JP4477760B2 - High strength rolled PC steel bar and method for manufacturing the same - Google Patents

Description

【００４７】
【表２】

【００４８】
【発明の効果】
本発明によれば、高延性で高強度の圧延ＰＣ鋼棒を、低コストで製造し、提供することができる。したがって、本発明は、工業的に非常に有用なものである。[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a PC (prestressed concrete) steel bar used for concrete poles, concrete piles, and the like, and a method for manufacturing the same.
[0002]
[Prior art]
Concrete poles and concrete piles include PC poles and PC piles in which a compressive force is applied to concrete to improve rigidity and bending strength, and cracks are prevented, thereby increasing the strength of the concrete pole and concrete pile itself. And these are manufactured as follows.
[0003]
First, a mild steel wire is spirally wound around a PC steel material arranged in parallel on the circumference (hereinafter referred to as “spiral rebar”), and then the intersection of the PC steel material and the helical rebar is fixed to form a cylindrical piece A mold reinforcing body (hereinafter referred to as “reinforcing body”) is manufactured. Next, the reinforcing body is introduced into the formwork, both ends of the PC steel material constituting the reinforcing body are fixed, and tension is applied with a stress of about 70% of the tensile strength. Next, concrete is poured into the mold, and after the concrete is solidified, the tension stress is released from the PC steel material. By this release, a compressive force is applied to the concrete, and a PC pole or a PC pile is manufactured.
[0004]
Typical examples of the PC steel used for such a concrete structure include a PC steel rod defined in JISG3137 and a PC steel wire defined in JISG3536.
PC steel bars are manufactured by quenching and tempering steel bars that are air-cooled after hot rolling. By this quenching and tempering, it is possible to ensure a TS (tensile strength) of 1420 MPa or more as defined by JISG3137 (Type D).
[0005]
For example, JP-A-3-151445 discloses a high strength of TS: 1420 MPa or more by quenching and tempering a PC steel rod containing Si and adding Mo in order to improve spot weldability and relaxation properties. It is disclosed to produce PC steel bars.
As described above, the PC steel bar is usually subjected to quenching and tempering. By this quenching and tempering, the structure of the PC steel bar becomes a tempered martensite structure. It is difficult to ensure characteristics. For example, as shown in “Iron and Steel vol.81 (1995) .P1625”, in a PC steel bar having a tempered martensite structure of 1400 MPa or more, delayed fracture resistance deteriorates.
[0006]
On the other hand, as a PC steel bar having a structure other than tempered martensite, a rolled PC steel bar obtained by subjecting a hot-rolled material to cold processing and then performing a blueing treatment is provided. Regarding this rolled PC steel bar, “Prestressed concrete vol.13 (1971) p.52” describes that a wire rod obtained by hot rolling a slab is subjected to stretching and bluing treatment to obtain a PC having a TS of 1200 MPa or less. It is disclosed that steel bars can be manufactured.
[0007]
The rolled PC steel bar has excellent points such as high uniform elongation, while the YS (yield strength) is 1100 MPa or less, and the actual situation is that the strength is not sufficiently increased. For this reason, PC steel bars with higher strength and excellent delayed fracture resistance are required.
[0008]
[Problems to be solved by the invention]
Therefore, the present invention provides a high strength and high ductility high strength rolled PC steel bar having a tensile strength (TS) of 1400 MPa or more, and the PC steel bar after the patterning following hot rolling. It is an object of the present invention to provide a production method that can be produced at low cost by aging treatment such as bluing and heat stretch without going through a wire drawing process that is usually employed.
[0009]
[Means for Solving the Problems]
In order to solve the above problems, the present inventors have studied the structure and components of eutectoid steel or hypereutectoid steel. For example, in 0.8% C steel, in order to make TS have an appropriate strength, isothermal transformation is applied and a pearlite structure of 80% or more is required. However, even if TS is 1400 MPa or more, it is difficult to make YS 1200 MPa or more. For this purpose, it was found that heat stretching was applied to improve YS.
[0010]
On the other hand, it is well known that indenting is performed to improve the adhesion to concrete. PC steel wire is indented before stretching. However, it does not necessarily match the stretching conditions of the present invention. Therefore, the material properties of the indented material were investigated. As a result, it has been found that material properties such as delayed fracture are not deteriorated.
[0011]
This invention solves the said subject based on the said knowledge, Comprising: The summary is as follows.
(1) In mass%, C: 0.8 to 1.3%, Si: 0.10 to 2.5%, Mn: 0.25 to 2.0%, and Al: 0.05% or less, In which the balance is Fe and inevitable impurities, and is subjected to isothermal transformation at a temperature of 450 to 550 ° C., the pearlite area ratio is 80% or more and 94% or less, and the surface is indented A high strength rolled PC steel bar characterized by comprising YS (0.2% proof stress) of 1200 MPa or more, TS of 1400 MPa or more, and elongation of 4.5% or more.
[0012]
( 2 ) The steel is further in mass%,
Ti: 0.005 to 0.05%,
Ca: 0.0005 to 0.005%,
REM: 0.0005 to 0.005%,
V: 0.002-0.5% and
Nb: 0.005 to 0.1%
The high-strength rolled PC steel bar according to (1) above, comprising at least one of the following.
[0013]
( 3 ) The steel is further in mass%,
B: 0.0005 to 0.01%
Cr: 0.05-2.0%,
Cu: 0.05 to 1.0%,
Ni: 0.05~1.0%, and,
Mo: 0.05 to 0.50%
The high strength rolled PC steel bar according to the above (1) or (2) , characterized by containing at least one of the following.
[0014]
( 4 ) A steel slab having a chemical component related to the high-strength rolled PC steel rod described in (1), (2), or (3) above is heated to an austenite region and then hot-rolled to obtain a wire, , Subjected to isothermal transformation at a temperature of 450 to 550 ° C., then indented the wire, further imparted 1 to 4% strain, and then maintained at a temperature of 200 to 500 ° C. for 5 to 600 seconds. The method for producing a high-strength rolled PC steel bar according to (1), (2), or (3) above , wherein a blueing treatment is performed.
[0015]
( 5 ) A steel slab having a chemical component related to the high-strength rolled PC steel rod described in (1), (2) or (3) above is heated to an austenite region, and then hot-rolled to obtain a wire, , Subjected to isothermal transformation at a temperature of 450 to 550 ° C., then indented the wire, and further subjected to a heat stretching treatment at a temperature of 200 to 500 ° C. and a tensile strain of 0.5 to 6%. The method for producing a high strength rolled PC steel bar according to the above (1), (2) or (3) .
[0016]
( 6 ) The wire having a chemical component related to the high-strength rolled PC steel rod described in the above (1), (2), or (3) is reheated to the austenite region, cooled, and then 450 to 550 ° C. After that, the wire material is indented, further imparted with a strain of 1 to 4%, and then subjected to a blueing treatment at a temperature of 200 to 500 ° C. for a holding time of 5 to 600 seconds. A method for producing a high-strength rolled PC steel bar as described in (1), (2) or (3) above .
[0017]
( 7 ) The wire having a chemical component related to the high-strength rolled PC steel rod described in (1), (2), or (3) above is reheated to the austenite region, cooled, and then 450 to 550 ° C. (1), then subjecting the wire to indentation, and further subjecting it to a heat stretching treatment at a temperature of 200 to 500 ° C. and a tensile strain of 0.5 to 6% (1 ), (2) or (3) . A method for producing a high strength rolled PC steel bar.
[0018]
DETAILED DESCRIPTION OF THE INVENTION
First, chemical components related to the steel of the high strength rolled PC steel of the present invention (the steel of the present invention) will be described.
C is an important and economical element for securing TS and YS, but in order to obtain TS: 1400 MPa or more and YS: 1200 MPa or more necessary as a PC steel rod, At least 0.8% is necessary, and if it is less than 0.8%, the required strength cannot be obtained. Desirably, 0.85% or more is necessary. On the other hand, when C exceeds 1.3%, reticulated cementite or coarse cementite precipitates at the grain boundaries, and the ductility decreases significantly. For this reason, C addition amount shall be 0.8 to 1.3%.
[0019]
Si is an element that dissolves in ferrite (ferrite ground in pearlite) and improves YS by a remarkable solid solution strengthening action. In order to obtain this improvement effect, at least an addition amount of 0.10% or more is necessary. On the other hand, when the addition amount of Si exceeds 2.5%, the strength becomes too high and the ductility is lowered. For this reason, the upper limit of Si addition amount is set to 2.5%.
[0020]
Mn is an element effective for increasing the hardenability and increasing the strength, and for making the structure in the cross section of the steel rod uniform. In order to obtain these effects, at least an addition amount of 0.25% or more is necessary. On the other hand, when Mn is added excessively, it becomes easy to produce micro martensite which lowers the ductility in the central segregation part. In order to suppress the formation of micromartensite, it is necessary to lengthen the isothermal transformation treatment time, but this is not practical. For this reason, the upper limit of the Mn addition amount is set to 2.0%, and the Mn addition amount is set to 0.25 to 2.0%.
[0021]
P is an element that segregates at the grain boundary and easily causes embrittlement at the grain boundary, and thus needs to be reduced to 0.03% or less. In the steel of the present invention, P is an impurity element and is desirably reduced as much as possible.
S, like P, is an element that segregates at the grain boundaries and easily causes grain boundary embrittlement, so it needs to be reduced to 0.03% or less. In the steel of the present invention, S is an impurity element like P, and it is desirable to reduce it as much as possible.
[0022]
Al is an element added to refine the γ grain size during heat treatment due to the pinning effect of fine Al ₂ O ₃ or AlN precipitates. However, if added over 0.05%, coarse Al ₂ O ₃ is generated and ductility is lowered. For this reason, the upper limit of Al addition amount is made 0.05%.
Next, the selective elements contained in the steel of the present invention will be described.
Mainly to refining the γ grain size is added in order to improve the ductility, Ti, Ca, REM, Nb, and, one Chi sac V or of two or more. Also, mainly one or more of B, Cr, Cu, Ni and Mo are added to improve the strength of the rolled PC steel bar.
[0023]
Ti is an element added to refine the γ grain size during the heat treatment due to the pinning effect of oxides such as TiO ₂ or Ti precipitates such as TiN and TiC. In order to obtain this effect, 0.005% or more must be added. However, if added over 0.05%, a large amount of coarse TiN precipitates and the ductility deteriorates. For this reason, the upper limit of Ti addition amount is made 0.05%.
[0024]
Ca is an element effective for reducing the γ grain size during heat treatment by generating CaS (O). Since less than 0.0005% is not effective, 0.0005% is set as the lower limit of the Ca addition amount. However, if added over 0.005%, the cleanliness is lowered, Ca inclusions are coarsened, and ductility is lowered, so the upper limit is made 0.005%.
[0025]
REM, like Ca, is an element effective for reducing the γ grain size during heat treatment. If less than 0.0005%, there is no effect, so 0.0005% is taken as the lower limit of the REM addition amount. However, if added over 0.005%, the cleanliness is lowered, and inclusions including REM are coarsened and ductility is lowered, so the upper limit is made 0.005%.
[0026]
V is an element that precipitates carbonitride to refine γ grains and improves strength and ductility. V is an element that becomes a trap site for hydrogen that has penetrated into the steel and improves delayed fracture characteristics. To obtain these effects, 0.002% or more must be added. However, if a large amount is added, the effect is saturated and economically disadvantageous, so the upper limit is made 0.5%.
[0027]
Nb is an element that refines austenite grains by the pinning effect of Nb precipitates and improves the ductility of the rolled PC steel bar. For this reason, addition of 0.005% or more is necessary. However, even if added in a large amount, the effect is saturated and economically disadvantageous, so 0.1% is made the upper limit. For this reason, Nb addition amount shall be 0.005-0.1%.
[0028]
B is an element that improves hardenability and increases the strength of the rolled PC steel bar. B is also an element that suppresses the degradation of delayed fracture through a grain boundary cleaning effect that preferentially segregates at grain boundaries and suppresses grain boundary segregation such as P, S, and Mn. For this reason, the lower limit of the B addition amount is set to 0.0005%. However, if added over 0.01%, Fe ₂₃ B precipitates and the delayed fracture resistance deteriorates. Therefore, the B addition amount is set to 0.0005 to 0.01%.
[0029]
Cr is an element that increases the strength by solid solution strengthening and also improves the hardenability and reduces the lamellar spacing of pearlite. If it is less than 0.05%, this effect is insufficient. However, if added over 2.0%, the strength becomes too high and the ductility decreases. For this reason, the upper limit is made 2.0%.
Cu is an element added to improve hardenability. Cu is also an element that generates a stable corrosion product, suppresses hydrogen intrusion, and improves delayed fracture. In order to obtain this effect, an addition amount of 0.05% or more is necessary. However, if added over 1.0%, hot cracking is likely to occur during rolling, so the upper limit is made 1.0%.
[0030]
Ni, like Cu, is an element added to improve hardenability. Ni is also an element that generates a stable corrosion product, suppresses hydrogen intrusion, and improves delayed fracture. Furthermore, Ni is an element that also has an effect of suppressing Cu embrittlement. In order to improve delayed fracture resistance, an addition amount of 0.05% or more is necessary. However, even if added over 1.0%, the effect is saturated and economically disadvantageous, so the upper limit is made 1.0%.
[0031]
Mo is an element effective for improving relaxation properties. In order to increase the strength of steel, an addition amount of at least 0.05% is required. However, if added over 0.50%, the formation of ferrite is suppressed, so the upper limit is made 0.50%. Therefore, the addition amount of Mo is set to 0.10 to 0.50%.
[0032]
The chemical components of steel have been described above. In a rolled PC steel bar, in order to secure YS of 1200 MPa or more, TS must be at least 1400 MPa or more in the wire that has been adjusted and cooled after hot rolling. It is necessary to determine the combination and addition amount of other strengthening elements and to configure the chemical composition of the steel.
[0033]
Next, the manufacturing method (manufacturing method of the present invention) for manufacturing the high strength rolled PC steel bar of the present invention will be described.
The feature of the production method of the present invention is that the pearlite structure is in a state where no strong processing such as wire drawing is performed, and YS is set to 1200 MPa or more. That is, the pearlite structure in the steel of the present invention has high ductility.
[0034]
As described above, even if it is a hypereutectoid steel DLP wire with TS of 1400 MPa or more, YS should be 1200 MPa or more as it is, except when the C content is increased to 1.0% or more. Is difficult. In a wire rod with DLP applied to actual hypereutectoid steel, when TS is 1400 MPa or more, the elongation is as low as 7%. Furthermore, when stretching + bluing treatment is performed, ductility decreases due to age hardening. There is a fear.
[0035]
Therefore, in order to solve the above-mentioned problems, the present inventors did not perform wire drawing, but increased YS after stretching and heat stretch treatment, and decreased elongation at break. investigated. And, by applying stretching + bluing treatment or heat stretching treatment to steel with a pearlite structure with TS of 1400 MPa or more, YS can be increased by about 100 MPa or more, and the decrease in elongation can be suppressed to about 2% or less. I found something to come.
[0036]
From the above, even in a steel having a C content of 0.8% or more, it is possible to easily secure YS: 1200 MPa or more, TS: 1400 MPa or more, and elongation of 4.5% or more.
Next, the structure and manufacturing conditions will be described in detail.
A feature of the steel of the present invention is that it is a pearlite-based structure and TS is 1400 MPa or more. For this purpose, as well as satisfy the chemical components described above, Ru necessary der that pearlite is present more than 80%. However, the upper limit of the pearlite structure was set to 94% based on the pearlite fraction 94% obtained in the examples (refer to the steel T1 of the present invention in Table 2). In the production method of the present invention, after hot rolling of a steel material or after reheating of a wire material, constant temperature transformation is performed at a temperature of 450 to 550 ° C. When the pearlite structure is less than 80%, a desired strength (TS) cannot be obtained.
[0037]
In the isothermal transformation, if the holding temperature is less than 450 ° C., a large amount of bainite is generated, and a structure of 80% or more of pearlite cannot be secured, and a desired TS cannot be obtained. On the other hand, when the holding temperature exceeds 650 ° C., the lamellar spacing becomes coarse and the strength of the pearlite structure decreases, but the isothermal transformation temperature used in the examples is 550 ° C. (see Table 2, Invention Steel T3 etc.). Based on this, the upper limit of the holding temperature is set to 550 ° C. Therefore, the holding temperature in the constant temperature transformation is set to 450 to 550 ° C.
[0038]
The feature of the production method of the present invention is that the wire is subjected to indentation after isothermal transformation at a temperature of 450 to 550 ° C.
By forming irregularities on the surface of the wire by indenting, the adhesion to concrete is significantly improved. In the manufacturing method of the present invention, the indentation may be in any form.
[0039]
In order to raise YS, a wire is pulled to a plastic region by stretching, and then a blueing treatment is performed, and the processing strain applied at this time is removed.
As described above, the conditions relating to stretching and brewing that can secure a breaking elongation of 4.5% or more at YS: 1200 MPa or more are 5 to 200 ° C. at a temperature of 200 to 500 ° C. after applying a strain of 1 to 4%. To hold for ~ 600 seconds.
[0040]
If stretching is less than 1%, YS cannot be increased. On the other hand, if the stretching exceeds 4%, a breaking elongation of 4.5% or more cannot be secured.
Further, if the heat treatment temperature is less than 200 ° C., the diffusion of C is insufficient and dislocations are not fixed, so that it is not possible to increase YS due to aging. On the other hand, when the heat treatment temperature exceeds 500 ° C., the carbide is coarsened and ductility is lowered. For this reason, the heat treatment temperature of the blueing treatment is set to 200 to 500 ° C.
[0041]
Even in the appropriate heat treatment temperature range, it is difficult to secure desired YS and elongation unless the treatment time is appropriate. If the treatment time is less than 5 seconds, C diffusion is insufficient and YS cannot be increased by aging. On the other hand, even if processing is performed for more than 600 seconds, the effect of aging is saturated, so the upper limit of processing time is 600 seconds.
In the production method of the present invention, a heat stretching process can be used instead of the stretching + bluing process. This heat stretching treatment is a treatment performed by applying a tensile strain of 0.5 to 6% to the wire and heating it to a temperature of 200 to 500 ° C.
[0042]
If the applied tensile strain is less than 0.5%, YS cannot be increased. On the other hand, if the tensile strain exceeds 6%, the elongation at break of 4.5% or more cannot be secured.
Further, when the heat treatment temperature is less than 200 ° C., the diffusion of C is insufficient and dislocations are not fixed, so that YS cannot be increased by aging. On the other hand, when the heat treatment temperature exceeds 500 ° C., the carbide is coarsened and ductility is lowered. For this reason, the heat processing temperature of a heat stretching process shall be 200-500 degreeC.
[0043]
The production method of the present invention can secure YS: 1200 MPa or more, TS: 1400 MPa or more, and elongation of 4.5% or more in the high strength rolled PC steel bar under the above conditions. Further, in the production method of the present invention, the wire drawing step that has been conventionally required is omitted, and heating (austenitization) → hot rolling → constant temperature transformation → cooling → indenting → stretching + bluing treatment, or , Heating (austenite) → hot rolling → isothermal transformation → cooling → indenting → heat stretching treatment, through each step, high strength rolled PC steel bar with outstandingly excellent adhesion to concrete, It became possible to manufacture at low cost.
[0044]
【Example】
Examples of the present invention will be described below. The slabs having chemical components shown in Table 1 were heated and then hot-rolled to perform DLP. Thereafter, the wire was stretched and then subjected to blueing treatment. The manufacturing conditions and material properties are shown in Table 2. The elongation in the tensile test was measured by the butt method. The area ratio of pearlite was determined by observation with an optical microscope. In steels T1 to T12 of the present invention, TS was 1400 MPa or more, YS was 1200 MPa or more, and E1 was 4.5% or more. Steel T2 contains Mo as an element for improving relaxation characteristics.
[0045]
Since steels H1 to H3 are not appropriate steel components, the mechanical properties could not be secured. Steel H1 has a small amount of C, and a predetermined strength cannot be obtained. Steel H2 had a large amount of C and reduced ductility. Steel H3 is an example in which the amount of Si added is large and ductility is lowered. Steels H4 to H8 do not have proper manufacturing conditions, and material properties cannot be obtained. Steel H4 had a low isothermal transformation temperature and was less than 80% of the pearlite fraction, so the strength decreased. Steel H5 is an example in which the strength is lowered because the isothermal transformation temperature is high. In steel H6, the amount of pre-strain is small and a predetermined strength of YS cannot be obtained. Steel H7 is an example in which the predetermined strength of YS cannot be obtained because the blueing temperature is low and the diffusion of C is insufficient. Steel H8 had a high bluing temperature and its ductility was lowered by age hardening. Since steel H9 was not indented, its concrete adhesion decreased.
[0046]
[Table 1]

[0047]
[Table 2]

[0048]
【The invention's effect】
According to the present invention, a rolled PC steel bar having high ductility and high strength can be manufactured and provided at a low cost. Therefore, the present invention is very useful industrially.

Claims (7)

In mass%, C: 0.8 to 1.3%, Si: 0.10 to 2.5%, Mn: 0.25 to 2.0%, and Al: 0.05% or less The balance is Fe and inevitable impurities, and the steel is subjected to isothermal transformation at a temperature of 450 to 550 ° C., the pearlite area ratio is 80% or more and 94% or less, and the surface is indented, A high strength rolled PC steel bar characterized in that YS (0.2% proof stress) is 1200 MPa or more, TS is 1400 MPa or more, and elongation is 4.5% or more.   The steel is further in mass%, Ti: 0.005-0.05%, Ca: 0.0005-0.005%, REM: 0.0005-0.005%, V: 0.002-0. The high-strength rolled PC steel bar according to claim 1, characterized by containing at least one of 0.5% and Nb: 0.005 to 0.1%. The steel is further in mass%, B: 0.0005-0.01%, Cr: 0.05-2.0%, Cu: 0.05-1.0%, Ni: 0.05-1 .0%, and, Mo: 0.05 to 0.50% of claim 1 or 2 high strength rolled PC steel rod according to characterized in that it contains one or more. The steel slab having the chemical component according to the high-strength rolled PC steel bar according to claim 1, 2, or 3 is heated to an austenite region, and then hot-rolled into a wire, and then at a temperature of 450 to 550 ° C. Applying a constant temperature transformation, then indenting the wire, further imparting 1 to 4% strain, and then subjecting the wire to a blueing treatment at a temperature of 200 to 500 ° C. for a holding time of 5 to 600 seconds. The method for producing a high-strength rolled PC steel bar according to claim 1, 2, or 3 . The steel slab having the chemical component according to the high-strength rolled PC steel bar according to claim 1, 2, or 3 is heated to an austenite region, and then hot-rolled into a wire, and then at a temperature of 450 to 550 ° C. Applying a constant temperature transformation, then subjecting the wire to indentation, and further applying a heat stretching treatment at a temperature of 200 to 500 ° C. and a tensile strain of 0.5 to 6% , Or the manufacturing method of the high intensity | strength rolling PC steel bar of 3 description . The wire having a chemical component according to the high-strength rolled PC steel bar according to claim 1, 2, or 3 , is cooled after reheating to the austenite region, and then subjected to isothermal transformation at a temperature of 450 to 550 ° C. then subjected to indentation formed into a linear material, further, claim to impart strain of 1-4%, then, characterized by subjecting a bluing treatment in the dwelling time of the 5-600 seconds at a temperature of 200 to 500 ° C. A method for producing a high-strength rolled PC steel bar according to 1, 2 or 3 . The wire having a chemical component according to the high-strength rolled PC steel bar according to claim 1, 2, or 3 , is cooled after reheating to the austenite region, and then subjected to isothermal transformation at a temperature of 450 to 550 ° C. Thereafter, the wire material is indented, and further subjected to a heat stretching treatment at a temperature of 200 to 500 ° C. and a tensile strain of 0.5 to 6% . Manufacturing method of high strength rolled PC steel bar.