A generalized heat conduction model of higher‑order time derivatives and three‑phase‑lags for non‑simple thermoelastic materials
Scientific Reports • 2020
معلومات البحث
المؤلفون
Ahmed E. Abouelregal; K. M. Khalil; F. A. Mohammed; M. E. Nasr;; Adam Zakaria; ibrahim‑elkhalil Ahmed
الكلمات المفتاحية
Not Available
المجلة العلمية
Scientific Reports
الناشر
Nature Publishing Group
المجلد
10
العدد
1
الصفحات
1-13
publication.type
International
رابط البحث
Open Link
المواد المرفقة
Not Available
الملخص
In the current work, a new generalized model of heat conduction has been constructed taking into account the influence of the microscopic structure into the on non-simple thermoelastic materials. The
new model was established on the basis of the system of equations that includes three‑phase lags of
higher-order and two different temperatures, namely thermodynamic and conductive temperature. The two-temperature thermoelastic model presented by Chen and Gurtin (Z Angew Math Phys
19(4):614–627, 1968) and some other previous models have been introduced as special cases from
the proposed model. As an application of the new model, we studied the thermoelastic interactions resulting from sudden heating in an isotropic solid subjected to external body force. The influence
of the discrepancy parameter and higher‑order of the time‑derivative has been discussed. this work
will enable future investigators to gain insight into non-simple thermoelasticity with different phase delays of higher‑order in detail.
new model was established on the basis of the system of equations that includes three‑phase lags of
higher-order and two different temperatures, namely thermodynamic and conductive temperature. The two-temperature thermoelastic model presented by Chen and Gurtin (Z Angew Math Phys
19(4):614–627, 1968) and some other previous models have been introduced as special cases from
the proposed model. As an application of the new model, we studied the thermoelastic interactions resulting from sudden heating in an isotropic solid subjected to external body force. The influence
of the discrepancy parameter and higher‑order of the time‑derivative has been discussed. this work
will enable future investigators to gain insight into non-simple thermoelasticity with different phase delays of higher‑order in detail.
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