CN101093668A - Energy conversion material of sound absorption - Google Patents
Energy conversion material of sound absorption Download PDFInfo
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- CN101093668A CN101093668A CN 200710035098 CN200710035098A CN101093668A CN 101093668 A CN101093668 A CN 101093668A CN 200710035098 CN200710035098 CN 200710035098 CN 200710035098 A CN200710035098 A CN 200710035098A CN 101093668 A CN101093668 A CN 101093668A
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- butyl rubber
- aluminum fiber
- rubber plate
- fiber felt
- energy conversion
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Abstract
A material enabling to absorb sound and converting absorbed sound to be energy is prepared for using glue to directly stick butyl rubber plate with aluminium-fiber felt or laying unvulcanized butyl rubber plate and alminium-fiber felt in mould to stick said butyl rubber plate with aluminium-fiber felt after process flows of hot-pressing formation and rubber vulvanization as well as demoulding.
Description
Technical field
The present invention relates to a kind of novel energy conversion material of sound absorption, especially a kind of novel energy conversion material of sound absorption by rubber and metallic aluminium fiber compound structure.
Background technology
Along with the development of modern industry and communications and transportation cause and the enhancing of environmental consciousness, people are also more and more higher to the requirement of acoustic environment, and the noise pollution problem has become assistant officer ground to be solved global problem.
Usually said acoustic absorbant refers to porous sound-absorbing material more, mainly comprise fibrous material and foamed material, mainly be divided into by the physical characteristics and the outward appearance of its selection: organic fiber acoustic absorbant, inorganic fibre acoustic absorbant, metal fibre acoustic absorbant, foamed sound-absorbing material, foam metal energy conversion material of sound absorption.
Early stage organic fiber acoustic absorbant has good sound absorbing capabilities in middle and high frequency scope, but poor-performings such as fire prevention, anticorrosion, protection against the tide; Inorganic fibers mainly refers to manmade inorganic fibre materials such as rock wool, glass wool and aluminosilicate fiber cotton, and its property is crisp easily broken, and the back sound absorbing capabilities that makes moist descends seriously, easily environment is produced deficiencies such as harm, and the scope of application is very restricted; The metal fibre acoustic absorbant has advantages such as intensity height, high temperature resistant and water-tolerant, be specially adapted to sound absorptions such as sqouynd absorption lowering noise such as outdoor elevated railway road barrier, cooling tower, source pump, unit acoustic hood and indoor swimming pool, gymnasium and decorate, modal have: aluminum fiber acoustic board and variable cross section metallic fiber material.
The research of foamed sound-absorbing material has related to metal material, macromolecular material, inorganic material and organic/inorganic composite material, practical application at present mainly be polyurethane and polystyrene foam, low-frequency range (<500Hz) sound absorbing capabilities is relatively poor is the problem that this class material exists.
Summary of the invention
The object of the present invention is to provide a kind of energy conversion material of sound absorption, can be better provide service for the noise elimination sound absorption in some special noise places.
Technical scheme of the present invention is: a kind of energy conversion material of sound absorption, this novel acoustic absorbant comprises the aluminum fiber felt, the butyl rubber plate.The both sides of aluminum fiber felt are bonded with the butyl rubber plate.Butyl rubber through over-mastication, mixing, the sulfuration after make; The aluminum fiber diameter is 1 μ m~1000 μ m, length 1mm~100m; Aluminium accounts for more than 96% by mass ratio in the fiber.
The composition of energy conversion material of sound absorption: the two sides is the thick butyl rubber plate of 0.5~10mm, and the centre is the aluminum fiber felt of 0.5~5mm.The multiple-void structure that the aluminum fiber felt is made up of aluminum fiber, its porosity are 10%~90%.Rubber slab had both comprised solid slab, also comprised the low-density plank that contains hole (perforate, closed pore).
The preparation method of this energy conversion material of sound absorption: butyl rubber plate and aluminum fiber felt are directly bonded together.
Another preparation method of this energy conversion material of sound absorption: unvulcanized butyl rubber plate and aluminum fiber felt are completed in mould, hot-forming, the vulcanization of rubber, butyl rubber plate and aluminum fiber felt tight bond are together after the demoulding.
The invention has the advantages that: acoustic frequency bandwidth, especially low-frequency range; The acoustical absorption coefficient height; Material source is wide, and production cost is low; Range of application is wide, manufactures easily, is particularly useful in the water communications and transportation.
Embodiment
Embodiment 1:
Selecting thick pure butyl rubber plate of 1mm and diameter for use is the porosity 50% of 1 μ m aluminum fiber composition, the fibrofelt of 1mm thickness.Adopt epoxy adhesive that two blocks of butyl rubber plates and 1 aluminum fiber felt are bonded together, the aluminum fiber felt is in the centre.
Adopt standing-wave-tube method to test the acoustical absorption coefficient of this acoustic absorbant.This material has the acoustical absorption coefficient more than 0.3 in noise frequency 3~4.5KHz and 1~2.5KHz scope.
Embodiment 2:
Selecting thick pure butyl rubber plate of 1mm and diameter for use is the porosity 30% of 10 μ m aluminum fibers composition, the fibrofelt of 1mm thickness.Adopt epoxy adhesive that two blocks of butyl rubber plates and 1 aluminum fiber felt are bonded together, the aluminum fiber felt is in the centre.
Adopt standing-wave-tube method to test the acoustical absorption coefficient of this acoustic absorbant.This material has the acoustical absorption coefficient more than 0.3 in noise frequency 3~4.5KHz and 1~2.5KHz scope.
Embodiment 3:
Selecting thick pure butyl rubber plate of 1mm and diameter for use is the porosity 50% of 50 μ m aluminum fibers composition, the fibrofelt of 3mm thickness.Adopt epoxy adhesive that two blocks of butyl rubber plates and 1 aluminum fiber felt are bonded together, the aluminum fiber felt is in the centre.
Adopt standing-wave-tube method to test the acoustical absorption coefficient of this acoustic absorbant.This material has the acoustical absorption coefficient more than 0.3 in noise frequency 3~4.5KHz and 1~2.5KHz scope.
Embodiment 4:
Selecting thick pure butyl rubber plate of 1mm and diameter for use is the porosity 50% of 1 μ m aluminum fiber composition, the fibrofelt of 1mm thickness.Have 30% hole, perforate in the butyl rubber plate; Adopt epoxy adhesive that two blocks of butyl rubber plates and 1 aluminum fiber felt are bonded together, the aluminum fiber felt is in the centre.
Adopt standing-wave-tube method to test the acoustical absorption coefficient of this acoustic absorbant.This material has the acoustical absorption coefficient more than 0.4 in noise frequency 3~4.5KHz and 1~2.5KHz scope.
Embodiment 5:
Selecting thick butyl rubber plate of 1mm and diameter for use is the porosity 50% of 1 μ m aluminum fiber composition, the fibrofelt of 1mm thickness.Have 50% hole, perforate in the butyl rubber plate; Adopt epoxy adhesive that two blocks of butyl rubber plates and 1 aluminum fiber felt are bonded together, the aluminum fiber felt is in the centre.
Adopt standing-wave-tube method to test the acoustical absorption coefficient of this acoustic absorbant.This material has the acoustical absorption coefficient more than 0.4 in noise frequency 3~4.5KHz and 1~2.5KHz scope.
Embodiment 6:
Selecting thick butyl rubber plate of 1mm and diameter for use is the porosity 50% of 1 μ m aluminum fiber composition, the fibrofelt of 1mm thickness.Have 30% hole, closed pore in the butyl rubber plate; Adopt epoxy adhesive that two blocks of butyl rubber plates and 1 aluminum fiber felt are bonded together, the aluminum fiber felt is in the centre.
Adopt standing-wave-tube method to test the acoustical absorption coefficient of this acoustic absorbant.This material has the acoustical absorption coefficient more than 0.35 in noise frequency 3~4.5KHz and 1~2.5KHz scope.
Embodiment 7:
Selecting thick butyl rubber plate of 1mm and diameter for use is the porosity 50% of 1 μ m aluminum fiber composition, the fibrofelt of 1mm thickness.Have 50% hole, closed pore in the butyl rubber plate; Adopt epoxy adhesive that two blocks of butyl rubber plates and 1 aluminum fiber felt are bonded together, the aluminum fiber felt is in the centre.
Adopt standing-wave-tube method to test the acoustical absorption coefficient of this acoustic absorbant.This material has the acoustical absorption coefficient more than 0.45 in noise frequency 3~4.5KHz and 1~2.5KHz scope.
Embodiment 8:
Selecting thick unvulcanized butyl rubber plate of 1mm and diameter for use is the porosity 50% of 1 μ m aluminum fiber composition, the fibrofelt of 1mm thickness.Unvulcanized butyl rubber plate and aluminum fiber felt are completed according to the order of butyl rubber plate/aluminum fiber felt/butyl rubber plate in mould, pressurization 5MPa, pressurize 1min heats 150 ℃, insulation 30min, the demoulding behind the natural cooling.
Adopt standing-wave-tube method to test the acoustical absorption coefficient of this acoustic absorbant.This material has the acoustical absorption coefficient more than 0.35 in noise frequency 3~4.5KHz and 1~2.5KHz scope.
Embodiment 9:
Selecting thick unvulcanized butyl rubber plate of 1mm and diameter for use is the porosity 30% of 10 μ m aluminum fibers composition, the fibrofelt of 2mm thickness.Unvulcanized butyl rubber plate and aluminum fiber felt are completed according to the order of butyl rubber plate/aluminum fiber felt/butyl rubber plate in mould, pressurization 5MPa, pressurize 1min heats 150 ℃, insulation 30min, the demoulding behind the natural cooling.
Adopt standing-wave-tube method to test the acoustical absorption coefficient of this acoustic absorbant.This material has the acoustical absorption coefficient more than 0.35 in noise frequency 3~4.5KHz and 1~2.5KHz scope.
Embodiment 10:
Selecting thick unvulcanized butyl rubber plate of 1mm and diameter for use is the porosity 30% of 100 μ m aluminum fibers composition, the fibrofelt of 1mm thickness.Unvulcanized butyl rubber plate and aluminum fiber felt are completed according to the order of butyl rubber plate/aluminum fiber felt/butyl rubber plate in mould, pressurization 5MPa, pressurize 1min heats 150 ℃, insulation 30min, the demoulding behind the natural cooling.
Adopt standing-wave-tube method to test the acoustical absorption coefficient of this acoustic absorbant.This material has the acoustical absorption coefficient more than 0.3 in noise frequency 3~4.5KHz and 1~2.5KHz scope.
Embodiment 11:
Select the multiple layer combination or the multiple combination of the foregoing description for use.
Claims (5)
1, a kind of energy conversion material of sound absorption is characterized in that: this novel energy conversion material of sound absorption comprises aluminum fiber felt, butyl rubber plate, and the both sides of aluminum fiber felt are bonded with the butyl rubber plate.
2, energy conversion material of sound absorption according to claim 1 is characterized in that: butyl rubber through over-mastication, mixing, the sulfuration after make rubber sheet; Aluminum fiber: diameter is 1 μ m~1000 μ m, length 1mm~100m; Aluminium accounts for more than 96% by mass ratio in the fiber; The composition of acoustic absorbant: the two sides is the thick butyl rubber plate of 0.5~10mm, and the centre is the aluminum fiber felt of 0.5~5mm, the multiple-void structure that the aluminum fiber felt is made up of aluminum fiber, and its porosity is 10%~90%.
3, energy conversion material of sound absorption according to claim 2 is characterized in that: this rubber slab had both comprised solid slab, also comprised the low-density plank that contains hole.
4, acoustic absorbant according to claim 1 is characterized in that, the preparation method of this acoustic absorbant: butyl rubber plate and aluminum fiber felt are directly bonded together.
5, energy conversion material of sound absorption according to claim 1, it is characterized in that another preparation method of this energy conversion material of sound absorption: with unvulcanized butyl rubber plate and aluminum fiber felt in mould, complete, butyl rubber plate and aluminum fiber felt tight bond be together after hot-forming, the vulcanization of rubber, the demoulding.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CNB2007100350984A CN100545906C (en) | 2007-06-09 | 2007-06-09 | Energy conversion material of sound absorption |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CNB2007100350984A CN100545906C (en) | 2007-06-09 | 2007-06-09 | Energy conversion material of sound absorption |
Publications (2)
| Publication Number | Publication Date |
|---|---|
| CN101093668A true CN101093668A (en) | 2007-12-26 |
| CN100545906C CN100545906C (en) | 2009-09-30 |
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| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CNB2007100350984A Active CN100545906C (en) | 2007-06-09 | 2007-06-09 | Energy conversion material of sound absorption |
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Cited By (4)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN102618968A (en) * | 2011-12-30 | 2012-08-01 | 洛阳理工学院 | Aluminum fiber covered by ceramic membrane structure and preparation method thereof |
| CN103325368A (en) * | 2013-06-28 | 2013-09-25 | 上海声望声学工程有限公司 | Sound absorption protective panel and manufacturing method thereof |
| CN103625082A (en) * | 2013-12-05 | 2014-03-12 | 安徽菲茵特电梯有限公司 | Elevator car buffer made of foamed aluminium and manufacturing method thereof |
| CN106716521A (en) * | 2014-09-30 | 2017-05-24 | 米其林集团总公司 | Heat pump device, air-conditioner equipped with same, heat pump water heater, refrigerator, and refrigerating machine |
-
2007
- 2007-06-09 CN CNB2007100350984A patent/CN100545906C/en active Active
Cited By (6)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN102618968A (en) * | 2011-12-30 | 2012-08-01 | 洛阳理工学院 | Aluminum fiber covered by ceramic membrane structure and preparation method thereof |
| CN102618968B (en) * | 2011-12-30 | 2014-07-02 | 洛阳理工学院 | Aluminum fiber covered by ceramic membrane structure and preparation method thereof |
| CN103325368A (en) * | 2013-06-28 | 2013-09-25 | 上海声望声学工程有限公司 | Sound absorption protective panel and manufacturing method thereof |
| CN103625082A (en) * | 2013-12-05 | 2014-03-12 | 安徽菲茵特电梯有限公司 | Elevator car buffer made of foamed aluminium and manufacturing method thereof |
| CN103625082B (en) * | 2013-12-05 | 2015-06-24 | 安徽菲茵特电梯有限公司 | Elevator car buffer made of foamed aluminium and manufacturing method thereof |
| CN106716521A (en) * | 2014-09-30 | 2017-05-24 | 米其林集团总公司 | Heat pump device, air-conditioner equipped with same, heat pump water heater, refrigerator, and refrigerating machine |
Also Published As
| Publication number | Publication date |
|---|---|
| CN100545906C (en) | 2009-09-30 |
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Effective date of registration: 20200828 Address after: No.33, Yueyuan street, Yanqi Economic Development Zone, Huairou District, Beijing Patentee after: Du Qianghua micro (Beijing) hi tech Mstar Technology Ltd. Address before: Six, building 277, block A, Weihai International Commercial Affairs Building,, 330006, Jiangxi, Nanchang, Nanjing West Road Patentee before: Peng Shucheng |