Anisotropic behavior of rigid polyurethane foam with acicular nanoparticles infusion under high strain rate compression

20th Technical Conference of the American Society for Composites 2005

Volumn 2, Issue , 2005, Pages 775-789

  Uddin, M F ^a   Mahfuz, H ^b   Zainuddin, S ^c   Jeelani, S ^c  

^a TUSKEGEE UNIVERSITY   (United States)

^b Florida Atlantic University   (United States)

^c NONE

Author keywords

[No Author keywords available]

Indexed keywords

ANISOTROPIC BEHAVIORS; CELL MICROSTRUCTURES; CONTROL PANELS; DIPHENYLMETHANE DIISOCYANATE; FAILURE STRENGTH; FOAM MATERIAL; HIGH STRAIN RATES; LIQUID POLYMER PRECURSOR; MECHANICAL AND THERMAL PROPERTIES; MECHANICAL TESTS; POLYURETHANE FOAM; POWER INTENSITY; QUASI-STATIC; RECTANGULAR MOLDS; RIGID POLYURETHANE FOAMS; SEM STUDY; SPHERICAL NANOPARTICLES; TIO; TRANSVERSE DIRECTIONS; TWO-COMPONENT; ULTRASONIC CAVITATION;

ASPECT RATIO; AUTOMOBILE MANUFACTURE; CAVITATION; LIQUIDS; MECHANICAL PROPERTIES; MICROSTRUCTURE; POLYURETHANES; RIGID FOAMED PLASTICS; SPHERES; STRAIN RATE; THERMODYNAMIC PROPERTIES; TITANIUM DIOXIDE;

NANOPARTICLES;

EID: 84871029679     PISSN: None     EISSN: None     Source Type: Conference Proceeding    
DOI: None     Document Type: Conference Paper

References (28)

1. Mamalis A, Manolakos D, Demosthenous G, Ioannidis M. 1998. Crashworthiness of composite thin-walled structural components. Technomic Publishing Co., Lancaster PA, USA.
2. Mamalis A, Robinson M, Manolakos D, Demosthenous G, Ioannidis M, Carruthers. 1997. "Crashworthy capability of composite material structures", Composite Structure, 37, 109-34.
3. Mahfuz, H., Islam, M., Rangari, V., Saha, M. and Jeelani, S. 2004. "Response of Sandwich Composites with Nanophased Cores under Flexural Loading, " Composites Part B: Engineering, 35, 543-550.
4. H. Mahfuz, M.S. Islam, V. Rangari, S. Salekeen and S. Jeelani. 2004. "Fabrication, synthesis and mechanical characterization of nanoparticles infused polyurethane foams", Composites Part A: Applied Science and Manufacturing, 35, Iss. 4, 453-460.
5. Zilg, Carsten, Ralf Thomann, Rolf Mulhaupt, And Jurgen Finter. 1999. "Polyurethane Nanocomposites Containing Laminated Anisotropic Nanoparticles Derived From Organophilic Layered Silicates", Advanced Materials, 11, n1, 49-52.
6. Peterovic, Zoran S., Javni, I., Waddon, A., Gyorgy Banhegyi. 2000. "Structure and Properties of Polyurethane-Silica Nanocomposites", Journal of Applied Polymer Science, 76, 133-151. (Pubitemid 30584840)
7. Javni, I., W.Zhang, V. Karajkov And Z. S. Petrovic. 2002. "Effect of Nanoand Micro-Silica Fillers on Polyurethane Foam Properties", Journal of Cellular Plastics, 38, 229-239. (Pubitemid 34854311)
8. Mahfuz, Hassan, Uddin, Mohammed F., Rangari, Vijaya K., Saha, Mrinal C., Zainuddin, Shaik, Jeelani, Shaik. 2005. "High strain rate response of sandwich composites with nanophased cores" Applied Composite Materials, v 12, n 3-4, p 193-211. (Pubitemid 40626437)
9. th International Symposium on MEMS and Nanotechnology, PP 147-153.
10. Heremans J, Beetz Jr C.P. 1985. "Thermal conductivity and thermo-power of vapor-grown graphite fibers", Phys Rev B: Condens Mater, 32 (4), 1981- 6.
11. Heremans J. 1985. "Electrical conductivity of vapor-grown carbon fibers", Carbon, 23(4), 431-6. (Pubitemid 15565678)
12. Endo M, Kim YA, Hayashi T, Nishmura K, Matusita T, Miyashita K. 2001. "Vapor-grown carbon fibers (VGCFs); basic properties and their battery applications", Carbon, 39(9), 1287-97. (Pubitemid 32535945)
13. Zeng, j., Saltysiak, B., Johnson, W.S., Schiraldi, D.A., Kumar, S, "Processing and properties of poly(methyl methacrylate)/carbon nano fiber composites", Composites: Part B, 35, 173-178, ).
14. Karen Lozano, Shuying Yang, Robert E. Jones, 2004. "Nanofiber toughened polyethylene composites" Carbon 42, 2329-2366.
15. Wong EW, Sheehan PE, Lieber CM. 1997. "Nanobeam mechanics: elasticity, strength, and toughness of nanorods and nanotubes". Science 277(26):1971-4.
16. Treacy MM, Ebbesen TW, Gibson JM. 1996. "Exceptionally high Young's modulus observed for individual carbon nanotubes". Nature 381(20):678- 80. (Pubitemid 126515869)
17. Thostenson ET, Ren Z, Chou TW. 2001. "Advances in the science and technology of carbon nanotubes and their composites: a review. Compos Sci Technol, 61:1899-912.
18. Cooper CA, Ravich D, Lips D, Mayer J, Wagner HD. 2002. "Distribution and alignment of carbon nanotubes and nanofibrils in a polymer matrix". Compos Sci Technol; 62:1105-12. (Pubitemid 34653453)
19. Frogley MD, Ravich D, Wagner HD. 2003. "Mechanical properties of carbon nanoparticle-reinforced elastomers". Compos Sci Technol;63:1647- 54. (Pubitemid 36906679)
20. R. Roy. 1986. "Purposive Design of Nanocomposites: Entire Class of New Materials", Materials Science Research, 21, 25.
21. Wnag, Q, Xia, H and zhang, C. 2001. "Preparation of Polymer/Inorganic Nanoparticles Composites Through Ultrasonic Irradiation", Journal of Applied Polymer Science, 80, 1478-1488. (Pubitemid 32318072)
22. Eskin, G.I. 1994. "Influence of Cavitation Treatment of Melts on The Processes of Nucleation and Growth of Crystals During Solidification of Ingots and Castings From Light Alloys", Ultrasonics Sonochemistry, 1, n 1, S59-63.
23. Eskin, G.I. 1995. "Cavitation Mechanism of Ultrasonic Melt Degassing", Ultrasonics Sonochemistry, 2 n2, S137-141.
24. Eskin, G.I. 2001. "Broad Prospects for Commercial Application of The Ultrasonic (Cavitation) Melt Treatment of Light Alloys", Ultrasonic Sonochemistry, 8, 319-325. (Pubitemid 32544984)
25. 'Light Comes From Ultrasonic Cavitation In Picosecond Pulses', Physics Today, 44, n11, November 1991.
26. Price, G. J. 2003. 'Recent Developments In Sonochemical Polymerization', Ultrasonics Sonochemistry, 10, 277-283.
27. Utah Foam Product Inc., Nephi, Utah, USA.
28. Nanophase Technologies Corporation, Burr Ridge, IL, USA.