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  1. ASABE Student branch meeting

    https://fabe.osu.edu/about-us/events/asabe-student-branch-meeting

    Where: Room 148 of Ag. Engineering Building   ...

  2. DamSafe™- a device to deproteinize dental dams

    https://fabe.osu.edu/research/damsafe%E2%84%A2-device-deproteinize-dental-dams

    DamSafe ™- a device to deproteinize dental dams used in American Dentistry (Dr. Cornish) We tested a wide range of products used in dental offices and found that many latex dental dams contain very high levels of extractable protein.  The levels are signi ...

  3. L. Brown

    https://fabe.osu.edu/node/935

    202 Friday, October 19, 2012- 10:00am to 11:00am ...

  4. Development of new test methods

    https://fabe.osu.edu/research/development-new-test-methods

    Development of new test methods (Dr. Cornish) Dr. Cornish is involved in ISO and ASTM and the development of new test methods.  One such test method is an abrasion and/or durability test for medical gloves.  This is pertinent because the glove standards w ...

  5. Biobutandiol, a precursor to butaniene

    https://fabe.osu.edu/research/biobutandiol-precursor-butaniene

    Biobutandiol, a precursor to butaniene (Dr. Cornish) It will be a long time before natural rubber can be produced in sufficient quantity to replace petroleum/natural gas-derived synthetic rubber because of increasing global demand for both materials.  How ...

  6. Cryo-malleable elastomeric products

    https://fabe.osu.edu/research/cryo-malleable-elastomeric-products

    Cryo-malleable elastomeric products (Dr. Cornish) Natural rubber can retain flexibility down to temperature lower than synthetic polymers, around-50⁰C.  However, this is not low enough (remember the Challenger disaster?).   We have a natural rubber that h ...

  7. Latex foams

    https://fabe.osu.edu/research/latex-foams

    Development of latex foams (Dr. Cornish) We have begun developing open cell foam products.  Our commercial-scale tape casting machine can make large areas of fully bio-based sustainable foams and films.  We already have interest from a US company that wan ...

  8. Processing Optimization

    https://fabe.osu.edu/research/processing-optimization

    Processing Optimization (Dr. Cornish) We have built two pilot plants in our off-site facility, the larger one funded by ODOD to extract inulin and rubber from Kazak dandelion and the other for latex extraction.   The pilot plants can be used with multiple ...

  9. Hydroponics

    https://fabe.osu.edu/research/hydroponics

    Hydroponics (Dr. Cornish) We have built a novel hydroponics table that allows tap roots to grow in their normal vertical orientation.  The system supports an 8 by 8 fully randomized design. Initial experiments proved that adventitious roots can make rubbe ...

  10. NIR models for in vivo quantification of secondary products

    https://fabe.osu.edu/research/nir-models-vivo-quantification-secondary-products

    Development of NIR models for in vivo quantification of secondary products (Dr. Cornish)  We are developing rapid methods of rubber quantification within Kazak Dandelion and Guayule. We used a portable spectrophotometer which uses near infrared light and ...

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