IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0550100
(2009-08-28)
|
등록번호 |
US-8211373
(2012-07-03)
|
발명자
/ 주소 |
- Olson, James R.
- Ten Eyck, John D.
- Gadzo, Patrick J.
|
출원인 / 주소 |
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
2 인용 특허 :
103 |
초록
▼
A mounting mat for an exhaust gas treatment device includes first and second major opposite facing surfaces, leading and trailing edges, and opposite lateral edges. At least a portion of one or both of the opposite lateral edges includes an edge protectant that protects the mounting mat against eros
A mounting mat for an exhaust gas treatment device includes first and second major opposite facing surfaces, leading and trailing edges, and opposite lateral edges. At least a portion of one or both of the opposite lateral edges includes an edge protectant that protects the mounting mat against erosion from hot gases encountered during the normal operation of the exhaust gas treatment device. The edge protectant remains flexible after it has been applied to the mounting mat and substantially dried. Also disclosed is an exhaust gas treatment device that includes a housing and a fragile structure mounted within the housing by the mounting mat having the edge protectant deposited thereon. Additionally disclosed are methods of making the mounting mat and an exhaust gas treatment device.
대표청구항
▼
1. A mounting mat for an exhaust gas treatment device comprising a mat of inorganic fibers comprising first and second major opposite facing surfaces, leading and trailing edges, and opposite lateral edges, wherein at least a portion of at least one of said opposite lateral edges includes a substant
1. A mounting mat for an exhaust gas treatment device comprising a mat of inorganic fibers comprising first and second major opposite facing surfaces, leading and trailing edges, and opposite lateral edges, wherein at least a portion of at least one of said opposite lateral edges includes a substantially dry flexible edge protectant comprising: (i) a polymer and a gas erosion resisting agent adsorbed thereon; or (ii) an elastomer that thermally decomposes leaving a gas erosion resisting agent adsorbed thereon. 2. The mounting mat of claim 1, wherein said mat comprises at least one of organic binder and inorganic binder. 3. The mounting mat of claim 2, wherein said organic binder comprises an acrylic latex. 4. The mounting mat of claim 2, wherein said inorganic binder comprises colloidal silica, colloidal alumina, colloidal zirconia and mixtures thereof. 5. The mounting mat of claim 2, wherein the mounting mat further comprises a clay. 6. The mounting mat of claim 5 wherein said clay is selected from the group consisting of attapulgite, ball clay, bentonite, hectorite, kyanite, kaolinite, montmorillonite, palygorskite, saponite, sepiolite, silimanite and combinations thereof. 7. The mounting mat of claim 1, wherein said inorganic fibers are selected from the group consisting of high alumina polycrystalline fibers, refractory ceramic fibers, glass fibers, biosoluble fibers, quartz fibers, silica fibers, and combinations thereof. 8. The mounting mat of claim 7, wherein said ceramic fibers comprise alumino-silicate fibers comprising the fiberization product of about 45 to about 75 weight percent alumina and about 25 to about 55 weight percent silica. 9. The mounting mat of claim 7, wherein said biosoluble fibers comprise the fiberization product of about 65 to about 86 weight percent silica and from about 14 to about 35 weight percent magnesia. 10. The mounting of claim 9, wherein the biosoluble fibers comprise the fiberization product of about 70 to about 86 weight percent silica, about 14 to about 30 weight percent magnesia and about 5 weight percent or less impurities. 11. The mounting mat of claim 10, wherein the biosoluble fibers comprise the fiberization product of about 70 to about 80 weight percent silica, about 18 to about 27 weight percent magnesia and 0 to 4 weight percent impurities. 12. The mounting mat of claim 7, wherein the biosoluble fibers comprise the fiberization product of about 45 to about 90 weight percent silica, greater than 0 to about 45 weight percent calcia, and greater than 0 to about 35 weight percent magnesia. 13. The mounting mat of claim 12, wherein the biosoluble fibers comprise the fiberization product of about 60 to about 70 weight percent silica, from about 16 to about 35 weight percent calcia, and from about 4 to about 19 weight percent magnesia. 14. The mounting mat of claim 13, wherein the biosoluble fibers comprise the fiberization product of about 61 to about 67 weight percent silica, from about 27 to about 33 weight percent calcia, and from about 2 to about 7 weight percent magnesia. 15. The mounting mat of claim 1, wherein said flexible edge protectant comprises a water based silicone emulsion. 16. The mounting mat of claim 15, wherein said gas erosion resisting agent comprises an inorganic particulate. 17. The mounting mat of claim 16, wherein said inorganic particulate comprises alumina, silica, zirconia, and mixtures thereof. 18. The mounting mat of claim 17, wherein said inorganic particulate comprises amorphous silica. 19. The mounting mat of claim 18, wherein the particle size of the inorganic particulate is from about 5 to about 100 nanometers. 20. The mounting mat of claim 15, wherein said edge protectant further comprises a surfactant. 21. The mounting mat of claim 1, further comprising an intumescent material. 22. The mounting mat of claim 21, wherein said intumescent material is selected from the group consisting of unexpanded vermiculite, ion exchanged vermiculite, heat treated vermiculite, expandable graphite, hydrobiotite, water-swelling tetrasilicic fluorine mica, alkaline metal silicates, or mixtures thereof. 23. The mounting mat of claim 22, wherein said intumescent material comprises unexpanded vermiculite. 24. An exhaust gas treatment device comprising: a housing;a mat of inorganic fibers comprising first and second major opposite facing surfaces, leading and trailing edges, and opposite lateral edges, wherein at least a portion of at least one of said opposite lateral edges includes a substantially dry flexible edge protectant comprising: (i) a polymer and a gas erosion resisting agent adsorbed thereon; or (ii) an elastomer that thermally decomposes leaving a gas erosion resisting agent adsorbed thereon; anda fragile catalyst support structure resiliently mounted within said housing by said mounting mat. 25. The exhaust gas treatment device of claim 24, wherein said housing has an inlet at one end and an outlet at an opposite end through which exhaust gases flow; and wherein said catalyst support structure has an outer surface, an inlet end surface at one end in communication with said inlet of said housing and an outlet end surface at an opposite end in communication with said outlet end of said housing. 26. The exhaust gas treatment device of claim 24, wherein said mat comprises at least one of organic binder and inorganic binder. 27. The exhaust gas treatment device of claim 26, wherein said organic binder comprises an acrylic latex. 28. The exhaust gas treatment device of claim 26, wherein said inorganic binder comprises colloidal silica. 29. The exhaust gas treatment device of claim 26, wherein the mounting mat further comprises a clay. 30. The exhaust gas treatment device of claim 29, wherein said clay is selected from the group consisting of attapulgite, ball clay, bentonite, hectorite, kyanite, kaolinite, montmorillonite, palygorskite, saponite, sepiolite, silimanite or combinations thereof. 31. The exhaust gas treatment device of claim 24, wherein said inorganic fibers are selected from the group consisting of high alumina polycrystalline fibers, refractory ceramic fibers, glass fibers, biosoluble fibers, quartz fibers, silica fibers, and combinations thereof. 32. The exhaust gas treatment device of claim 31, wherein said ceramic fibers comprise alumino-silicate fibers comprising the fiberization product of about 45 to about 75 weight percent alumina and about 25 to about 55 weight percent silica. 33. The exhaust gas treatment device of claim 31, wherein said biosoluble fibers comprise the fiberization product of about 65 to about 86 weight percent silica and from about 14 to about 35 weight percent magnesia. 34. The exhaust gas treatment device of claim 33, wherein the biosoluble fibers comprise the fiberization product of about 70 to about 86 weight percent silica, about 14 to about 30 weight percent magnesia and about 5 weight percent or less impurities. 35. The exhaust gas treatment device of claim 34, wherein the biosoluble fibers comprise the fiberization product of about 70 to about 80 weight percent silica, about 18 to about 27 weight percent magnesia and 0 to 4 weight percent impurities. 36. The exhaust gas treatment device of claim 31, wherein the biosoluble fibers comprise the fiberization product of about 45 to about 90 weight percent silica, greater than 0 to about 45 weight percent calcia, and greater than 0 to about 35 weight percent magnesia. 37. The exhaust gas treatment device of claim 36, wherein the biosoluble fibers comprise the fiberization product of about 60 to about 70 weight percent silica, from about 16 to about 35 weight percent calcia, and from about 4 to about 19 weight percent magnesia. 38. The exhaust gas treatment device of claim 37, wherein the biosoluble fibers comprise the fiberization product of about 61 to about 67 weight percent silica, from about 27 to about 33 weight percent calcia, and from about 2 to about 7 weight percent magnesia. 39. The exhaust gas treatment device of claim 24, wherein said flexible edge protectant comprises a water based silicone emulsion. 40. The exhaust gas treatment device of claim 39, wherein said gas erosion resisting agent comprises an inorganic particulate. 41. The exhaust gas treatment device of claim 40, wherein said inorganic particulate comprises alumina, silica, zirconia and mixtures thereof. 42. The exhaust gas treatment device of claim 41, wherein said inorganic particulate comprises amorphous silica. 43. The exhaust gas treatment device of claim 41, wherein the particle size of the inorganic particulate is from about 5 to about 100 nanometers. 44. The exhaust gas treatment device of claim 39, wherein said edge protectant further comprises a surfactant. 45. The exhaust gas treatment device of claim 24, wherein said mounting mat further comprises an intumescent material. 46. The exhaust gas treatment device of claim 45, wherein said intumescent material is selected from the group consisting of unexpanded vermiculite, ion exchanged vermiculite, heat treated vermiculite, expandable graphite, hydrobiotite, water-swelling tetrasilicic fluorine mica, alkaline metal silicates, or mixtures thereof. 47. The exhaust gas treatment device of claim 46, wherein said intumescent material comprises unexpanded vermiculite. 48. The exhaust gas treatment device of claim 24, wherein the device is a catalytic converter, diesel particulate trap, or a NOx trap. 49. A method of making a mounting mat for an exhaust gas treatment device comprising: applying a liquid flexible edge protectant to a least a portion of at least one edge of mounting mat comprising inorganic fibers, wherein the liquid flexible edge protectant adsorbs onto the at least a portion of the at least one edge of the mounting mat, wherein the liquid flexible edge protectant comprises: (i) a polymer and a gas erosion resisting agent; or (ii) an elastomer that thermally decomposes leaving a gas erosion resisting agent; andremoving at least a portion of said liquid from said edge protectant. 50. The method of claim 49 wherein said removing said liquid comprises substantially drying at ambient temperature. 51. The method of claim 50, wherein said removing of said liquid comprises substantially drying by heating said mounting mat. 52. The method of claim 51, wherein said heating comprising heating said mat in a convection oven at a temperature from about 100 to about 200 degrees Celsius. 53. The method of claim 52, wherein selective heating is used to control the areas of deposition of said edge protectant on said mounting mat. 54. The method of claim 49, wherein after said removing of said liquid the moisture content of the edge protectant is about 10 percent of the original moisture content of the edge protectant. 55. The method of claim 54, wherein after said removing of said liquid the moisture content of the edge protectant is about 5 percent of the original moisture content of the edge protectant. 56. The method of claim 55, wherein after said removing of said liquid the moisture content of the edge protectant is about 2 percent of the original moisture content of the edge protectant. 57. A method of making an exhaust gas treatment device comprising: wrapping at least a portion of a fragile catalyst structure adapted to treat exhaust gases with the mounting mat of any one of claim 1; anddisposing the wrapped fragile structure within a housing.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.