Method to reduce the rate of diffusion of slow-release materials through polymers and process for making drip irrigation devices with long-term control of root growth
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
A01N-025/08
A01N-033/18
출원번호
US-0284862
(2002-10-31)
발명자
/ 주소
Ruskin, Rodney
대리인 / 주소
Christie, Parker & Hale, LLP
인용정보
피인용 횟수 :
17인용 특허 :
16
초록▼
A method for reducing the rate of diffusion of a slow-release material through a host polymer material to increase the useful life of a slow-release product. An inert fine particulate inorganic material such as an intercalation material having a layered structure is incorporated into a mixture of th
A method for reducing the rate of diffusion of a slow-release material through a host polymer material to increase the useful life of a slow-release product. An inert fine particulate inorganic material such as an intercalation material having a layered structure is incorporated into a mixture of the slow-release material and the host polymer. The intercalation material has its layers intercalated with molecules of the slow-release material which are accommodated within spaces between the layers of the intercalation material. The particulate material slows the diffusion rate of the slow-release material through the host polymer when compared with the diffusion rate of the same slow-release material through the same host polymer not containing the particulate material. In one embodiment, the intercalation material comprises a nano-clay, the host polymer is a polyolefin, and the slow-release material is a bioactive material such as dinitroanaline. The slow-release product can comprise a drip irrigation emitter device or tube or tape or device used adjacent to an emitter to protect against root intrusion. The intercalation material can comprise a layered nano-clay produced by contacting the clay with a surface modifier to achieve sorption and complexing of the surface modifier between adjacent spaced layers of the clay material, sufficient to expand the spacing between adjacent platelets. This is followed by exfoliating the surface-treated material to separate the platelets, followed by mixing the exfoliated platelets with the polymeric material to form a polymeric matrix from which drip irrigation products can be made.
대표청구항▼
1. A slow-release product comprising a thermoplastic polymeric carrier, a slow-release active material which has been absorbed in a fine particulate material and dispersed in the thermoplastic polymeric carrier, and an intercalation material in fine particulate form dispersed in the carrier, the int
1. A slow-release product comprising a thermoplastic polymeric carrier, a slow-release active material which has been absorbed in a fine particulate material and dispersed in the thermoplastic polymeric carrier, and an intercalation material in fine particulate form dispersed in the carrier, the intercalation material comprising an inert inorganic material with a layered structure, in which molecules of the slow-release active material released from the particulate absorbing material are contained within spaces between the layers of the dispersed particulate intercalation material, the dispersed particulate intercalation material reducing the diffusion rate of the slow-release active material from the polymeric carrier. 2. The product according to claim 1 in which the intercalation material is a nano-clay. 3. The product according to claim 1 in which the slow-release material is a bioactive material comprising a herbicide or a pesticide. 4. The product according to claim 1 in which the intercalation material comprises montmorillonite. 5. The product according to claim 3 comprising a drip irrigation emitter, or tape, or tube, or device used adjacent to an emitter to protect against root intrusion. 6. The product according to claim 5 in which the product is formed as a discontinuous bead along a drip irrigation tape, sheet or tube to protect drip emitters located in the vicinity of the beads. 7. The product according to claim 1 in which the intercalation material comprises a layered nano-clay, and in which the slow-release active material comprises a bioactive material which has been absorbed into carbon black and then dispersed in the thermoplastic polymeric carrier. 8. The product according to claim 1 in which the particulate intercalation material is surface-treated to expand the spaces between layers. 9. The product according to claim 1 in which a bactericide is dispersed in the thermoplastic polymeric carrier. 10. The product according to claim 5 in which a bactericide is dispersed in the drip irrigation product. 11. A method for reducing the rate of diffusion of a slow-release bioactive material through a host thermoplastic polymeric material to increase the useful life of a slow-release product comprising combining an intercalation material comprising an inert fine particulate inorganic material having a layered structure with a mixture of the slow-release bioactive material which is first absorbed in a fine particulate material and then dispersed in the host polymer so that the bioactive material which is released from the absorbing material over an extended period of time is accommodated within spaces between the layers of the intercalation material sufficient to slow the rate at which the slow-release material diffuses from the host polymer when compared with the diffusion rate of the same slow-release bioactive material from the same host polymer that does not contain the dispersed intercalation material. 12. The method according to claim 11 in which the intercalation material comprises a nano-clay. 13. The method according to claim 11 in which the slow-release material is a herbicide. 14. The method according to claim 11 in which the bioactive material is first absorbed into particles of carbon black and then dispersed in the host polymer. 15. The method according to claim 11 in which the intercalation material is present in the total mixture in an amount of less than about 10% by weight. 16. The method according to claim 11 in which the particulate intercalation material is surface-treated to expand the spaces between its layers. 17. A slow-release product comprising a thermoplastic polymeric carrier, a slow-release material dispersed in the polymeric carrier, and an intercalation material in fine particulate form comprising an inert inorganic material with a layered structure in which the intercalation material has been surface-treated to expand the spacing between its platelet layers, combined with a thermoplasti c polymeric carrier material absorbed into the expanded platelet layers, and exfoliated into a particulate co-intercalation material, and in which the slow-release material is dispersed in the co-intercalation material so as to inhibit the diffusion rate of the slow-release material from the thermoplastic polymeric carrier. 18. The product according to claim 17 in which the intercalation material is a nano-clay and in which the slow-release material has been absorbed into particles of carbon black dispersed in the polymeric carrier. 19. The product according to claim 18 in which the slow-release material is a herbicide or a pesticide. 20. A method for reducing the rate of diffusion of a slow-release active material through a host thermoplastic polymeric material to increase the useful life of a slow-release product comprising combining an intercalation material comprising an inert fine particulate inorganic material having a layered structure with a mixture of the slow-release material and the host polymeric material so that the dispersed inorganic material slows the diffusion rate of the slow-release active material through the host polymeric material when compared with the diffusion rate of the same slow-release material through the same host polymeric material not containing the dispersed inorganic material, in which the intercalation material has been pre-processed by surface treatment sufficient to expand the spacing between adjacent platelet layers, followed by absorbing the polymeric material into the surface-treated intercalation material to form a co-intercalate material, followed by exfoliating the co-intercalate material to separate the platelets, and then combining the resultant exfoliated co-intercalate material with the slow-release material to form a thermoplastic polymeric material having controlled slow-release properties. 21. The method according to claim 20 in which the intercalation material comprises a nano-clay and in which the slow-release material has been absorbed into particles of carbon black dispersed in the polymeric carrier. 22. The method according to claim 21 in which the slow-release material is bioactive material. 23. A drip irrigation emitter comprising a thermoplastic polymeric substrate base, a slow-release bioactive material which has been absorbed in a fine particulate material and dispersed in the substrate for inhibiting root growth in the emitter during use, and a fine particulate inorganic material dispersed in the substrate in an amount sufficient to reduce the release rate of the bioactive material from the emitter during use while the released bioactive material maintains a level of effectiveness against root growth. 24. The product according to claim 23 including a bactericide dispersed in the substrate in an amount sufficient to inhibit bacterial activity in the vicinity of the emitter during use. 25. The product according to claim 23 in which the drip irrigation emitter is installed in or on a drip irrigation supply tube. 26. The product according to claim 23 in which the fine particulate material comprises carbon black, and in which the bioactive material has been absorbed into the particles of carbon black and then dispersed in the polymeric substrate. 27. The product according to claim 26 in which the dispersed particulate inorganic material comprises a nano-clay having a layered structure. 28. The product according to claim 27 in which the nano-clay is surface-treated to expand the spacing between layers. 29. A drip irrigation emitter comprising a thermoplastic polymeric substrate base, a slow-release bioactive material dispersed in the substrate for inhibiting root growth in the vicinity of the emitter during use, a fine particulate inorganic material dispersed in the substrate in an amount to reduce the release rate of the bioactive material from the emitter, and a bactericide dispersed in the substrate in an amount sufficient to inhibit bacterial activity in the emitter d uring use. 30. The product according to claim 29 in which the drip irrigation emitter is installed in or on a drip irrigation supply tube. 31. The product according to claim 29 in which the bioactive material has been absorbed into particles of carbon black and then dispersed in the thermoplastic polymeric substrate. 32. A slow-release product comprising a thermoplastic polymeric carrier, a slow-release active material absorbed in a fine particulate inert material and dispersed in the polymeric carrier, and a fine particulate inert inorganic material having a layered structure dispersed in the carrier material, in which the slow-release active material is diffusable from the particulate absorbing material and through the thermoplastic polymeric carrier material to produce an active function at a controllable level exterior to the polymeric carrier, the disperse inorganic particulate material contained in the carrier to an extent sufficient to reduce the diffusion rate of the slow-release material to the exterior of the carrier while the reduced diffusion rate is still sufficient to maintain an effective level of activity exterior to the carrier. 33. The product according to claim 32 in which the active slow-release material is a bioactive material. 34. The product according to claim 33 in which the particulate inorganic material is an intercalation material comprising a nano-clay and in which the active material is absorbed into particles of carbon black. 35. The product according to claim 34 in which the polymeric carrier comprises a polyolefin material.
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이 특허에 인용된 특허 (16)
Usuki Arimitsu (Aichi JPX) Mizutani Tadashi (Aichi JPX) Fukushima Yoshiaki (Aichi JPX) Fujimoto Megumi (Aichi JPX) Fukumori Kenzo (Aichi JPX) Kojima Yoshitsugu (Aichi JPX) Sato Norio (Aichi JPX) Kura, Composite material containing a layered silicate.
Delmer Daniel W. C. (17067 Roundhill Dr. Huntington Beach) Delmer Robert J. (16922 Pacific Coast Hwy. ; #204 Huntington Beach) Delmer William A. (16901 Bedford La. Huntington Beach CA 92649), Drip irrigation devices and plastic films with copper powder incorporated.
Lan Tie ; Beal Gary W. ; Tsipursky Semeon, Intercalates formed by co-intercalation of monomer, oligomer or polymer intercalants and surface modifier intercalants and layered materials and nonocomposites prepared with the intercalates.
Lan Tie ; Westphal Erin K. ; Psihogios Vasiliki ; Liang Ying, Layered compositions with multi-charged onium ions as exchange cations, and their application to prepare monomer, oligomer, and polymer intercalates and nanocomposites prepared with the layered compo.
Burton Frederick G. (West Richland WA) Cataldo Dominic A. (Kennewick WA) Cline John F. (Prosser WA) Skiens W. Eugene (Richland WA), Long-term control of root growth.
Yano Kazuhisa (Aichi JPX) Usuki Arimitsu (Aichi JPX) Okada Akane (Aichi JPX) Kurauchi Toshio (Aichi JPX), Polyimide composite material and process for producing the same.
Kottegoda, Nilwala; Priyadharshana, Gayan; Sandaruwan, Chanaka; Dahanayake, Damayanthi; Gunasekara, Sunanda; Amaratunga, A. J. Gehan; Karunaratne, Veranja, Composition and method for sustained release of agricultural macronutrients.
Kottegoda, Nilwala; Munaweera, Imalka; Madusanka, A. Nadeesh; Karunaratne, Veranja, Compositions for sustained release of agricultural macronutrients and process thereof.
Zakarian, Berj; Feith, Raymond P.; Edris, Mark Richard; Ensworth, Mark M., Methods and apparatus for transporting elastomeric emitters and/or manufacturing drip lines.
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