High SRI cementitious systems for colored concrete
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
C04B-014/00
C04B-014/30
출원번호
US-0883098
(2010-09-15)
등록번호
US-8157910
(2012-04-17)
발명자
/ 주소
Stratton, Stanley G.
Arnold, Phillip J.
Crawford, James K.
Dhaliwai, Pritam S.
출원인 / 주소
L. M. Scofield Company
대리인 / 주소
Sheldon Mak & Anderson PC
인용정보
피인용 횟수 :
7인용 특허 :
19
초록▼
IR reflective cementitious systems comprising one or more IR reflective pigments are provided. The cementitious systems of the invention may be in the form of mixtures which increase the total solar reflectivity (TSR or albedo) and the Solar Reflectance Index (SRI) of concrete are provided. The ceme
IR reflective cementitious systems comprising one or more IR reflective pigments are provided. The cementitious systems of the invention may be in the form of mixtures which increase the total solar reflectivity (TSR or albedo) and the Solar Reflectance Index (SRI) of concrete are provided. The cementitious systems are infrared reflective and may be toppings mixed with water for application to existing concrete surfaces, or dry-shake hardeners for application to freshly-placed plastic concrete. The formulations of the invention utilize one or more of cementitious binder(s), graded aggregates, super-plasticizers, one or more pigments selected for improving infrared reflectivity and color composition, and/or optionally other additives, such as dry redispersible polymers or fillers to provide decorative and LEED compliant, highly durable (sustainable) concrete hardscapes and other decorative concrete.
대표청구항▼
1. A cementitious system comprising: an infrared reflective pigment composition comprisingi) one or more infrared reflective pigments, wherein at least one of the one or more infrared reflective pigments is a beige to brown infrared reflective pigment having a percent reflectance at 1000 nanometers
1. A cementitious system comprising: an infrared reflective pigment composition comprisingi) one or more infrared reflective pigments, wherein at least one of the one or more infrared reflective pigments is a beige to brown infrared reflective pigment having a percent reflectance at 1000 nanometers of at least 60% as measured in white portland cement mortar, and is selected from the group consisting of, chrome antimony titanium rutiles, chromium iron oxide spinels, chrome niobium rutiles, chrome tungsten titanium rutiles, iron chromite spinels, iron titanium spinels, manganese antimony titanium rutiles, manganese tungsten titanium rutiles, zinc ferrite spinels, and zinc iron chromite spinels; andii) a cementitious matrix comprising cement and aggregates, wherein the cementitious system is colored with pigments compliant with ASTM C979. 2. The cementitious system according to claim 1 wherein at least one of the beige to brown infrared reflective pigments is a beige to brown infrared reflective pigment having a solar Reflectance Index of at least 56% as measured in white portland cement mortar, and computed from the albedo value using the Stefan-Boltzman constant, 5.67 E−8 watts*m−2*K−4 and a normally assigned emittance (ε) value of ε=0.90. 3. The cementitious system according to claim 1 wherein the beige to brown infrared reflective pigment is a manganese antimony titanium rutile. 4. The cementitious system according to claim 1 further comprising one or more red, orange, or yellow infrared reflective pigments. 5. The cementitious system according to claim 1 wherein the cementitious system further comprises anatase. 6. The cementitious system according to claim 1 wherein the beige to brown infrared reflective pigments are combined with one or more pigments selected from the group consisting of black infrared reflective pigments, red infrared pigments, orange to yellow infrared reflective pigments, green infrared reflective pigments, blue infrared reflective pigments, and gray-white infrared reflective pigments in the cementitious system to form an intermediate colored cementitious system. 7. The cementitious system according to claim 1 wherein the cementitious matrix further comprises cementitious materials to form a dry shake color hardener. 8. The cementitious system according to claim 1 wherein the cementitious matrix further comprises cementitious materials to form a topping. 9. The cementitious system according to claim 1 wherein the beige to brown infrared reflective pigment is a chrome antimony titanium rutile. 10. The cementitious system according to claim 1 wherein the beige to brown infrared reflective pigment is a chromium iron oxide spinel. 11. The cementitious system according to claim 1 wherein the beige to brown infrared reflective pigment is a chrome niobium rutile. 12. The cementitious system according to claim 1 wherein the beige to brown infrared reflective pigment is a chrome tungsten titanium rutile. 13. The cementitious system according to claim 1 wherein the beige to brown infrared reflective pigment is an iron chromite spinel. 14. The cementitious system according to claim 1 wherein the beige to brown infrared reflective pigment is an iron titanium spinel. 15. The cementitious system according to claim 1 wherein the beige to brown infrared reflective pigment is a manganese tungsten titanium rutile. 16. The cementitious system according to claim 1 wherein the beige to brown infrared reflective pigment is a zinc ferrite spinel. 17. The cementitious system according to claim 1 wherein the beige to brown infrared reflective pigment is a zinc iron chromite spinel. 18. The cementitious system according to claim 1 wherein the beige to brown infrared reflective pigment is selected from the group consisting of pigment brown 24, pigment brown 29, pigment brown 33, pigment yellow 119, pigment yellow 162, pigment yellow 163, pigment yellow 164, and pigment black 12. 19. A composition for creating a colored cementitious material, comprising: (a) cement; and(b) one or more infrared reflective pigments, wherein at least one of the one or more infrared reflective pigments is a beige to brown infrared reflective pigment having a percent reflectance at 1000 nanometers of at least 60% as measured in white portland cement mortar, and is selected from the group consisting of chrome antimony titanium rutiles, chromium iron oxide spinels, chrome niobium rutiles, chrome tungsten titanium rutiles, iron chromite spinels, iron titanium spinels, manganese antimony titanium rutiles, manganese tungsten titanium rutiles, zinc ferrite spinels, and zinc iron chromite spinels; and(c) cementitious materials comprising admixtures, fillers, pozzolans, and silica fine aggregates. 20. The composition according to claim 19 wherein the colored cementitious material further comprises one or more red, orange, or yellow infrared reflective pigments. 21. A method of preparing a colored concrete comprising: (a) providing a cement and aggregates; and(b) adding one or more infrared reflective pigments to the cement, wherein at least one of the one or more infrared reflective pigments is a beige to brown infrared reflective pigment having a percent reflectance at 1000 nanometers of at least 60% as measured in white portland cement mortar, and is selected from the group consisting of, chrome antimony titanium rutiles, chromium iron oxide spinels, chrome niobium rutiles, chrome tungsten titanium rutiles, iron chromite spinels, iron titanium spinels, manganese antimony titanium rutiles, manganese tungsten titanium rutiles, zinc ferrite spinels, and zinc iron chromite spinels. 22. A method according to claim 21 wherein the one or more infrared reflective pigments further comprises one or more red, orange, or yellow infrared reflective pigments. 23. The method according to claim 21 wherein the one or more infrared reflective pigments are added to the cement in the form of a topping for applying to hardened concrete. 24. The method according to claim 21 wherein the one or more infrared reflective pigments are added to the cement in the form of a dry-shake color hardener for applying to freshly placed concrete.
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이 특허에 인용된 특허 (19)
Robert Michael Sullivan ; Terry James Detrie ; Daniel Russell Swiler, Alkaline earth-manganese oxide pigments.
Supcoe Robert F. (1227 Mt. Pleasant ; Rt. 9 Annapolis MD 21401) Greenberg Melvin (314 Dewey Dr. Annapolis MD 21401), Formulation for producing low infrared coating in the 2-15 micron range.
Modly Zoltan M. (Shaker Heights OH), Pigment consisting of a mixture of chromium oxide and iron oxide useful in high infra red reflectance gray vinyl composi.
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