Difference between revisions of "3P Quick Cure Clay"
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(Created page with "Created by [http://pojman.com Dr. John Pojman], [http://www.lsu.edu/science/chemistry/people/academic_contact_pages/Professors/pojman.php Professor of Polymers & Nonlinear Che...") |
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Created by [http://pojman.com Dr. John Pojman], [http://www.lsu.edu/science/chemistry/people/academic_contact_pages/Professors/pojman.php Professor of Polymers & Nonlinear Chemical Dynamics] in the [http://www.lsu.edu/science/chemistry/ Department of Chemistry at the Louisiana State University]. | Created by [http://pojman.com Dr. John Pojman], [http://www.lsu.edu/science/chemistry/people/academic_contact_pages/Professors/pojman.php Professor of Polymers & Nonlinear Chemical Dynamics] in the [http://www.lsu.edu/science/chemistry/ Department of Chemistry at the Louisiana State University]. | ||
3P Quck Cure Clay has a virtually unlimited working time, and is cured by initiating an exothermic frontal polymerization wave which cures (and heats) the entire mass. | 3P Quck Cure Clay has a virtually unlimited working time, and is cured by initiating an exothermic frontal polymerization wave which cures (and heats) the entire mass. This is typically accomplished by means of a heat gun, although some success has been had by using a laser, also mounted on the printer. | ||
*[http://shop.3pquickcureclay.ihoststores.com/Images/Menu/3P_QuickCure_Clay_Info_Sheet.pdf 3P Quick Cure Clay Info Sheet] | *[http://shop.3pquickcureclay.ihoststores.com/Images/Menu/3P_QuickCure_Clay_Info_Sheet.pdf 3P Quick Cure Clay Info Sheet] | ||
*[http://3pquickcureclay.com/default_v3.aspx Instructions and additional information] | *[http://3pquickcureclay.com/default_v3.aspx Instructions and additional information] | ||
Revision as of 21:27, 28 January 2016
Created by Dr. John Pojman, Professor of Polymers & Nonlinear Chemical Dynamics in the Department of Chemistry at the Louisiana State University.
3P Quck Cure Clay has a virtually unlimited working time, and is cured by initiating an exothermic frontal polymerization wave which cures (and heats) the entire mass. This is typically accomplished by means of a heat gun, although some success has been had by using a laser, also mounted on the printer.