TH50299B - Steel block for mold manufacturing for casting plastic materials by injection molding. Or molds for the manufacture of parts for metalworking - Google Patents

Abstract

DC60 (17/06/53) die-casting steel block for die-casting of plastic injection molded materials or for the manufacture of metal parts with thickness > 20 mm with martensite or mar structure. Completely tensito-binitic which the hardness values at every point of steel block is between 430 HB and 530 HB, and the chemical alloy of steel block consists of 0.180 percent less than or equal to C less than or equal to 0.40 percent Si less than or equal to 0.80 percent Mn less than or equal to 2.5 percent Ni less. Less than or equal to 3 percent Cr less than or equal to 3.5 percent Mo + W/2 less than or equal to 2.8 percent V + Nb/2 + Ta/4 less than or equal to 0.5 percent A1 less than or equal to 0.4 percent Ti + Zr/2 Less than or equal to 0.1 percent 0.0005 percent < B < 0.015 percent S+Se+Te < 0.2 percent Pb+Bi < 0.2 percent Ca < 0.1 percent as a percentage by weight, the remainder will be iron and iron impurities. As a result of production, the chemical mixture also conforms to the following equation: 3.2 less than or equal to Tr less than or equal to 9 85 less than or equal to Dr less than or equal to 95 U/Dr less than or equal to 10.0 which here Tr = 1.8xC + 1.1xMn+0.7xNi+0.6xCr+1.6xxMo*+ 0.5 Dr = 54xC 0.25+24.5x(Mo*+3xV*)0.30+1.58xMn+0.74xNi+1.8xS i+12.5 x(Cr)0.20 U = 1600xC + 100x(0.25xCr+Mo*+4.5xV*) R = 3.8xC+10xSi + 3.3xMn + 2.4xNi + 1.4x(Cr + Mo*) ; Mo*+3xV* more or more equal to 0.4 percent ; Mo* = Mo + W/2 V* = V + Nb/2 + Ta/4 and B greater than or equal to 1/3xK1 + 0.5 where K1 = minimum (I*;J*) I* = Maximum value(O;I); J* = Maximum (O;J) I = Minimum (N; N-0.29(Ti+Zr/2-5)) J = Minimum (N; 0.5(N-0.52AI+ square root of( N-0.52AI)P.2 + 283)) Steel block for the manufacture of molds for the casting of injection molded plastic materials or for the manufacture of metal parts with thickness > 20 mm with a mar-formed structure. Tenzite or fully martensito-binetic which the hardness values at every point of steel blocks are between 430 HB and 530 HB, and the chemical mixture of steel blocks is 0.180 percent less than or equal to C less than or equal to 0.40 percent Si less than or equal to 0.80 percent Mn less than or equal to 2.5 percent Ni less than or equal to 3 percent Cr less than or equal to 3.5 percent Mo + W/2 less than or equal to 2.8 percent V + Nb/2 + Ta/4 less than or equal to 0.5 percent A1 less than or equal to 0.4 percent Ti + Zr/2 less than or equal to 0.1 percent 0.0005 percent < B < 0.015 percent S+Se+Te < 0.2 percent Pb+Bi < 0.2 percent Ca < 0.1 percent as a percentage by weight, the rest will be iron and impurities. who is As a result of production, the chemical mixture also conforms to the following equation: 3.2 less than or equal to Tr less than or equal to 9 85 less than or equal to Dr less than or equal to 95 U/Dr less than or equal to 10.0 which here Tr = 1.8xC + 1.1xMn+0.7xNi+0.6xCr+1.6xxMo*+ 0.5 Dr = 54xC 0.25+24.5x(Mo*+3xV*)0.30+1.58xMn+0.74xNi+1.8xS i+12.5 x(Cr)0.20 U = 1600xC + 100x(0.25xCr+Mo*+4.5xV*) R = 3.8xC+10xSi + 3.3xMn + 2.4xNi + 1.4x(Cr + Mo*) ; Mo*+3xV* more or more equal to 0.4 percent ; Mo* = Mo + W/2 V* = V + Nb/2 + Ta/4 and B greater than or equal to 1/3xK1 + 0.5 where K1 = minimum (I*;J*) I* = Maximum value(O;I); J* = Maximum (O;J) I = Minimum (N; N-0.29(Ti+Zr/2-5)) J = Minimum (N; 0.5(N-0.52AI+ (N-0.52AI) )2 + 283))

Claims (1)

1. Steel block for making molds for casting injection molded plastic materials or Metal casting or for manufacturing metal working parts which has a thickness of more than 20 mm with the structure of the parts being martensitic or completely martensito-binitic structure, which has a hardness value. At all points of steel blocks between 430 HB and 530 HB and containing 0.180 percent steel chemical alloys less than or equal to C less than or equal to 0.400 percent Si less than or equal to 0.80 percent Mn less than or equal to 2.5 percent Ni less than or equal to 3 percent Cr less than or equal to 3.5 percent Mo + W/2 less than or equal to 2.8 percent V + Nb/2 +Ta/4 less than or equal to 0.5 percent A1 less than or equal to 0.4 Percent Ti + Zr/2 less than or equal to 0.1 percent Boron in amounts between 0.0005 percent and 0.015 percent Alternatively, sulfur, selenium, and thallulium are among the many elements. selected element Optionally, lead and bismuth are elements of many. One selected element Optionally, calcium is less than or equal to 0.1% as a percentage by weight. the rest will be steel. and impurity resulting from the copper production process will be impurity. The chemical mixture is also consistent. Corresponds to the following equation: 3.2 less than or equal to Tr less than or equal to 9 85 less than or equal to Dr less than or equal to 95 U/Dr less than or equal to 10.0 Mo* + 3xV* greater than or equal to 0.4 percent, where Quantity is expressed as a percentage Tr = 1.8xC + 1.1xMn + 0.7xNi + 0.6xCr + 1.6xMo* + 0.5 Dr = 54xC 0.25+24.5x(Mo*+3xV*)0.30+1.58xMn+0.74xNi+1.8xSi +12.5. x(Cr)0.20 U = 1600xC + 100x(0.25xCr+Mo*+4.5xV*) R = 3.8xC+10xSi + 3.3xMn + 2.4xNi + 1.4x(Cr + Mo*) Mo* = Mo + W/2 V* = V + Nb/2 + Ta/4 and the amounts of boron, aluminum, titanium, zirconium and nitrogen have been shown in One thousandth of a percent by weight, which would be such that B is greater than or equal to 1/3xK1 + 0.5, where K1 = minimum (I*;J*), I* = maximum(O;I), and J*. = Maximum (O;J) I* = Maximum (O;I) and J* = Maximum (O;J) I = Minimum( N;N-0.29(Ti+Zr/2-5)) I = Minimum( N;N-0.29(Ti+Zr/2-5)) J = Minimum( N; 0.5(N-0.52A1+ (N-0.52AI)2 + 283)) 2. Steel block According to claim 1 of chemical mixtures It is such that R > 11 3. The steel block in accordance with either of Claim 1 or Claim 2 is characterized by the fact that R is less than or equal to 2.7xTr. Articles 1 to 3, which of the following have been defined in particular that the silicon content is definitely less than 0.45 percent by weight and the carbon content is less than or equal to 0.35 percent by weight. Determine the effect that R/(2.7xTr) is less than or equal to 0.90 6. The steel block according to claim 5 is deformed. Characteristic that R/(2.7xTr) is less than or equal to 0.80 7. Any of the steel blocks according to claims 1 to 6 are characterized as U/Dr < 9.0 8. Steel block According to claim No. 7 has been defined. The effect is that the mixture will be such that 0.230 percent less than or equal to C less than or equal to 0.350 percent Si less than or equal to 0.30 percent 0.1 percent less than or equal to Mn less than or equal to 1.8 percent Ni less than or equal to equal to 2.5 percent 0.2 percent less than or equal to Cr less than or equal to 3.0 percent Mo + W/2 less than or equal to 2.5 percent V + Nb/2 + Ta/4 less than or equal to 0.3 percent Mo*+3xV* greater than or equal to 0.8 percent 9. The steel block according to claim 8 is shaped. The effect is that the mixture will be such that 0.240 percent less than or equal to C less than or equal to 0.320 percent Si less than or equal to 0.15 percent 0.1 percent less than or equal to Mn less than or equal to 1.6 percent Ni less than or equal to equal to 2.0 percent 0.2 percent less than or equal to Cr less than or equal to 2.5 percent 0.3% less than or equal to Mo + W/2 less than or equal to 2.5 percent V + Nb/2 + Ta/4 less than or equal to 0.3 percent Mo* +3xV* greater than or equal to 1.2 percent 1 0. The steel block in accordance with Claim 8 or Item 9, either of which is specified. Characteristics that Tr > 4.5 1 1. Steel mold parts according to claims 1 to 10, any one of them which part of the part surface is At the very least, the hardening was obtained by nitriding and The hardness at all points is between 430 HB and 530 HB.