FR2514859A1 - SURFACE COATING MATERIAL, IN PARTICULAR FOR THE INSULATION OF PIPES - Google Patents

Abstract

THE INVENTION CONCERNS THE BUILDING INDUSTRY. SURFACE COATING MATERIAL, ESPECIALLY FOR THE INSULATION OF PIPES, IN THE FORM OF A FLEXIBLE COMPOSITE SHEET. THIS COATING CONSISTS OF A SUBSTRATE AND A SURFACE LAYER, PREFERABLY OF DIFFUSION-TIGHT MATERIAL, SUCH AS A METAL FILM. THE SUBSTRATE IS CONSISTING OF A LAYER BASED ON POLYOLEFIN CONTAINING A MINERAL CHARGE. APPLICATION ESPECIALLY TO PIPE INSULATION.

Description

Surface coating material, in particular for

pipe insulation.

  The present invention relates to surface coating materials in the form of a flexible composite sheet, particularly for the insulation of pipes. The pipes are insulated to prevent the exchange of heat, cold and noise, for example by means of mineral wool, rockwool, glass wool or

  The insulation material can be fixed "free-

  IO ment "and provisionally on the pipe or so preformed sleeves are used in the form of straight or curved sections These two alternatives require to cover the insulation with a surface coating material, in part for the final fixing of the insulation on the pipe, in part to impart certain characteristics

  at the general installation It is essential that the material

  The coating material has characteristics such as high fire resistance, low smoke emission, good resistance to climatic variations, good diffusion sealing, etc. So far no coating material has been found. capable of providing the desired characteristics of a surface coating as such at least not at an acceptable cost or as an external insulation of a pipe. An attempt has been made to meet these requirements by using sheets However, polyvinyl chloride has serious environmental drawbacks due to its corrosive emissions.

  hydrochloric acid and chlorine gas when burning.

  Firstly, the polyvinyl chloride-based coating materials are not flame retardant and, secondly, these materials present a high risk

  for the environment in case of accident.

  It has also been attempted to produce surface coating materials consisting of combinations

  laminated paper sheet, possibly including

  However, such combinations do not meet the requirements of high resistance.

Io fire.

  The present invention aims to eliminate the problems of existing coating materials,

  and it is aimed at a material which, from the point of view of

  as well as from the economic point of view, I 5 comply with the standards that may be imposed on our

days to materials of this type.

  The subject of the invention is a coating material

  in the form of a flexible composite sheet, in particular for the insulation of pipes, comprising a substrate and

  a surface layer of preferably

  to diffusion, such as a metal film.

  This material is characterized in that the substrate is

  consisting of a polyolefin-based layer containing

mant a mineral charge.

  As the content of the filler material is high, this content may be up to about 60% by weight, and preferably 40% by weight, this material has the desired characteristics, both from the mechanical point of view and the point of view. of

fire resistance view.

  The mineral filler consists for example of chalk, lime, kaolin or the like, or a combination of

same characteristics.

  The thickness of the substrate is of the order of 100 to 700 microns, and better still of 300 microns. This substrate is advantageously laminated against a surface layer of aluminum having a thickness of 10 to 70 microns, and better still 40 microns. To facilitate the assembly of this coating on

  a pipe, the layers of the composite material are advan-

  taggedly constrained to produce an effect of

  curvature in the direction of the machine.

  The composite material has advantageous

  tensile strength in the longitudinal direction

  dinal and in the transversal sense of at least

  N, a module of at least 150 N / mm, as long as

  tudinally that laterally and a resistance to arra-

At least 50 N.

  In a preferred embodiment of the invention,

  the substrate layer consists of polypro-

  pylene containing a chalk load of 40% by weight.

  As the manufacture of the composite material according to the invention is carried out by means of conventional laminating techniques in machines of the type

  known, the manufacturing process will not be described.

  It should be noted, however, that the tension of the various sheets to be rolled can be varied in order to obtain an appropriate curvature effect in the machine direction. The metal film, which is advantageously an aluminum film, forms the surface layer of the material. coating and can be coated with a lacquer at the time of lamination to provide maximum fire protection For the rest, the main role of aluminum is to oppose a barrier to diffusion and minimize radiation losses. The substrate gives the composite material

  mechanical characteristics, as it also responds

  In addition, the substrate containing the load can be worked during the laminating operation exactly as the "virgin" varieties of flexible sheets made of polypropylene, polyethylene, chloride polyvinyl etc. The following example is given as a non

limiting.

EXAMPLE

  In a conventional apparatus having a separate control for sheet tension, a surface coating material is made from a 300 micron thick polypropylene film containing a chalk filler. 40% by weight, and an aluminum film of

microns thick.

  The following characteristics were measured on a sample of the resulting coating material: Density 1.41 g / cm 3 Weight per unit area 501 g / m 2 Tensile strength longitudinally 140 N longitudinally 140 N laterally 122 N Elongation at fracture longitudinally 11.1% ogtdnlmn 111 laterally 7.1% Module longitudinally 180 N / mm 2 laterally 242 N / mm 2 Pull-out strength longitudinally 111 N lateral 76 N Water vapor penetration Og / m 2

OC / 75% RH

  The surface coating material has been bonded to a mineral wool insulation and a fire test according to Swedish standard 4 (SIS 02 '48 23) is carried out by

  "Statens Provningsanstalt" (official Swedish authority).

  The material has successfully passed the test for Class 1 surface coatings, according to the standard

  Swedish Standard Building SBN 80.

  Of course, the invention is not limited to the example described, it is capable of many variants accessible to those skilled in the art, depending on the intended applications and without departing for that of

framework of the invention.

Claims (4)

  1 Surface coating material under   flexible composite sheet form, especially for the insulation   pipe composition, comprising a substrate and a surface layer of diffusion-proof material, such as a metal film, characterized in that the   substrate is a poly-based layer.   olefin containing a mineral charge, in a quantity   up to about 60% by weight, and better 40% by weight.   Material according to claim 1, characterized   in that the filler is chalk, lime, kaolin or the like or a combination of   materials with corresponding characteristics pendent.   Material according to claim 2, characterized   in that the substrate has a thickness of about 700 microns, and more preferably about 300 microns and   in that said substrate is laminated against a superimposed layer   aluminum alloy having a thickness of 10 to 70 microns, and better than 40 microns.   Material according to claim 3, characterized   in that the layers are laminated with a certain amount of stress in order to impart to the material a   curvature in the direction of the machine.   Material according to any one of the   1 to 4, characterized in that it has a tensile strength of at least 100 N, a modulus of elasticity of at least 150 N / mm 2 longitudinally as well as laterally and a resistance to tearing of at least 50 N.   6 Material according to any one of the   1 to 5, characterized in that the substrate is made of polypropylene containing a filler   of chalk up to 40% by weight.