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00:25 Jun 15, 2008 |
English to Spanish translations [PRO] Nutrition / Nutritional components | |||||||
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| Selected response from: wnavarro Local time: 01:10 | ||||||
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Summary of answers provided | ||||
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5 +1 | saturación baja conjugada (sbc) |
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4 | aceite de soja conjugado de baja saturación (poco saturado) |
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3 | suplemento para reducir el colesterol |
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Discussion entries: 1 | |
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cls suplemento para reducir el colesterol Explanation: cholesterol lowering supplement, es un agregado en algunos productos derivados de la soja Hope it helps! |
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cls saturación baja conjugada (sbc) Explanation: Con relación a la soya descubrí el siguiente documento en la siguiente pagina de internet www.biocom.iastate.edu/teams/larock/LarockBioplasticsSummar... Note en el ultimo al principio del ultimo parrafo de la primera pagina que dice: conjugated low saturation soy (CLS). CLS es acrónimo de Conjugated Low Saturation, que traducido al Español es: Saturación Baja Conjugada. LAROCK BIOPLASTICS, BIOCOMPOSITES AND COATINGS RESEARCH [email protected] Bioplastics. The Larock research group at Iowa State University has discovered that a remarkable range of exciting new rubber, adhesive, elastomeric and plastic materials can be made by the polymerization and copolymerization of regular, LoSat and conjugated soybean oils with a number of readily available, commercial comonomers, including styrene and divinylbenzene. Bioplastics from a range of other biological oils, including tung, corn, linseed and fish oils have also been prepared using this technology. The early materials made in the Larock group by the cationic copolymerization of soybean oil (30-65 weight % typically) with styrene (ST) and various amounts of divinylbenzene (DVB) possess room temperature moduli ranging from 6 106 to 2 109 Pa, and glass-transition temperatures (Tg) ranging from 0 to 105 oC. A typical elastomeric material exhibits an elongation at break of 300% at room temperature. The maximum tensile strength of these new soybean oil plastics reaches as high as 21 MPa. The thermal stabilities range from 340 °C to 400 °C for 15% weight loss values in air. In addition to thermophysical and mechanical properties comparable to petroleum-based polymers, these new soybean oil-containing materials possess even more valuable properties, such as good damping and shape memory properties. Damping materials are capable of reducing unwanted noise and preventing vibration fatigue failure. Good shape memory materials can be formed into desired, persistent shapes by altering the temperature of the material. More recently we have prepared a range of rubbery materials by the cationic copolymerization of regular (SOY) and conjugated soybean oil (CSOY) and dicyclopentadiene (DCP) catalyzed by Norway fish oil (NFO)-modified and soybean oil-diluted boron trifluoride diethyl etherate (BFE). These novel biomaterials range from tough and ductile plastics to very soft rubbers and utilize anywhere from 50-85 weight % of soybean oil as a starting material. Their compressive Young’s moduli are in the range 5 106 to 337 106 Pa, their toughness values are in the range from 0.07 to 1.95 MPa, while their ultimate strengths are in the range from 0.7 to 30.2 MPa. These rubbery materials typically exhibit compressions in the range 50- 65% at room temperature. Thermogravimetric analysis (TGA) indicates that these soybean oildicyclopentadiene copolymers are thermally stable below 200 ºC, with 10% and 50% weight loss temperatures ranging from 280-372 °C and 470-554 °C respectively. The glass transition temperatures (Tg) of the majority of materials are in the range from -23 to 17 °C. Samples with higher DCP content (more than 40 weight %) possess Tg’s above ambient temperature. These novel rubbers possess excellent damping properties and show promise as replacements for petroleum-based rubbers and conventional plastics. We have also successfully synthesized a range of thermosets by bulk free radical copolymerization of conjugated low saturation soy (CLS) and linseed (CLIN) oil with acrylonitrile (AN), ST, DVB or DCP. These materials are unique since they are transparent with a light yellow color and range from hard and rigid to flexible and rubbery. The CLS samples have been prepared using 30-80 weight % of the oil, AN and either DVB or DCP as crosslinkers. Conjugated linseed oil (CLIN) has given promising results employing 40-60 weight % the oil, AN and DVB as comonomers. As seen in most of our previous work, both the CLS and CLIN samples are thermally stable below 200 ºC, with bulk degradation not occurring until 400-500 ºC. The glass transition temperatures of these thermosets range from -20 to 110 ºC, and can be -------------------------------------------------- Note added at 6 hrs (2008-06-15 06:36:22 GMT) -------------------------------------------------- o simplemente: saturación baja conjugada Reference: http://www.biocom.iastate.edu/teams/larock/LarockBioplastics... |
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cls aceite de soja conjugado de baja saturación (poco saturado) Explanation: CLS es un tipo de aceite de soja [PDF] New Soybean Oil-Styrene-Divinylbenzene Thermosetting Copolymers ...Dateiformat: PDF/Adobe Acrobat - HTML-Version side chains are conjugated. As expected, the SOY. is the least reactive oil and the CLS is the most. reactive oil. The SOY, LSS, and CLS polymers with the ... www.chemistry.mtu.edu/pages/courses/files/ch4620-paheiden/W... - Progress in Polymer Science : Addition polymers from natural oils ...- [ Diese Seite übersetzen ]a Here SOY represents regular soybean oil, LSS—Low saturated soybean oil, CLS—conjugated low saturated soybean Oil, DVB—divinylbenzene, NFO—Norway Pronova ... linkinghub.elsevier.com/retrieve/pii/S0079670006000876 PDF] Microsoft PowerPoint - Larock, RichardDateiformat: PDF/Adobe Acrobat - HTML-Version Natural and Conjugated Oils. 4.5. 5.1. 5.1. 5.8. 5.8. 8.2. no. no. yes. no. yes. yes. Regular soy oil (SOY). LoSatSoy oil (LSS). Conjugated LSS (CLS) ... www.bioeconomyconference.org/images/Larock, Richard.pdf |
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