EP0000873A1

EP0000873A1 - Sound barrier material

Info

Publication number: EP0000873A1
Application number: EP19780100527
Authority: EP
Inventors: Paul Edward Oliveira
Original assignee: Goodyear Tire and Rubber Co
Current assignee: Goodyear Tire and Rubber Co
Priority date: 1977-08-23
Filing date: 1978-07-27
Publication date: 1979-03-07
Also published as: CA1109780A; EP0000873B1; US4110510A; DE2861193D1

Abstract

57 A sound barrier material comprised of a polyvinyl chloride impregnated mesh sheet having a coating of about 5.08 to 8.3 centimeters gauge of a barium sulfate loaded chlorinated polyethylene laminated to a foam of 24 to 40 kilograms per cubic meter.

Description

Technical Field

This invention relates to a relatively dimensionally stable, sound-absorbent and transmission loss sheet or barrier.

Background Art

Certain equipment including piping has high noise transmission levels and consequently work areas equipped with such equipment can have noise levels that are harmful to occupants of said area. It has been desirable and customary to provide such areas with lightweight, flexible sound absorbent or transmission loss sheets or barriers to lower the noise level. The object of this invention is to provide an improved sound absorbent and transmission loss barrier or sheet capable of effectively reducing the noise level in a work area.

Disclosure and Practice of the Invention

The noise abatement materials of this invention can be of any shape but preferably is supplied as a flexible sheet which can be readily cut and draped around the noise producing apparatus or machinery to forestall noise transmission into or through a work area. Usually the sheet is of 1.27 centimeters to 7.62 centimeters gauge that can be hung, draped, wrapped or folded to enclose the noisy machinery or pipes and can be adhered together with suitable adhesives or can be sewn together or connected with fasteners to maintain the sound barrier in the desired relationship and position relative to the noise producer.
The specific nature of this invention and its advantages can be more readily appreciated by reference to the following representative and exemplary examples wherein all parts and percentages are by weight unless otherwise designated.

EXAMPLE 1

A nonflammable mesh material of 33.75 to 540 grams per square meter was coated with a plasticized vinyl chloride resin to give a mesh base sheet having preferably a width of about 288 centimeters or more. This mesh base sheet was passed through calender rolls to apply a predetermined amount of rubbery coating composition to each side having the composition like that of the recipe of Table I. The specific gravity of the compound is in the range of 1.50 to 2.25. The recipe is as set forth below in Table I.
The above ingredients were mixed on a conventional rubber or plastic mixer to give a mixture of uniform texture that can be applied on the calender to the mesh sheet. A sheet of polyurethane foam of about 24 to 40 and preferably 25.6 to 32.5 kilograms per cubic meter was cut from a polyurethane bun having the desired density to provide a sheet of the desired thickness, usually .06 to 3.6 centimeters thick.
The nonflammable mesh base sheet having a coating of the rubbery composition of the recipe, of predetermined gauge, preferably .05 to 8.1 centimeters on each face thereof, is laminated to the polyurethane sheet by placing the two sheets in contact at elevated temperature and pressure in a plate-press, press rolls or related pressure-temperature means.
A laminate made as described comprising a polyvinyl chloride impregnated nonflammable mesh sheet having predetermined gauge coating of the composition of the recipe of Table I laminated to a 1.3 centimeter polyurethane foam sheet, had a sound transmission class number of 28 and a noise reduction coefficient of 0.30 as measured by ASTM E90-75 and E413-73 for transmission loss and ASTM C423-66 for sound absorption.
Preferably the barrier is nonflammable and in these cases glass fiber mats or sheets are preferred over other fabric materials. Since chlorinated polyethylene and polyvinyl chloride can degrade by generation of HC1 it is desirable that they be stabilized with suitable stabilizers such as a litharge dispersion in EPD rubber or the compounds viz., tin and barium compounds used to stabilize polyvinyl chloride.
Any of the plasticizers for polyvinyl chloride can be used in this invention but chlorinated paraffin wax, 10 to 35 percent chloride, can be used, too.
Although polyurethane foams are preferred, other foams such as polyvinyl chloride or polyethylene foams can be used in place of the polyurethane foam.
While certain representative embodiments and details have been shown for the purpose of illustrating the invention it will be apparent to those skilled in this art that various changes and modifications may be made therein without departing from the spirit or scope of the invention.

Claims

1. A sound barrier material characterized by a polyvinyl chloride impregnated mesh sheet having a coating of about 5.08 to 8.3 centimeters gauge of a barium sulfate loaded chlorinated polyethylene laminated to a foam of 24 to 40 kilograms per cubic meter.

2. The sound barrier material of Claim 1 characterized by 50 to 200 parts of barium sulfate being present in each 100 parts of chlorinated polyethylene coating said coating containing from 36 to 48 weight percent of chlorine.

3. The sound barrier of Claim 1 characterized by stabilizing the material with litharge and the plasticizer contains chlorinated paraffin wax.

4. The sound barrier of Claim 1 characterized by the foam being a polyurethane foam.