High Strength Spring Steel Wire and High Strength Spring and Methods of Production of the Same

a high-strength steel wire and spring technology, which is applied in the direction of furnaces, heat treatment equipment, manufacturing tools, etc., can solve the problems of unavoidable peeling of paint, unavoidable corrosion and pitting, and improve the corrosion fatigue characteristics, etc., to achieve high strength, high strength, and high strength

Inactive Publication Date: 2009-01-22
NIPPON STEEL CORP
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Benefits of technology

[0007]The present invention solves the above-mentioned problems and has as its object the provision of high strength spring and high strength spring steel wire superior in corrosion fatigue characteristics suitable for the suspension spring of an automobile etc. and methods of production of the same.

Problems solved by technology

An important issue in raising the strength of suspension springs is improvement of the corrosion fatigue characteristics.
Suspension springs are painted for use, but pebbles etc. bounce against them while the automobile is moving, the parts of the springs contact each other, etc. resulting in unavoidable peeling of the paint, so corrosion and pitting are unavoidable.
However, in low alloy steel used for automobile use suspension springs, suppression of corrosion by adjustment of the alloy elements is difficult.
The more sufficiently the corrosion fatigue characteristics can be improved, the less possible it is to suppress corrosion and pitting.
Further, in regions where salt is spread on the roads, the suspension springs face tough corrosive conditions, so even if adding a small amount of alloy elements, no effect of suppression of corrosion can be expected any longer.
In particular, spring steel has a relatively large content of carbon, so a large amount of iron carbide inevitably precipitates as well.
However, even with these methods, the corrosion fatigue characteristics are insufficiently improved.

Method used

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  • High Strength Spring Steel Wire and High Strength Spring and Methods of Production of the Same

Examples

Experimental program
Comparison scheme
Effect test

example 1

[0068]Below, examples will be used to further explain the present invention.

[0069]Converter produced steels having the compositions shown in Table 1 were produced by continuous casting and, in accordance with need, soaked and diffusion treated and cogged to obtain 162 mm square rolled materials. Next, hot rolling was performed to obtain wire material shapes of diameters of 13 mm. These were annealed in accordance with need, then cold drawn, then cut to predetermined lengths to obtain rods.

[0070]Next, these were heated in a heating furnace to 980° C. and held there for 30 minutes, then the rods were wrapped around a drum hot to form them into predetermined spring shapes which were then immediately immersed in oil for quenching. Further, the material for obtaining the tensile test piece and Charpy impact test piece was quenched as in a rod shape without forming it into a spring shape.

[0071]Next, a spring shaped material and rod material were tempered under the conditions shown in Tabl...

example 2

[0076]Wire materials of diameters of 13 mm of Steel Nos. A to J shown in Table 1 hot rolled in the same way as Example 1 were used to evaluate the effect of suppression of decarburization by the addition of Sb. The wire materials were straightened, then ground at their outer circumference to remove the effects of the initial surface layers and obtain 12φ rod test pieces. The test pieces were heated to 870° C., was then held for 30 minutes, then were transferred to a 750° C. furnace, held there for 60 minutes, then air-cooled. The heat treatment was all performed in the atmosphere. The heat treatment conditions were heat treatment conditions very conducive to decarburization. After the heat treatment, the C cross-sections of the rod test pieces were cut, polished, and corroded by nitral and the depths of the decarburized layers of the surfaces were measured.

[0077]The results are shown in Table 3. Steel A has no Sb added, while Steel J has substantially the same ingredients as Steel A...

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Abstract

The present invention provides high strength spring and high strength spring steel wire superior in corrosion fatigue characteristics and methods of production of the same, that is, a high strength spring steel wire and high strength spring containing, by mass %, C: 0.35 to 0.50%, Si: 1.00 to 3.00%, and Mn: 0.10 to 2.00%, restricting P to 0.015% or less and S to 0.015% or less, having a balance of Fe and unavoidable impurities, and, when raising the temperature in the range from 50° C. to 600° C. by 0.25° C. / s and measuring the differential scanning calories, having the only peak of the exothermic reaction present at 450° C. or more. A method of production of high strength spring characterized by tempering under conditions where the tempering temperature T[K], tempering time t[s], and content Si % [mass %] of Si satisfy the following:16000≦(T−40×[Si %])×(31.7+log t)≦23000.

Description

TECHNICAL FIELD[0001]The present invention relates to a high strength spring preferable for a suspension spring of an automobile etc., a material for the same, that is, a high strength spring steel wire, and methods of production of the same.BACKGROUND ART[0002]Due to the demands for lightening the weight of auto parts, suspension springs and the like are being asked to be raised in strength. An important issue in raising the strength of suspension springs is improvement of the corrosion fatigue characteristics. Suspension springs are painted for use, but pebbles etc. bounce against them while the automobile is moving, the parts of the springs contact each other, etc. resulting in unavoidable peeling of the paint, so corrosion and pitting are unavoidable. Fatigue cracks occur in the suspension springs starting from the corrosion pits due to such pitting, so technology for adjusting the ingredients of the springs and spring use steel wire to suppress corrosion pits is being reported ...

Claims

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Application Information

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Patent Type & Authority Applications(United States)
IPC IPC(8): C21D9/02C22C38/00
CPCC21D1/25C21D9/525C21D8/065C21D1/42Y02P10/25C22C38/02C22C38/04C22C38/001C22C38/14C22C38/60
Inventor KUBOTA, MANABUHASHIMURA, MASAYUKI
Owner NIPPON STEEL CORP
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