Abstract
Synthetic graphite–phenolic nanocomposites were designed and synthesized with a compositional gradient which is shown to influence transient temperature fields during rapid temperature changes. Such nanocomposites were fabricated using a compression moulding technique, and thermal conductivity and heat capacity of nanocomposites were experimentally determined using a modified transient plane source technique over a wide temperature range from 253.15 to 373.15 K. The effects of four compositional gradient configurations on the transient temperature field across the thickness of a nanocomposite plate, at a high imposed temperature, was investigated. The transient time and temperature fields in nanocomposite structures were highly affected by the compositional gradient configurations.
ProCite
RefWorks
Reference Manager
BibTeX
Zotero
EndNote
-
1. Fukushima, H, Drzal, L, Rook, B, Rich, M 2006 Thermal conductivity of exfoliated graphite nanocomposites. J Therm Anal Calorim 85 1 235–238 .
-
2. Wang N , Zhang X, Zhu D, Gao J. The investigation of thermal conductivity and energy storage properties of graphite/paraffin composites. J Therm Anal Calorim. 2011: 1–6. doi: .
-
3. Sihn, S, Ganguli, S, Roy, AK, Qu, L, Dai, L 2008 Enhancement of through-thickness thermal conductivity in adhesively bonded joints using aligned carbon nanotubes. Compos Sci Technol 68 3–4 658–665 .
-
4. Kalaitzidou, K, Fukushima, H, Drzal, LT 2007 Mechanical properties and morphological characterization of exfoliated graphite-polypropylene nanocomposites. Compos A Appl Sci Manuf 38 7 1675–1682 .
-
5. Biswas, S, Fukushima, H, Drzal, LT 2011 Mechanical and electrical property enhancement in exfoliated graphene nanoplatelet/liquid crystalline polymer nanocomposites. Compos A Appl Sci Manuf 42 4 371–375 .
-
6. Bagci, MD, Apalak, MK 2011 Thermal residual stresses in one-directional functionally graded plates subjected to in-plane heat flux. Numer Heat Transf A Appl 60 1 50–83 .
-
7. Zhou, YT, Lee, KY, Yu, DH 2011 Transient heat conduction in a functionally graded strip in contact with well stirred fluid with an outside heat source. Int J Heat Mass Transf 54 25–26 5438–5443 .
-
8. Cho, JR, Oden, JT 2000 Functionally graded material: a parametric study on thermal-stress characteristics using the Crank–Nicolson–Galerkin scheme. Comput Methods Appl Mech Eng 188 1–3 17–38 .
-
9. Apalak, MK, Bagci, MD 2011 Thermal residual stresses in adhesively bonded in-plane functionally graded clamped plates subjected to an edge heat flux. J Adhes Sci Technol 25 15 1861–1908 .
-
10. Agarwal, B, Upadhyay, PC, Banta, L, Lyons, D 2006 Transient temperature distribution in composites with layers of functionally graded materials (FGMs). J Reinf Plast Compos 25 5 513–542 .
-
11. Tian, M, Zhu, S, Chen, Q, Pan, N 2012 Effects of layer stacking sequence on temperature response of multi-layer composite materials under dynamic conditions. Appl Therm Eng 33–34:219–226 .
-
12. C-Therm Technologies Ltd. http://www.ctherm.com/products/tci_thermal_conductivity/. Accessed 08 2011.
-
13. Hibbitt D , Karlson B, Sorensen P. ABAQUS user's manual, version 6.9. Rhode Island: Hibbitt, Karlson, Sorensen Inc; 2009.
-
14. Ganguli, S, Roy, AK, Anderson, DP 2008 Improved thermal conductivity for chemically functionalized exfoliated graphite/epoxy composites. Carbon 46 5 806–817 .
-
15. Kuo, CH, Huang, HM 2011 Responses and thermal conductivity measurements of multi-wall carbon nanotube (MWNT)/epoxy composites. J Therm Anal Calorim 103 2 533–542 .
-
16. Xu, F, Sun, L, Zhang, J, Qi, Y, Yang, L, Ru, H. et al. 2011 Thermal stability of carbon nanotubes. J Therm Anal Calorim 102 2 785–791 .
-
17. Silva, G, Musumeci, A, Gomes, A, Liu, J-W, Waclawik, E, George, G. et al. 2009 Characterization of commercial double-walled carbon nanotube material: composition, structure, and heat capacity. J Mater Sci 44 13 3498–3503 .
-
18. Tan, Z-C, Zhang, J-B, Shang-He, M 1999 A low-temperature automated adiabatic calorimeter heat capacities of high-purity graphite and polystyrene. J Therm Anal Calorim 55 1 283–289 .
-
19. Hone, J, Batlogg, B, Benes, Z, Johnson, AT, Fischer, JE 2000 Quantized phonon spectrum of single-wall carbon nanotubes. Science 289 5485 1730–1733 .
-
20. McHugh, J, Fideu, P, Herrmann, A, Stark, W 2010 Determination and review of specific heat capacity measurements during isothermal cure of an epoxy using TM-DSC and standard DSC techniques. Polym Test 29 6 759–765 .
-
21. Cecen, V, Tavman, IH, Kok, M, Aydogdu, Y 2009 Epoxy- and polyester-based composites reinforced with glass, carbon and aramid fabrics: measurement of heat capacity and thermal conductivity of composites by differential scanning calorimetry. Polym Compos 30 9 1299–1311 .
-
22. Abbassi, A, Khoshmanesh, K 2008 Numerical simulation and experimental analysis of an industrial glass melting furnace. Appl Therm Eng 28 5–6 450–459 .
-
23. Peng, X-L, Li, X-F 2010 Transient response of temperature and thermal stresses in a functionally graded hollow cylinder. J Therm Stresses 33 5 485–500 .
Monthly Content Usage
| Abstract Views | Full Text Views | PDF Downloads | |
|---|---|---|---|
| Nov 2020 | 2 | 0 | 0 |
| Dec 2020 | 0 | 0 | 0 |
| Jan 2021 | 1 | 0 | 0 |
| Feb 2021 | 0 | 0 | 0 |
| Mar 2021 | 1 | 0 | 0 |
| Apr 2021 | 0 | 0 | 0 |
| May 2021 | 0 | 0 | 0 |
A potential bacterial carrier for bioremediation
Characterization of insoluble potato fiber
Pyridine based thorium(IV) phosphate hybrid fibrous ion exchanger
Synthesis, characterization and thermal behaviour
Copyright Akadémiai Kiadó
AKJournals is the trademark of Akadémiai Kiadó's journal publishing business branch.
Copyright Akadémiai Kiadó AKJournals is the trademark of Akadémiai Kiadó's journal publishing business branch.
Powered by PubFactory