msepostdoc-list CANCELLED TODAY Seminar Reminder for Daniela Betancourt Jimenez's Preliminary Exam, Nov. 13, at 1:30, in ARMS B071, "Phase Change Materials as Temperature Regulators in Asphalt Pavement"
Son, Rosemary E
son39 at purdue.edu
Mon Nov 13 10:57:49 EST 2017
Hi All,
This has been cancelled today. It will be rescheduled another day.
Thank you for your consideration.
From: Son, Rosemary E
Sent: Monday, November 13, 2017 10:09 AM
To: 'msefaculty-list at ecn.purdue.edu' <msefaculty-list at ecn.purdue.edu>; 'msegradstudent-list at ecn.purdue.edu' <msegradstudent-list at ecn.purdue.edu>; 'msepostdoc-list at ecn.purdue.edu' <msepostdoc-list at ecn.purdue.edu>
Cc: 'Daniela Betancourt Jimenez' <dbetanc at purdue.edu>; Haddock, John E <jhaddock at purdue.edu>; Cline, Vicki L. <vicline at purdue.edu>; Son, Rosemary E <son39 at purdue.edu>
Subject: Seminar Reminder for Daniela Betancourt Jimenez's Preliminary Exam, TODAY, Nov. 13, at 1:30, in ARMS B071, "Phase Change Materials as Temperature Regulators in Asphalt Pavement"
Please consider attending the following:
MATERIALS ENGINEERING
SEMINAR
"Phase Change Materials as Temperature Regulators in Asphalt Pavement"
By
Daniela Betancourt Jimenez
Purdue MSE Ph.D. Preliminary Exam
Advisor: Professor Carlos J. Martinez
ABSTRACT
Asphalt pavement constitute the building material for approximately 95% of the roads in the United States. However, due to the viscoelastic nature of the binder, the performance of the asphalt can be dramatically affected by extreme temperatures. The integration of phase change materials (PCMs) has been proven to be a feasible and effective way to regulate the temperature in other building materials and it's currently being investigated for asphalt applications. This report summarizes the main approaches studied for the incorporation of PCM systems in asphalt pavement materials and some of the challenges encountered in the process. It also proposes the use of a new technique for PCM microencapsulation that is believed will help overcome the problems associated with PCM encapsulation such as supercooling, low thermal conductivity and PCM leaking. It is believed that this new method will provide a viable solution to reduce asphalt distresses and delay the ice formation and snow accumulation during the winter season.
Date: Monday, November 13, 2017
Time: 1:30 P.M.
Place: ARMS B071
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