance.As not generating aluminium nitride in the course of hot rolling, will be difficult in the annealing process after cold rolling forming cheese crystal grain, thereby influence the punching performance of cold-reduced sheet.
Summary of the invention
Technical problem to be solved by this invention provides a kind of process of CSP sheet billet production line cold rolling feeding, this method is by optimizing the relevant technological parameter of temperature schedule and deformation system, can make under the situation of not adding any trace element, obtain normal ferrite and pearlitic structrure, and can reduce finished product grain size number, reduction yield strength, raising percentage elongation, thereby satisfy the following process requirement.
The alleged problem of the present invention is solved by following technical scheme:
A kind of process of CSP sheet billet production line cold rolling feeding, constitute and to comprise that temperature schedule and deformation system, its special feature are that described temperature schedule is: come out of the stove 1045 ℃-1062 ℃ of steel temperature of soaking pit, 860 ℃-880 ℃ of finishing temperatures, 625 ℃-635 ℃ of coiling temperatures; The roughing mill reduction ratio of described deformation system is 48.5-50.3%; The total reduction ratio of finishing mill is: 90.1-95.4%, wherein finishing mill F 1Percentage pass reduction is: 43.2-54.5%, finishing mill F 2Percentage pass reduction is: 41.5-52.3%, finishing mill F 3Percentage pass reduction is: 35.7-44.7%, finishing mill F 4Percentage pass reduction is 28.2-38.6%, finishing mill F 5Percentage pass reduction is: 23.1-30.5%, finishing mill F 6Percentage pass reduction is: 16.2-19%.
The process of above-mentioned CSP sheet billet production line cold rolling feeding, described R 1Roughing mill is one-pass roller.
The present invention is directed to CSP production line common process and produce low carbon steel plate easily at ferrite crystal boundary place generation cementite, and because crystal grain is thin partially, yield strength is higher to be unfavorable for that problem that following process requires carries out process optimization to the related parameter that has of temperature schedule and deformation system, by products of different specifications is carried out a large amount of contrast tests, and find out the coiling temperature and the reduction ratio of optimization in conjunction with the hands-on background of milling train, it mainly is improved to: the low temperature of carrying out about 630 ℃ batches, make the band steel before batching, finish phase transformation, avoiding batching follow-up supervention looks becomes at ferrite crystal boundary place generation cementite, and make that aluminium nitride (AlN) not taking place after batching separates out, thereby make hot rolled steel plate obtain normal ferrite and pearlitic structrure, the processing performance and the comprehensive mechanical property of band steel improve, and make the cold-reduced sheet after cold rolled annealed have good punching performance; Adopt low temperature to batch the back, need improve R simultaneously for avoiding the further refinement of crystal grain 1The reduction ratio of roughing mill, total reduction ratio of minimizing finishing mill makes the degree of crystal grain thinning alleviate, and reduces band steel yield strength, improves percentage elongation.
Description of drawings
Fig. 1 is that the CSP apparatus for production line is arranged schematic diagram.
Each label is among the figure: 1. conticaster; 2. heating furnace; 3. descaling mill; 4. edger roll; 5.R 1Roughing mill; 6. soaking pit; 7. accident is cut; 8. descaling mill; 9.F 1Finishing mill; 10.F 2Finishing mill; 11.F 3Finishing mill; 12.F 4Finishing mill; 13.F 5Finishing mill; 14.F 6Finishing mill; 15. measuring chamber; 16. laminar flow cooling; 17. runout table; 18.1 ' coiling machine; 19.2 ' coiling machine.
The specific embodiment
The present invention is directed to the CSP common process and produce mild steel generate cementite and roughing mill reduction ratio easily at ferrite crystal boundary place less than normal, cause crystal grain thin partially, and be unfavorable for that the problem that following process requires carried out process parameter optimizing to coiling temperature and rolling reduction ratio.Aspect coiling temperature, carry out a large amount of contrast tests by room temperature texture to the different coiling temperatures of mild steel, and find out the cold rolling feeding coiling temperature technological parameter of optimization in conjunction with the hands-on background of laminar flow cooling line, it mainly is improved to: break through CSP common process production mild steel and generally take to be higher than 670 ℃ high temperature coiling technique scheme, the lower temperature of carrying out about 630 ℃ batches, make the band steel before batching, finish phase transformation, avoiding batching follow-up supervention looks becomes at ferrite crystal boundary place generation cementite, make that band steel room temperature texture is ferrite and pearlitic normal structure, thereby the processing performance and the comprehensive mechanical property of band steel are improved.In addition, coiling temperature reduces, and after feasible the batching aluminium nitride (AlN) does not take place and separates out, thereby aluminium nitride is stored in the ferrite with hypersaturated state; The aluminium nitride (AlN) that is stored in the ferrite is separated out in the heating process of cold rolling after annealing, be arranged in parallel between the cold rolling fibre structure, when crystallization again, hindered crystal grain to the aluminium nitride that is arranged in parallel (AlN) and grown up along rolling along thickness direction, make crystal grain become the pancake shape of elongation, both cheese crystal grain, thus make steel plate have good punching performance.Produced the further refinement tendency of crystal grain after reducing coiling temperature, for this reason, the present invention improves reduction system and promptly improves R thereupon 1The reduction ratio of roughing mill, austenite recrystallization is abundant when making roughing, improves the austenite form, and then improves the ferrite form, helps to reduce yield strength; In addition, improve R 1The reduction ratio of roughing mill can reduce total reduction ratio of finishing mill, and then reduces the accumulation reduction ratio in finishing mill non-recrystallization district, makes the degree of crystal grain thinning alleviate, and the result reduces band steel yield strength, improves percentage elongation.
To reduce the influence of coiling temperature in order verifying, to have carried out laboratory simulation test cementite on the ferrite crystal boundary.Concrete testing program and process are as follows: two mild steel manufacture test samples are heated to 930 ℃ of insulations 20 minutes, be cooled to 630 ℃ and 600 ℃ with the cooling velocity identical then with the production scene, then sample is put into respectively in two stoves that cut off the power supply of 630 ℃ and 600 ℃, allows sample cool off (simulation tandem rolling factory finished product is rolled up slow cooling) to room temperature with stove.Viewing test sample metallograph, ferrite crystal boundary place does not find cementite, the band structure of steel is ferrite and pearlitic normal structure, has reached the expection test objective.
Laboratory has carried out having carried out type approval test at the CSP production line after the simulated test.Test concrete chemical composition, technology and organize situation as follows:
(1) test chemical composition
Numbering C% Si% Mn% P% S% Als%
1 0.05 0.04 0.20 0.006 0.009 0.0327
2 0.06 0.04 0.19 0.005 0.009 0.0334
(2) test technology parameter
Numbering Come out of the stove steel temperature ℃ of soaking pit R 1Roughing mill reduction ratio % Finishing temperature ℃ Coiling temperature ℃
1 1046 48.5 860 630
2 1052 48.5 860 610
(3) test metal lographic examination
Numbering Specification (mm) Tissue Grain size number
1 3.8 F+P 8.5
2 3.8 F+P 8.5~9
Can find out that from organize photo No. 1 sample and No. 2 sample ferrite crystal boundary places all do not find cementite, organizing all is ferrite and pearlitic normal structure; But No. 2 samples cause ferrite crystal grain thin because coiling temperature is low, the form variation, and the processing performance and the comprehensive mechanical property of influence band steel illustrate that coiling temperature does not have the necessity that further reduces.Taking all factors into consideration coiling temperature is 630 ℃ ± 5 ℃.
Referring to Fig. 1, the setting of CSP production line roughing mill 5 of the present invention and finishing mill 9~14 is as figure.The present invention should suitably reduce band steel yield strength according to cold rolling feeding, and the requirement that improves the product percentage elongation is that to the improvement of deformation system the control deformation system wherein mainly is to increase R 1The reduction ratio of roughing mill can improve the austenite form, and then improve the ferrite form so that austenite recrystallization is abundant like this, helps to reduce yield strength; Can reduce total reduction ratio of finishing mill again, promptly reduce the accumulation reduction ratio in finishing mill non-recrystallization district, make the degree of crystal grain thinning alleviate, its result reaches and reduces the finished product grain size number, reduces yield strength, improves the purpose of percentage elongation.
The quantitative relationship of the total reduction ratio of finishing mill and each percentage pass reduction is as follows:
ε Always=1-(1-ε 1) (1-ε 2) (1-ε 3) (1-ε 4) (1-ε 5) (1-ε 6) ε in the formula AlwaysBe the total reduction ratio of finishing mill, ε 1~ε 6Percentage pass reduction for each finishing mill.
Provide several products below under the essentially identical condition of other technology, R 1The different reduction ratio contrast of roughing mill information slip:
Table 1: product chemical composition
Numbering C% Si% Mn% P% S% Als%
1 0.06 0.02 0.29 0.007 0.009 0.0319
2 0.05 0.04 0.27 0.006 0.009 0.0627
3 0.04 0.05 0.27 0.009 0.004 0.0408
4 0.04 0.02 0.25 0.013 0.005 0.0308
Table 2: technological parameter
Numbering Come out of the stove steel temperature ℃ of soaking pit R 1Roughing mill reduction ratio % Finishing temperature ℃ Coiling temperature ℃
1 1062 50 860 630
2 1048 42.9 860 630
3 1050 50 860 630
4 1050 48.6 860 630
Table 3: mechanical property
Numbering Specification (mm) Yield strength (MPa) Tensile strength (Mpa) Percentage elongation %
1 2.75 300 390 42
2 3.5 320 405 42
3 3.0 295 385 44
4 3.0 300 385 43
Table 4: metal lographic examination
Numbering Specification (mm) Tissue Grain size number
1 2.75 F+P 8.5
2 3.5 F+P 9
3 3.0 F+P 8.5
4 3.0 F+P 8.5
From last table, can find out 1 #Sample, 2 #Sample, 3 #Sample, 4 #The sample chemical composition change is little, and process conditions are the same substantially, and different is 2 #Sample R1 roughing mill reduction ratio is littler than other 3 samples, and as a result 2 #The sample grain size number is 9 grades, and other 3 sample grain size numbers are 8.5 grades; Mechanical property test shows 2 #Sample tensile strength and yield strength are apparently higher than other 3 samples.In addition, can find out 2 from metallograph #Sample organizes in the photo ferrite form to organize ferrite poor morphology in the photo than other three samples.Above-mentioned test explanation increases R 1The reduction ratio of roughing mill helps the alligatoring of finished strip ferrite crystal grain, helps simultaneously improving its form, and band steel yield strength is reduced, and percentage elongation improves.But, limited by appointed condition, R1 roughing mill reduction ratio can not unrestrictedly improve, and the package situation considers that it is suitable that R1 roughing mill reduction ratio is set 48.5%-50.3%.
Along with the roughing mill reduction ratio improves, the finishing mill reduction ratio also will be made corresponding adjustment, and in the finish rolling process, the belt steel temperature height possessed the condition that crystallization again takes place when several rolling mills in front were rolling; Belt steel temperature was low when several rolling mills in back were rolling, and it is rolling to belong to non-recrystallization.To reduce finished product grain size number coarsened grain in order reaching, thereby to reduce yield strength, improve the purpose of percentage elongation, should make the distortion reach as far as possible, make on the one hand crystallization more fully takes place when crystallization is rolling again, improve the preceding austenite form of phase transformation, and then improve the ferrite form; Reduce the Strain Accumulation in the non-recrystallization operation of rolling on the other hand, make the degree of crystal grain thinning alleviate, reduce band steel yield strength, improve the purpose of percentage elongation to reach.Therefore, the finishing mill reduction ratio successively decreases from front to back.
Below provide several embodiment:
Embodiment Come out of the stove steel temperature ℃ of soaking pit Finishing temperature ℃ Coiling temperature ℃ R 1Frame % The total reduction ratio % of finishing mill F 1Frame % F 2Frame % F 3Frame % F 4Frame % F 5Frame % F 6Frame %
1 1052 878 635 50.2 95.4 53.8 50.4 44.7 38.4 27.1 18.5
2 1055 878 632 50.3 95.4 53.8 52.1 44.7 35.1 28.4 18.6
3 1048 880 633 50.1 95.4 53.6 51.9 44.5 35.2 29.3 18.3
4 1045 876 632 50.1 95.4 53.6 51.7 44.6 35.6 29.2 18.1
5 1048 875 630 49.2 95.4 54.5 50.3 43.0 38.6 27.8 19.0
6 1052 876 632 49.7 94.8 52.4 52.2 39.7 33.8 30.3 18.4
7 1049 875 635 49.7 94.8 52.4 52.2 39.8 33.7 30.2 18.4
8 1058 874 630 49.7 94.8 52.4 52.1 39.8 33.7 30.5 18.3
9 1055 872 631 49.7 94.8 52.5 52.3 39.7 33.9 30.1 18.4
10 1056 873 630 49.8 94.8 52.4 52.2 39.7 33.9 30.2 18.5
11 1050 873 632 49.7 93.5 48.9 48.7 38.3 33.6 27.0 17.7
12 1053 875 631 49.7 93.5 48.7 48.6 38.1 33.8 27.0 17.9
13 1056 873 633 49.7 93.5 49.3 49.1 37.0 33.9 27.2 17.3
14 1053 873 631 49.7 93.5 49.3 49.1 37.2 33.8 27.2 17.3
15 1057 870 632 49.7 93.5 49.3 49.1 37.2 33.8 27.3 17.0
16 1054 872 632 49.7 92.9 48.2 43.0 40.4 33.0 27.0 17.4
17 1052 871 633 49.7 92.9 48.1 43.0 40.2 33.0 27.3 17.3
18 1053 873 632 49.7 92.9 48.4 43.2 40.4 33.1 26.3 17.3
19 1055 874 633 49.7 92.9 47.7 45.7 36.1 33.5 28.3 17.8
20 1054 873 633 49.7 92.9 47.1 46.3 39.0 33.2 25.3 17.6
21 1058 868 630 48.5 92.4 47.0 42.0 39.3 33.0 26.9 17.0
22 1057 869 631 48.5 92.4 47.1 41.9 39.4 33.1 26.8 16.9
23 1055 865 630 48.5 92.4 47.0 42.0 39.4 33.0 26.8 17.0
24 1058 866 629 48.5 92.4 47.0 41.9 39.4 33.0 26.9 17.0
25 1057 865 628 48.5 92.4 47.1 42.0 39.4 33.0 26.9 16.9
26 1060 865 628 49.8 90.9 44.4 42.7 36.8 28.9 23.7 16.8
27 1060 863 627 48.5 91.1 45.9 42.3 36.1 29.4 24.7 16.2
28 1062 862 625 48.5 91.1 43.7 42.7 37.9 29.5 24.3 17.1
29 1062 860 627 48.5 90.4 43.6 41.9 36.0 28.4 23.3 16.4
30 1059 862 627 49.7 90.1 43.2 41.5 35.7 28.2 23.1 16.4

Claims (2)

1. the process of a CSP sheet billet production line cold rolling feeding, constitute and comprise temperature schedule and deformation system, it is characterized in that: described temperature schedule is as follows: come out of the stove 1045 ℃~1062 ℃ of steel temperature of soaking pit, 860 ℃~880 ℃ of finishing temperatures, 625 ℃~635 ℃ of coiling temperatures; The roughing mill reduction ratio of described deformation system is 48.5-50.3%, and the total reduction ratio of finishing mill is: 90.1-95.4%, wherein finishing mill F 1(9) percentage pass reduction is: 43.2-54.5%, finishing mill F 2(10) percentage pass reduction is: 41.5-52.3%, finishing mill F 3(11) percentage pass reduction is: 35.7-44.7%, finishing mill F 4(12) percentage pass reduction is: 28.2-38.6%, finishing mill F 5(13) percentage pass reduction is: 23.1-30.5%, finishing mill F 6(14) percentage pass reduction is: 16.2-19%.
2. the process of CSP sheet billet production line cold rolling feeding according to claim 1 is characterized in that: described roughing mill (5) is one-pass roller.
CNB2006100483695A 2006-09-29 2006-09-29 Technique for CSP sheet billet production line cold rolling feeding Expired - Fee Related CN100409955C (en)

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