초록 ▼

The invention concerns a multilayer composite material comprising at least one core (3) interposed between two external layers (1, 2), wherein: —the core (3) is a layer of thermoviscous fluid at room temperature, said thermoviscous fluid having a dynamic viscosity coefficient greater than 100 Pa·s a

The invention concerns a multilayer composite material comprising at least one core (3) interposed between two external layers (1, 2), wherein: —the core (3) is a layer of thermoviscous fluid at room temperature, said thermoviscous fluid having a dynamic viscosity coefficient greater than 100 Pa·s at room temperature, —each external layer (1, 2) is in a material in the solid state at room temperature, each external layer having a surface mass of less than 8 kg/m2.

대표청구항 ▼

1. A multilayer composite material comprising at least one core interposed between two external layers, wherein: the core is a layer of thermoviscous fluid at room temperature, said thermoviscous fluid having a dynamic viscosity coefficient greater than 100 Pa·s at room temperature, the thickness of

1. A multilayer composite material comprising at least one core interposed between two external layers, wherein: the core is a layer of thermoviscous fluid at room temperature, said thermoviscous fluid having a dynamic viscosity coefficient greater than 100 Pa·s at room temperature, the thickness of the thermoviscous fluid layer being less than or equal to twice an acoustic limiting layer of the thermoviscous fluid,each external layer is in a material in a solid state at room temperature, each external layer having a surface mass of less than 8 kg/m2. 2. The multilayer composite material according to claim 1, wherein the thickness (5) of the thermoviscous fluid layer (3) is between 0.001 millimeter and 3 millimeters. 3. The multilayer composite material according to claim 1, wherein the viscosity coefficient of the thermoviscous fluid layer (3) is greater than 240 Pa·s, and preferentially greater than 480 Pa·s. 4. The multilayer composite material according to claim 1, wherein the thermoviscous fluid layer (3) is made of silicone oil. 5. The multilayer composite material according to claim 1, wherein the external layers (1, 2) are made of different materials. 6. The multilayer composite material according to claim 1, wherein the external layers (1, 2) are of different thicknesses (h1, h2). 7. The multilayer composite material according to claim 1, wherein the external layers (1, 2) are attached together. 8. The multilayer composite material according to claim 1, wherein the thermoviscous fluid layer (3) is trapped by confining it between the external layers (1, 2). 9. The multilayer composite material according to claim 1, comprising a plurality of cores (3, 3′, 3″) between both external layers (1, 2), said cores being separated from each other with layers (6, 7) in a material in the solid state at room temperature and having a surface mass of less than 8 kg/m2. 10. A method for making a multilayer composite material comprising at least one core interposed between two external layers, the core being a thermoviscous fluid layer at room temperature, and each external layer being in a material in the solid state at room temperature, the method comprising the calculation (10) of a viscosity coefficient as a function of: the respective thicknesses of the fluid layer and of the external layers,the material making up each external layer,a desired acoustic loss factor. 11. The method according to claim 10, comprising a substep of determining (11) the flexural stiffness of each external layer from the material making them up. 12. The method according to claim 10 or claim 11, comprising a substep of determining (12) the surface mass of each external layer from the material making them up. 13. Use of a material as defined according to claim 1, 2, 3, 4, 5, 6, 7, or 8 as a device for damping vibratory waves. 14. Use of a thermoviscous fluid layer at room temperature, said thermoviscous fluid having a dynamic viscosity coefficient greater than 100 Pa·s at room temperature, between two external layers in the material in the solid state at room temperature, each external layer having a surface mass of less than 8 kg/m2 as an agent for damping vibratory waves.