IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0970389
(2001-10-02)
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등록번호 |
US-8133352
(2012-03-13)
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발명자
/ 주소 |
- Merkley, Donald J.
- Luo, Caidian
|
출원인 / 주소 |
- James Hardie Technology Limited
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대리인 / 주소 |
Gardere Wynne Sewell, LLP
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인용정보 |
피인용 횟수 :
3 인용 특허 :
110 |
초록
▼
A method of manufacturing high purity fiber cement grades of cellulose fibers is described. Additional washing steps, coupled with an elevated temperature, are used in the process to extensively wash the pulps and remove substantially all COD components remaining in the pulps. The pulps are counter-
A method of manufacturing high purity fiber cement grades of cellulose fibers is described. Additional washing steps, coupled with an elevated temperature, are used in the process to extensively wash the pulps and remove substantially all COD components remaining in the pulps. The pulps are counter-currently washed by diffusion and dewatering at elevated temperatures following the brown stock washer systems. During the additional washing steps, the pulps are soaked in counter-current heated water for a pre-determined time and some chemicals may be introduced to chemically break down the COD components in the pulps and to make them more soluble in the aqueous solution. The additional washing steps can be performed using existing equipment at conventional pulp mills. A formulation and a process of making fiber reinforced cement composite materials are also described using the low COD and high purity cellulose fibers. The pulps with lower COD contents have superior performance in manufacture of fiber reinforced cement composite materials. A smaller amount of the low COD and high purity fibers is needed to achieve the same reinforcement efficiency, compared to regular cellulose fibers.
대표청구항
▼
1. A method of making a fiber cement composite building material incorporating cellulose fibers, the method comprising: washing the cellulose fibers at an elevated temperature washing process between about 65 degrees Centigrade to about 120 degrees Centigrade to reduce COD content of the cellulose f
1. A method of making a fiber cement composite building material incorporating cellulose fibers, the method comprising: washing the cellulose fibers at an elevated temperature washing process between about 65 degrees Centigrade to about 120 degrees Centigrade to reduce COD content of the cellulose fibers to less than 4.5 kg/ton, wherein the COD content of the cellulose fibers alone is measurable from a filtrate after a portion of the cellulose fibers alone are dispersed in a solution in the absence of cement and measured prior to being combined to form the fiber cement composite building material; andincorporating the reduced COD cellulose fibers into a cementitious mixture for making the fiber cement composite building material,wherein the reduced COD cellulose fibers comprise about 2% to 20% by weight of the fiber cement composite building material, and wherein the reduced COD cellulose fibers increase strength reinforcement to the fiber cement composite building material when formed by increasing the modulus of rupture (MOR) of the fiber cement composite building material by more than about 10% as-compared with a fiber cement composite building material made with a same formulation containing cellulose fibers with COD content greater than 5 kg/ton of oven dried pulp measurable from a filtrate. 2. The method of claim 1, wherein the cellulose fibers are cellulose fibers made from delignified cellulose pulps of lignocellulosic materials by a pulping process. 3. The method of claim 1, wherein the fiber cement composite building material further comprises an aggregate. 4. The method of claim 3, wherein the aggregate is ground silica. 5. The method of claim 3, wherein the aggregate is selected from the group consisting of ground silica, amorphous silica, micro silica, diatomaceous earth, coal combustion fly and bottom ashes, rice hull ash, blast furnace slag, granulated slag, steel slag, mineral oxides, mineral hydroxides, clays, magnasite or dolomite, metal oxides and hydroxides, and polymeric beads, and mixtures thereof. 6. The method of claim 1, wherein the fiber cement composite building material further comprises one or more density modifiers. 7. The method of claim 6, wherein the density modifier is selected from the group consisting of plastic materials, expanded polystyrene, glass and ceramic materials, calcium silicate hydrates, microspheres and volcano ashes including perlite, pumice, shirasu basalt, and zeolites in expanded forms, and mixtures thereof. 8. The method of claim 1, wherein the fiber cement composite building material further comprises one or more additives. 9. The method of claim 1, wherein the fiber cement composite building material comprises a cementitious binder selected from the group consisting of Portland cement, high alumina cement, lime, high phosphate cement, and ground granulated blast furnace slag cement, and mixtures thereof. 10. The method of claim 1, further comprising incorporating additional fibers selected from the group consisting of natural inorganic fibers, synthetic polymer fibers, regular cellulose fibers and mixtures thereof. 11. The method of claim 1, further comprising fibrillating the cellulose fibers with reduced COD to a freeness of about 150 to 750 degrees of Canadian Standard Freeness. 12. The method of claim 1, further comprising including about 10%-80% cement by weight in the cementitious mixture. 13. The method of claim 1, further comprising including about 20%-80% silica by weight in the cementitious mixture. 14. The method of claim 1, further comprising including about 0%-50% lightweight density modifiers by weight in the cementitious mixture. 15. The method of claim 1, further comprising including about 0%-10% additives by weight in the cementitious mixture. 16. The method of claim 1, wherein the cellulose fibers with reduced COD improve the modulus of rupture of the fiber cement composite building material by more than about 20%, compared to a fiber cement composite building material made with an equivalent formulation containing cellulose fibers with COD content greater than 5 kg/ton of oven dried pulp measurable from a filtrate. 17. The method of claim 1, wherein the cellulose fibers with reduced COD improve modulus of elasticity (MOE) of the fiber cement composite building material by more than about 10%, compared to a fiber cement composite building material made with an equivalent formulation containing cellulose fibers with COD content greater than 5 kg/ton of oven dried pulp measurable from a filtrate. 18. The method of claim 1, wherein the cellulose fibers with reduced COD improve ultimate strain of the fiber cement composite building material by more than about 20%, compared to a fiber cement composite building material made with an equivalent formulation containing cellulose fibers with COD content greater than 5 kg/ton of oven dried pulp measurable from a filtrate. 19. The method of claim 1, wherein the cellulose fibers with reduced COD reduce amount of COD released to process water by more than about 10% in the manufacture of the fiber cement composite building material, compared to a fiber cement composite building material made with an equivalent formulation containing cellulose fibers with COD content greater than 5 kg/ton of oven dried pulp measurable from a filtrate. 20. The method of claim 1, wherein the cellulose fibers with reduced COD improve toughness of the fiber cement composite building material by more than about 10%, compared to a fiber cement composite building material made with an equivalent formulation containing a cellulose fibers with COD content greater than 5 kg/ton of oven dried pulp measurable from a filtrate. 21. A method of making a fiber reinforced composite building material comprising: preparing delignified cellulose fibers to have a COD content of less than about 4.5 kg/ton of oven dried pulp by pretreating through an elevated temperature washing process that includes chemicals which react with COD compounds causing the COD compounds to be more soluble and to reduce COD content of the cellulose fibers to less than 4.5 kg/ton using an elevated temperature between about 65 degrees Centigrade to about 120 degrees Centigrade, wherein COD content is measurable from a filtrate obtained from prepared cellulose fibers alone in a solution in the absence of cement and prior to forming the fiber reinforced composite building material;incorporating the prepared and delignified cellulose fibers with a cementitious mixture;forming the fiber cement mixture into a fiber cement article using a process selected from the group consisting of Hatschek, Mazza pipe, Magnani, injection molding, extrusion, hand lay-up, multi-wire forming, gap blade forming and bel-roll forming, the fiber cement article of a pre-selected shape and size; andcuring the fiber cement article so as to form the fiber reinforced composite building material, wherein preparing the delignified cellulose fibers increases strength reinforcement to the fiber reinforced composite building material when formed by increasing the ultimate strain by more than about 10% as-compared with a fiber reinforced composite building material made with a same formulation containing cellulose fibers with COD content greater than 5 kg/ton of oven dried pulp measurable from a filtrate. 22. The method of claim 21, further comprising adding additional fibers into the formulation wherein the additional fibers are selected from the group consisting of natural inorganic fibers, synthetic polymer fibers, regular cellulose fibers and mixtures thereof. 23. The method of claim 21, wherein the fiber cement mixture includes one or more additives. 24. The method of claim 21, wherein the COD content of the cellulose fibers is measurable from a filtrate prior to being combined in the formulation. 25. The method of claim 21, wherein the reduced COD fibers are fibrillated to a freeness of about 150 to 750 degrees of Canadian Standard Freeness before being combined in the formulation. 26. The method of claim 21, wherein the cellulose fibers are from a softwood. 27. A fiber cement composite building material comprising a cementitious matrix andpretreated and delignified cellulose fibers with a reduced COD content,wherein the delignified cellulose fibers are pretreated before incorporating into the cementitious matrix using an elevated temperature washing process to reduce COD content of the delignified cellulose fibers to less than 4.5 kg/ton of oven dried pulp and the elevated temperature is between about 65 degrees Centigrade to about 120 degrees Centigrade,wherein COD content of the pretreated and delignified cellulose fibers is measurable from a filtrate prior to being incorporated into the cementitious matrix, and the filtrate is obtainable from dispensing the pretreated and delignified cellulose fibers into a solution without cement, andwherein the cellulose fibers with reduced COD improve one or more of the modulus of rupture (MOR) of the fiber cement composite building material by more than about 10% or the ultimate strain of the fiber cement composite building material by more than about 10% as compared with a fiber cement composite building material made with a same formulation containing cellulose fibers with a COD content greater than 5 kg/ton of oven dried pulp measurable from a filtrate. 28. The fiber cement composite building material of claim 27, wherein the cellulose fibers are from a softwood. 29. The fiber cement composite building material of claim 27, wherein the cementitious matrix includes one or more density modifiers. 30. The fiber cement composite building material of claim 27, wherein the cementitious matrix includes one or more additives. 31. The fiber cement composite building material of claim 27, wherein COD content of the cellulose fibers is less than about 3.5 kg/ton. 32. The fiber cement composite building material of claim 27, wherein the delignified cellulose fibers are up to about 8% by weight. 33. The fiber cement composite building material of claim 27, wherein the cementitious matrix includes Portland cement up to about 35 wt. %. 34. The fiber cement composite building material of claim 27, wherein the cementitious matrix includes a silica aggregate of up to about 57 wt. %.
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