RU2538270C1 - Vibration damping block - Google Patents

Abstract

FIELD: transport.

SUBSTANCE: invention relates to automotive industry machine building, construction and etc. where effective lowering of engineering structures vibrations and engine noise is required and concerns vibration damping block. The block contains one or more foil plates and connected with it layers of polymeric compound including synthetic rubber, plasticizer and fillers. Polymeric compound additionally contains asphalt, modified epoxide resin, stearine and mixture of modified bergmeal with talc in 1:4 relation, and as filler it contains chalk stone, zinc oxide and carbon black with corresponding relation of components. Foil plates thickness is 0.1-0.3 mm. Polymeric compound having thickness of 1.0-2.0 mm is protected from outer side by antiadhesion coating.

EFFECT: invention permits to improve efficiency of vibration absorbing properties in the range of -20 to +60°C, to simplify material mounting on various coatings, to reduce block mass.

2 cl, 1 dwg, 2 tbl

Description

The invention relates to vibration-absorbing materials intended for use in the automotive industry, mechanical engineering, construction, etc., where effective reduction of vibration of engineering structures and engine noise is required.

Known vibration damping sheet material made from a composition based on petroleum bitumen, plasticizer, resin, filler - chalk. The material includes styrene-indene resin, obtained from distillation residues of crude benzene rectification and pyrolysis resin, as well as from polymers of the benzene department, plasticizer - di- (2-ethylhexyl) -phthalate and additionally includes fillers - milled phlogopite milled for the metallurgical industry of the SMFF-grade 160 and milled crushed grade SDF-3, microspheres obtained from an aqueous suspension of ash from a thermal power plant, fractionated microlastonite obtained by grinding, and substandard basalt wool (RU 2368630, IPC C0 8L 95/00, C08K 3/26, published September 27, 2009).

A disadvantage of the known material is a low loss coefficient and a narrow temperature range of work.

Known sealing mastic and vibration-absorbing material based on it, in which sealing mastic includes chlorobutyl rubber, polyisobutylene, stickiness agent - tall oil glycerin ester, reinforcing polymer - polyethylene waste, P-803 carbon black, thixotropic additive - asbestos, melamine trichlorethylene plasticizer; and zinc borate, fillers sizing with synthetic fatty acids - aluminum hydroxide and magnesium hydroxide, shungite, a curing agent - paraquinondioxime, manganese oxide. Vibration-absorbing polymeric material includes an aluminum foil base and a layer of sealing mastic protected with release paper (RU 2421497, IPC C09K 3/10, C08L 23/20, C08L 23/28, C08K 3/22, B32B 15/06, B32B 25/18 , published on 06/20/2011).

A disadvantage of the known material is effective vibration absorption only in the range of positive temperatures.

Known bitumen composition and vibration damping block based on it, including bitumen, petroleum resin, liquid rubber and fillers - asbestos 7T-5 and talc (US 4412864, C08L 95/00, Publication Date 11/01/1983).

Known polymer composition of vibration damping blocks used in vehicles based on butyl rubber, including butyl rubber, ethylene vinyl acetate, regenerated rubber, fillers - paper fibers, acrylic fibers, chalk, lime (US 4838939, C08K 07/02, Publication Date 06/13/1989 )

Known vibration-absorbing material and automotive soundproofing material based on it, including bitumen, butyl rubber, ethylene vinyl acetate, oil and filler - chalk (US 5094318, B32B 07/02, Publication Date 03/10/1992).

The disadvantages of imported materials include a low loss coefficient and the inefficiency of vibration absorption in the region of negative temperatures.

The closest in technical essence to the claimed invention is a vibration damping unit containing one or more plates of foil and associated layers of a polymer composition including synthetic rubber, plasticizer, vulcanizing agent, filler (RU 36869, IPC F16F 13/00, F16F 1 / 40, publ. 03/27/2004).

A disadvantage of the known solution is the insufficient loss factor and a narrow temperature range of effective vibration absorption.

The technical result consists in improving the vibration damping properties, expanding the operating temperature of the polymer composition in the range from -20 to + 60 ° C, reducing the mass of the vibration damping block obtained on the basis of the polymer composition, simplifying the installation of the material on various coatings.

The essence of the invention lies in the fact that in a vibration damping block containing one or more foil plates and associated layers of a polymer composition including butyl rubber grade BK 1675N or ethylene propylene rubber grade SKEPT-40, industrial oil grade I-20A, fillers, polymer the composition further comprises bitumen of oil grade BN 90/10 or oil bitumen road grade BND 90/130, modified epoxy resin, technical stearic acid and a mixture of diatomite modified with talc in the ratio uu 1: 4, and as filler comprises chalk, zinc white and carbon black, with the following component ratio, wt. %:

Butyl rubber brand BK 1675N or ethylene propylene rubber brand SKEPT-40 10-15 Industrial oil of the I-20A brand 5-10 Bitumen of the oil brand BN 90/10 or bitumen oil road grade BND 90/130 10-15 Technical stearic acid 0.2-0.8 Modified Epoxy 2-5 A mixture of diatomite modified with talc in the ratio 1: 4 1-5 a piece of chalk 35-42 Zinc white 15-25 Carbon black 2-5

The thickness of the foil plates is 0.1-0.3 mm, and the polymer composition having a thickness of 1.0-2.0 mm is protected externally by a release coating.

In FIG. 1 shows the construction of a vibration damping unit, consisting of one foil plate 1 and one layer of a polymer composition 2, protected from the outside with a release coating 3.

Foil plate (GOST 618-73).

The polymer composition includes:

Synthetic rubber - butyl rubber grade BK 1675N (TU 2294-034-05766801-2002) or ethylene propylene rubber grade SKEPT-40 (TU 2294-087-05766563-2010).

Plasticizer - industrial oil grade I-20A (GOST 20799-88).

Fillers: chalk finely divided MTD-2 grade (TU 5743-020-05346453-2008), whitewashed zinc grade BTs0M (GOST 202-84), carbon black grade P 234 or P 803 (GOST 7885-86).

Bitumen of the oil grade BN 90/10 (GOST 6617-76) or bitumen of the oil road grade BND 90/130 (GOST 22245-90).

Modified epoxy resin DEG-Zh (TU 2225-510-00203521-94).

Technical stearic acid (stearin) T-32 (GOST 6484-96).

A mixture (in a 1: 4 ratio) of diatomite (TU 5716-013-25310144-2008) modified with talc (GOST 19729-74).

Release coating (TU 5433-055-12963867-98 or TU 5459-055-39160180-00).

A method of manufacturing a vibration damping unit is as follows. Modified diatomite is prepared, which is obtained by treating natural diatomite containing 70-95% silica 6-8% with a hydrochloric acid solution at a temperature of 90-95 ° C for 4 hours. Then it is mixed with talc in a ratio of 1: 4. In mixing equipment with Z-shaped mixers, by mechanical mixing of the mixture of components, polymer composition 2 is made, which contains synthetic rubber, plasticizer, bitumen, technical stearic acid, modified epoxy resin, a mixture of diatomite modified with talc 1: 4 and fillers: chalk, white zinc and carbon black. To obtain a vibration damping block, the prepared polymer composition is turned into a tape or sheet with a thickness of 1.0–2.0 mm using an extruder and is coated on one side with foil 1, the thickness of which is 0.1–0.3 mm, and with the opposite, a release coating 3.

Examples of the vibration damper unit and the results of its testing are shown in tables 1 and 2.

Compared with the known solution, the proposed solution improves the vibration damping properties and extends the operating temperature of the polymer composition in the range from -20 to + 60 ° C due to the use of bitumen, modified epoxy resin and technical stearic acid in the polymer composition, and reduces the weight of the vibration damping obtained from the polymer composition block by reducing the thickness of the polymer composition without compromising vibration damping properties. Due to the use in the polymer composition of a mixture of diatomite modified with talc in a ratio of 1: 4, the bond strength with the metal during peeling increases by 1.5-2 times, due to which the inventive vibration damping unit is easily mounted on the surface due to its own adhesion of the polymer composition, i.e. . It is self-adhesive, does not require heating during installation, easily glues to any surface.

The use of vibration-absorbing materials in the automotive industry contributes to the significant isolation of the vehicle interior from vibration - this is usually the laying of floor panels, the front panel (partitions between the passenger compartment and the engine compartment), doors and roofs.

Claims (2)

1. Vibration-damping block containing one or more foil plates and interlayers of a polymer composition including butyl rubber of the BK 1675N brand or SKEPT-40 ethylene-propylene rubber, industrial oil of the I-20A brand, fillers, characterized in that the polymer composition is additionally contains bitumen of BN 90/10 oil grade or road bitumen of BND 90/130 grade, modified epoxy resin, technical stearic acid and a mixture of diatomite modified with talc in a ratio of 1: 4, and as a Nitel - chalk, zinc white and carbon black, with the following component ratio, wt. %:
Butyl rubber brand BK 1675N or ethylene propylene rubber brand SKEPT-40 10-15 Industrial oil of the I-20A brand 5-10 Bitumen of the oil brand BN 90/10 or bitumen oil road grade BND 90/130 10-15 Technical stearic acid 0.2-0.8 Modified Epoxy 2-5 A mixture of diatomite modified with talc in the ratio 1: 4 1-5 a piece of chalk 35-42 Zinc white 15-25 Carbon black 2-5 2. The vibration damping block according to claim 1, characterized in that the thickness of the foil plates is 0.1-0.3 mm, and the polymer composition having a thickness of 1.0-2.0 mm is protected from the outside by a release coating.

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