JPH077930U - Partially bonded stainless steel plate for vibration damping - Google Patents

Abstract

(57) [Abstract] [Purpose] To obtain vibration-damping property by applying it to a molded metal product etc. afterwards without using a vibration-damping composite metal plate that is difficult to mold. It is also possible to provide corrosion resistance and to provide means for using a small number of members. [Structure] A stainless steel plate 2 having a plate thickness of 0.20 to 2.5 mm, an intermediate layer 3 made of a resin having a thickness of 50 to 250 μm and having viscoelasticity and adhesiveness at room temperature, and a release paper 4 are laminated in this order. Partial adhesive type vibration-damping stainless steel plate.

Description

[Detailed description of the device]

[0001]

[Industrial applications]

 INDUSTRIAL APPLICABILITY The present invention is applied to a member in which sound or vibration is a problem, particularly to various machines, devices, appliances, buildings, etc., having a metal plate material, for imparting vibration damping property, and for providing a partially bonded vibration damping property. Regarding stainless steel sheets, for example, in the building such as roofs, household electric appliances such as electric washing machines, automobiles, railway vehicles, various industrial machines, etc. The present invention relates to a vibration-imparting stainless steel plate.

[0002]

[Prior art]

 Conventionally, a composite metal plate has been used in order to give more excellent properties to the metal plate. A typical structure of the composite metal plate is to provide a resin layer between two metal plates to form two metal plates. It is glued. As one of the types, there is a lightweight composite metal plate because the thick resin layer is lighter in weight than the whole plate made of metal. Further, as another type, a viscoelastic resin as a resin forming the intermediate layer of the metal plate is used as a vibration damping metal plate because it has a property of absorbing sound and vibration. . Among the vibration-damping metal plates, those using steel plates as metal plates are called vibration-damping steel plates, and those using stainless steel plates as the type of steel plates are called stainless vibration-damping steel plates.

Since environmental problems have become very important, it is strongly demanded that no noise or vibration be generated in industrial machinery, automobiles, railway cars, and other electrical products that are used daily. In response to the demand, vibration-damping metal plates have been widely used in electric washing machines and automobiles. By the way, this vibration-damping metal plate has a resin layer between the upper metal plate and the lower metal plate in terms of its structure, and since the resin layer is a viscoelastic resin, its processing is very difficult. Even in the bending process, the upper and lower metal plates are separated by the resin layer, so there is a limit to the bending angle, because different bending may occur without applying the same force at the bending portion. Further, when the electric welding is performed, the resin layer is an insulator, and therefore the electric welding cannot be performed by a usual method. Furthermore, at this time, since the resin layer is flammable, it must be prevented from being heated to a high temperature at which the resin burns during welding.

With the subsequent technological development, for vibration-damping stainless steel plates, which have relatively poor workability among vibration-damping metal plates, by taking a large die shoulder width during V-bending and by performing punching at low temperature. , V-bending and punching can be performed without any problems, and the use of a conductive resin as the resin of the intermediate resin layer has facilitated electric welding, which is practical. Most of the problems have been solved. Regarding this, the conventional damping metal plate has some problems because the upper metal plate, the intermediate resin layer and the lower metal plate have the same width, and it is considered that the damping property is partially reduced. As a deformed cross-section constrained type composite metal plate that can be welded by a normal welding method, and has a synthetic resin layer between two metal plates A laminated metal plate is proposed in which the width of one metal plate is narrower than the width of the other metal plate, and the structure has a synthetic resin layer only between these two metal plates (Actual Kaihei 4- No. 126844).

In the case of a vibration damping metal plate using a viscoelastic resin as the synthetic resin in the resin layer, for example, in the front floor molding member of an automobile, only the vicinity of the gear box transmits the engine sound. Since only that part needs to have vibration damping properties and the other parts need to have strength, only the vicinity of the gear box part is used as the laminate part.

[0006]

[Problems to be solved by the device]

 Even when the above-mentioned modified cross-section constrained type composite metal plate is used, it is necessary to manufacture the composite metal plate in a factory or the like in advance when manufacturing a front floor molding member for an automobile having the above-mentioned structure. In addition, when making the above-mentioned molded member from the composite metal plate, the bundled composite metal plate portion having the synthetic resin layer between the two metal plates must be molded. The difficult problems of molding mentioned above are not solved. Furthermore, since it is difficult to manufacture products using ordinary restrained type vibration-damping steel plates on the market, there are problems with the above-mentioned weldability and workability, and it is difficult to perform the welding and forming processes. Requires special equipment and requires special technology. In particular, in the production, the processing time is usually 3 to 5 times as long as the case where a single steel plate is used, the processing cost is significantly increased, and the market is also limited.

From these problems, it is possible to obtain a product which is as easy as the processing of a single metal plate, for example, a stainless steel plate in the processing such as molding, and yet has sufficient vibration damping property. Is desirable. As a technical means therefor, there is also a method in which two metal plates, for example, stainless steel plates are molded in the same predetermined shape, and the two molded stainless steel plates are bonded with a viscoelastic resin. Although it is conceivable, bonding is extremely difficult, and the number of processes is increased, and it cannot be realized in terms of cost. From these points, there is a case where a single metal plate, for example, a stainless steel plate is processed in the processing such as molding without using the constrained composite metal plate having the above-mentioned drawbacks, for example, a constrained composite stainless steel plate. It is desirable to develop a means that can obtain metal plate products that are as easy as yet, yet have sufficient vibration damping properties, such as vibration damping stainless steel plate products. The present invention is intended to provide a novel means that can be used to obtain a vibration-resistant metal plate product that satisfies the above-mentioned conditions.

[0008]

[Means for Solving the Problems]

 In order to solve the above-mentioned problems, the present inventor tried various means capable of achieving the above-mentioned object without using the constrained type composite metal plate. It is not necessary that all the portions of the metal plate that need to have vibrating properties be the constrained three-layer composite metal plate structure described above, and if they are present to some extent, even a portion thereof It was found that it can have sufficient vibration damping property. Further, the constrained three-layer composite metal plate structure does not have to exist before processing such as molding, and after the constrained three-layer composite metal plate structure is processed. , Found that it can have sufficient vibration damping properties. The present invention has been completed on the basis of the above-mentioned findings, and is a partially bonded type vibration-damping stainless steel plate that can be used after being processed into a constrained three-layer composite metal plate structure. Is.

That is, the present invention was able to achieve the above object by the following configurations. (1) A stainless steel plate having a thickness of 0.20 to 2.5 mm, an intermediate layer made of a resin having a thickness of 50 to 250 μm and having viscoelasticity and adhesiveness at room temperature, and release paper are laminated in this order. A partially-adhesive vibration-damping stainless steel plate characterized by the above. (2) The portion of the above (1), wherein the resin forming the intermediate layer is a viscoelastic resin having an energy absorption rate (tan δ) of 0.6 to 1.3 at 0 to 40 ° C. Adhesive type vibration-damping stainless steel plate.

The partially-adhesive vibration-damping stainless steel plate of the present invention is applied to a metal plate (hereinafter, referred to as “substrate”) that constitutes various devices and devices, for example, a stainless steel plate, In addition, it is partially converted into a constrained three-layer composite metal plate structure, which is used to make the entire metal plate that is the above-mentioned substrate have damping properties. The ratio of the partially-adhesive vibration-damping stainless steel plate used to the metal plate that is the substrate is preferably 10% or more in the area, and is preferably 25% or more. The higher the ratio is, the better, but if it is too high, it becomes difficult to attach and the process becomes difficult. The position applied to the metal plate, which is the substrate, is effective near the center of the excitation point or near the center of the metal plate.For this reason, it is often applied to a flat part that has not been processed. It is easy to install. The construction of the partially-adhesive vibration-damping stainless steel plate of the present invention will be described with reference to the drawings. In FIG. 1, a stainless steel plate 2, an intermediate layer 3 made of a viscoelastic and adhesive resin, and a release paper 4 are shown. A stainless steel plate 1 for partial adhesion type vibration damping is formed by being laminated in order. In FIG. 1, the stainless steel plate 2 is shown above, but the reverse is also possible.

The stainless steel plate constituting the partially adhered type vibration-damping stainless steel plate of the present invention may be made of any stainless steel, and examples of the steel type include SUS304, SUS316, and the like. SUS430 etc. are mentioned. As for its thickness, this stainless steel plate is partially present, so it hardly contributes to the improvement of the strength of the substrate.Therefore, it is possible to suppress the vibration by the metal plate as the substrate and the intermediate layer made of viscoelastic resin. It has only to be thick enough to give 0. It is preferable to have a thickness of 20 to 2.5 mm, but it is preferable that the vibration damping effect is hot. However, in this case, it leads to an increase in cost, so it may be selected appropriately. It is preferably thin, for example, about 0.25 to 0.5 mm. The stainless steel plate should have a good finish in practical use and a high smoothness. Color stainless steel plates can also be used.

Specific examples of the viscoelastic resin used for the resin intermediate layer include polyisobutylene-based resins, acryl-modified polyethylene-based resins, olefin-based resins, and acryl-based resins. In addition to having a high viscosity at room temperature, it must have elasticity, and a high viscosity alone does not have a vibration damping property. When applying the partially-adhesion-type stainless steel plate for damping properties of the present invention to the metal plate of the substrate, the resin must be adhered. Therefore, the resin must have not only viscosity and elasticity but also adhesiveness. In addition, it must have elasticity after bonding due to the relationship of vibration damping.

In order to effectively exhibit both properties, the resin is a viscoelastic resin having an energy absorption rate (tan δ) of 0.6 to 1.3 at 0 to 40 ° C. Some are preferred. In order to have such properties, two or more kinds of resins may be blended and used as the above-mentioned resin, and various kinds of additives may be added if necessary. When the energy absorption rate (tan δ) of the resin is less than 0.6 at 0 to 40 ° C, the vibration damping property is deteriorated, and when it exceeds 1.3, the adhesive force is affected and the adhesive force is decreased, which is preferable. Absent. The thickness of the intermediate layer made of the viscoelastic resin is also an important factor that affects the vibration damping property, but is preferably in the range of 50 to 250 μm. The thickness can be selected depending on the kind of the resin. In the partially bonded type vibration-damping stainless steel plate of the present invention, a release paper is provided on the viscoelastic resin intermediate layer. This release paper is used by peeling it off when applying this steel plate to the metal plate of the substrate, and since it works in the same way as a normal release paper, the well-known release paper is used as it is. It is possible to use, for example, paper or nonwoven fabric made of pulp or the like, coated with or impregnated with a resin or various mold release agents that give mold release properties, and its thickness does not need to be particularly limited. It is a thing.

[0014]

[Action]

 To use the partially bonded type vibration-damping stainless steel plate of the present invention, it is only necessary to cut it to an appropriate size and attach it to the back surface of a metal plate molded product such as a stainless molded product. Since it is a condition, it is possible to perform vibration control processing only on the necessary part with a simple work. The work can be done easily by peeling off the release paper like a sticker and bringing the adhesive resin surface and the molded product into close contact. At that time, depending on the application, there is not much difference in vibration damping property between the case where it is applied to the entire surface of the molded product and the case where it is applied to an area of 25%. The relationship between the pasted area and the vibration damping property is shown in the experimental example described below. By this action, the usage amount can be minimized depending on the use of the molded product.

The viscoelastic resin between the metal plate of the molded product itself and the stainless steel plate according to the present invention attached to the molded product converts the vibration energy into heat energy and greatly reduces vibration. The viscoelastic resin has a large adhesiveness, and its adhesive force has been verified by a tensile shear test and a T-type peel test, and this resin can be sufficiently adhered at room temperature. In addition, when adding vibration damping properties to the target molded product using the partially bonded type vibration damping steel plate of the present invention, the conventional sandwich type vibration damping steel plate is formed and processed for retrofitting. It does not require any special mold or equipment like in case of. The partially-adhesive vibration-damping stainless steel plate of the present invention can be used in various industrial machines, electric products, automobiles, etc. described above. Specifically, synthetic resin can be mentioned as one example. It is extremely effective for pellet viscous devices, emergency stairs in condominiums, sink sinks, etc. In particular, it is attached to the back of the footboard of the existing emergency stairs, which is problematic because of the sound made of ordinary iron. As a result, noise generation can be significantly reduced.

[0016]

【Example】

 Hereinafter, the present invention will be described in detail with reference to examples. However, the present invention is not limited to this embodiment. Example 1 The energy absorption rate (tan δ) was 1.7 (value at 20 ° C.), and 1.05 to 1.18 (0 to 40) on one entire surface of a SUS304 stainless steel plate (2B finish) having a thickness of 0.3 mm. A viscoelastic resin having a thickness of 50 μm (in the range of ° C) was laminated together with a release paper by a film lamination method to obtain a partially-adhesive vibration-damping stainless steel plate of the present invention.

Test Example 1 The damping effect was measured by the pasting area ratio of the partially-adhesive type stainless steel plate for imparting damping properties of the present invention. The partially-adhesive vibration-damping stainless steel plate of Example 1 was attached to a 0.4 mm-thick SUS304 stainless steel plate of 500 × 500 mm, and the attachment area ratio was changed. (1) Test content-Measurement of noise level by sticking area ratio Sticking area ratio: 0%, 25%, 33%, 50%, 75%, 100% Impact sound source: Steel ball drop (diameter 11 mm, 5.4 g, high 1m)

(2) Test method Test piece: SUS304 stainless steel plate (0.4 mm) 500 × 500 mm Stainless steel plate for partial adhesion type vibration damping (0.3 mm) Adhering area ratio 25% 1/4 250 × 250 mm 33% 1/3 289 x 289 mm 50% 1/2 354 x 354 mm 75% 3/4 433 x 433 mm 100% 4/4 500 x 500 mm This test piece is for applying the partial adhesion type vibration damping property to the SUS304 stainless steel plate. The stainless steel plates were attached so that the centers of both were aligned and the sides of both were parallel.

(3) Measurement conditions Steel ball drop: Steel ball Diameter = 11 mm, Weight = 5.46 ± 0.01 g Drop height 1 m, E = 0.546 kg · cm Drop position Center part of sample Measurement position Sample center part 52 cm, height 1 m (4) Measurement results a. Damping characteristics of the partially-adhesive type vibration-damping stainless steel plate viewed from the frequency depending on the sticking ratio Fig. 2 shows a graph of changes in the noise level (Lp) (dB) depending on the ratio (%) of the sticking area with respect to each frequency Show. b. Damping characteristics of the partially adhered type vibration control stainless steel plate for each attachment rate as a function of noise level Change of the noise level for the noise frequency on the stainless steel plate to which the partially adhered vibration control stainless steel plate is attached Fig. 3 shows a graph showing each of the sticking rates.

According to FIG. 2, the noise level decrease caused by sticking the stainless steel plate for vibration damping with partial adhesion of the present invention to the stainless steel plate depends on the frequency of the sound. Especially, when the frequency is around 8 KHz, Even if the application area is 25% compared to the case without application, the noise level will be significantly reduced. Since the noise level is reduced by 3 dB, the energy of the noise is halved, it is clear that the noise can be considerably reduced not only in the case of 8 KHz in FIG. 2 but also in the case of 1 KHz. is there. Further, the degree of the decrease in the noise level corresponding to the frequency can be seen from FIG. 3, but it can be seen that the purpose is sufficiently achieved when the pasting area is 25% or more.

Test Example 2 A partially-adhesive-type vibration damper having an intermediate layer made of the viscoelastic resin of Example 1 having a thickness of 0.05 mm on a SUS304 stainless steel plate having a thickness of 0.20 mm and a release paper provided on the intermediate layer. A length of 200 mm × 25 mm of a given stainless steel plate was peeled off from the release paper, and it was attached onto a piece of a length of 200 mm × 25 mm of a SUS304 stainless steel plate having a thickness of 0.4 mm. In this case, the size of the stainless steel plate to be attached was the same size because of the test. The tensile shear strength and T peel strength of this sample were measured. As a result, the tensile shear strength was 210 N / cm ² , the T peel strength was 43 N / 25 mm at 24 ° C., and the thickness of SUS304 stainless steel was 0.2 mm. Compared to the conventional constrained type composite stainless steel sheet having a resin intermediate layer of the same thickness between two steel sheets, it showed a considerably good value.

[0022]

[Effect of device]

 According to the present invention, it is possible to obtain a metal plate molded product having a vibration damping property without using a restraint type vibration damping metal plate, so that it is not necessary to perform a laborious processing of the restraint type vibration damping metal plate. However, no special molding machine is required and welding is not difficult. In addition, the metal plate molded article can be made to have a vibration damping property by being attached later to the molded metal plate molded article. Moreover, since the application area is small and sufficient vibration damping property can be provided without applying it to the whole body, the cost is low and the application work is easy. The part to which this stainless steel plate for vibration damping with partial adhesion is attached has corrosion resistance because the stainless steel plate that is the surface is non-rusting, and the usefulness of the metal plate molded product increases.

[Brief description of drawings]

FIG. 1 is a perspective view showing the structure of a partially-adhesive type vibration-damping stainless steel plate of the present invention.

FIG. 2 is a graph showing, for each frequency, a change in noise level depending on a ratio of a noise sticking area on a stainless steel plate to which a vibration damping stainless steel plate is stuck.

FIG. 3 is a graph showing changes in noise level depending on the frequency of noise on a stainless steel plate to which a vibration-damping stainless steel plate is attached, for each attachment rate.

[Explanation of symbols]

 1 Stainless steel plate for partial adhesion type vibration damping 2 Stainless steel plate 3 Intermediate layer 4 Release paper

Claims (2)

[Scope of utility model registration request] 1. A stainless steel plate having a plate thickness of 0.20 to 2.5 mm, an intermediate layer made of a resin having a thickness of 50 to 250 μm and having viscoelasticity and adhesiveness at room temperature, and release paper are laminated in this order. Partial adhesive type vibration-damping stainless steel plate. 2. The resin constituting the intermediate layer is 0 to 40.
Energy absorption rate (tan δ) at 0.6 ° C is from 0.6 to
A partially-adhesive vibration-damping stainless steel plate according to claim 1, which is a viscoelastic resin having a ratio of 1.3.