SU903513A1 - Laminatd cellular panel - Google Patents

Description

(54) MULTILAYER CELLULAR PANEL

one

The invention relates to the construction of shipbuilding, aeronautics, and can be used as structures for fences, partitions, walls, deck superstructures.

A well-known mesh is a panel consisting of outer skins and a middle layer made in the form of a periodic structure of the cellular type, each element of which is a hollow closed cone, preferably truncated. Adjacent elements of the cellular structure are located in a mutually perpendicular direction with respect to the plane of their base. The middle layer is connected to the skins along the contact planes of the tops of the truncated cone, in 1.

The disadvantage of this cellular panel is that when the panel is subjected to dynamic loads, for example, a shock wave, the rigidity of the panel does not allow energy to be extinguished due to the elastic deformations of the middle layer, since the transfer of loads is carried out directly along the forming protrusions. Thus, the laminated mesh panel works as an absolutely rigid body.

Closest to the present invention is a multi-layered mesh panel consisting of outer skins and layers of cellular aggregate, the cells of which have the shape of polyhedral truncated pyramids,

 with vertices facing opposite directions. The filler layers are interconnected by contact planes, side edges and a base plane of the projections 2.

The disadvantage of such a multi-layer cell 10 of this panel is that its compliance is small due to the deformations that occur during dynamic loads, as opposed to weak shock waves.

Due to the fact that the aggregate is connected across the contact planes of the protrusions or the planes of the bases, the transfer of forces from layer to layer takes place through the edges of the projections. Therefore, the elasticity of the panel, i.e., the ability to deform

20 without failure, are determined by the elasticity of the aggregate only, and not by the panel design.

The purpose of the invention is to improve the damping characteristics of a multilayer cellular panel.

This goal is achieved by the fact that a multilayered mesh panel, including outer skin and layers of cellular aggregate, the cells of which are made in the form of truncated polyhedral pyramids, with vertices facing in opposite directions, is made with sheet spacers with protrusions formed on them that are located in mutually perpendicular directions from the plane of the sheet and placed between the layers of the filler, and these protrusions are offset relative to each other by half the step of the cells of the filler. The height of the projections of the damping gasket does not exceed 3/4 of the height of the filler cells. The outer skins have recesses that do not exceed 1/2 the height of the filler cells.

FIG. 1 shows axonometric multilayer cellular panels with smooth outer skin; in fig. 2 - axonometric multilayer cellular panel with casings containing conical recesses.

The multilayered cell panel consists of outer skins 1 and filler sheets 2, which are a cellular structure with protrusions 3, for example, in the form of six-sided truncated pyramids, the vertices of adjacent rows are facing in opposite directions relative to the plane of their base 4. Between the sheets of filler 2 there is a sheet damping gasket 5, with protrusions 6 molded on it, for example conical, the tops of adjacent rows of which are directed in a mutually perpendicular direction relative to the plane of their base 7. Moreover, the height of the projections 6 of the damping gasket 5 does not exceed 3/4 of the height of the projection 3 of the filler 2.

A damping gasket 5 is placed between two sheets of a cellular filler 2, the tops of the projections 3 of which enter the hollow conical projections 6 of the damping gasket 5. The projections 3 of the cellular filler 2 are shifted relative to each other by half a step.

In order to improve the shear mechanical characteristics of the multilayer cellular panel, the outer skinings are made with depressions 8, for example conical, whose pitch is equal to the pitch of the projections 3 of the filler 2, which are directed to one side with respect to the plane of their base 9.

A multilayered mesh panel with a size of 1000 X 1000 mm was manufactured. Exterior platings consist of fiberglass based on T-10 glass fabric and a bonding agent EF 32-301. Cellular aggregate is also manufactured from fiberglass based on T-10 glass fabric and bonding EF 32-301 on special molds. The height of the projections is 15 mm. Damping gasket made of fiberglass based on T-10 glass fabric

and binder EF 32-301 on a special mold. The height of the projections is 10 mm. The panel is bonded using an epoxy resin adhesive composition in an oven

polymerization temperature.

The proposed multilayer cell panel design has good damping characteristics. The damping gasket mechanically joins the layers of the cellular aggregate between them and is an elastic energy absorber due to its resistance during vibrations. Moving the filler layers relative to each other by half a step allows the load to be transferred to the subsequent filler layers through a damping gasket. The mechanical characteristics of such a panel are quite high due to the solid structural connection of the filler layers between themselves and the outer skins.

Claims (3)

Invention Formula A multilayer cellular p-anel comprising outer skin and layers of cellular aggregate, the cells of which are made in the form of truncated polyhedral pyramids, facing vertices in opposite directions, characterized in that, in order to improve the damping characteristics, the panel is made with sheet spacers with molded on them projections located in mutually perpendicular directions from the plane of the sheet and placed between the filler layers, these protrusions being shifted relative to each other by half a step aggregate. 2. The panel according to claim. Ch, characterized in that the height of the projections of the gasket does not exceed 3/4 of the height of the filler cells. 3. The panel according to claim 1, characterized in that the outer skins have recesses that do not exceed 1/2 of the height of the filler cells. Sources of information taken into account in the examination 1. US patent number 3876492, 428-116, 1976. 2. USSR author's certificate number 609852, cl. E 04 C 2/24, 1978.