9. references

Yüklə 11.37 Kb.
ölçüsü11.37 Kb.


  1. D. Curran, (2000), Composite and Coating Group, Department of Materials and metallurgy, University of Cambridge.


  1. M. Ashby, L. Gibson, A. Evans ‘Metal foams, A design guide’, Edition (2000), Butterworth-Heinemeann.

  2. J. Barnhart, Manufacturing routes for metallic foams. Journal of Metals, 52, (2000), pp. 22-27.

  3. Jin et al, (1999), Methods of Producing Lightweight Foamed Metals, US patent no. 4973,358.

  4. Solidification of an open-cell mould, (2001), Intelligent processing of material laboratory, Department of Materials and Metallurgy and Engineering Science, University of Virginia.


  1. I. Duarte and J. Banhart, Acta Mater., Vol. 48 (2000), 2349.

  2. D.T. Queheillalt, D.D. Hass, D.J. Sypeck, and H.N.G. Wadley, Synthesis of Open Cell-Metal Foams By Templated Directed Vapor Deposition, Journal of Materials Research, Vol. 16(4), pp. 1028-1036.

  3. D.S Shwartz. D.S. Shih, ‘Porous and Cellular Materials for Structural Applications, Material Research Society Proceedings’ Edition (1998), Vol. 521, PA, USA.

  4. National physical Laboratory, (2001)


  1. J.P. Holman, ‘Heat Transfer-A modern approach’, Edition (1989), Mc Graw-Hill, New York.

  2. R.R.Cousins ‘Design guide to the use of foams, for crash padding’ (1986) NPL report, 237, London.

  3. T. J. Lu, C.Chen, Thermal and Fire Retardance properties of cellular aluminium alloys, Acta Materialia, Vol. 47(5), 1999, pp. 1469-1485.

  4. L. L. Berank, ‘Noise Reduction’, edition 1960, Mc Graw-Hill, New York.

  1. J. Breithaupt, ‘Understanding Physics for Advanced Level’, Edition (1987), Hutchinson Education, London.

  2. Shroeder, ‘An introduction to thermal physics’, (1999) New York.

  3. M.A.Sheutz and Glicksmann .L.R, Proceedings of the society of plastic industry 6th international technical marketing conference, San Diego, California, (1983) 31oc t-4nov pp 341-347.

  4. Gunther SPE trans, Vol 2,243.

  5. R. E. Skockdopole, Chem. Eng. Prog. , Vol 57,1955.

  6. A.A. Mohammadein, EI-Amin, Thermal Radiation Effects on Power Law Fluids Over a Horizontal Plate Embedded in a Porous Medium, INT COMMUN HEAT MASS, Vol 27 (7), pp. 1025-1035 (2000).

  7. L. Gibson, M. Ashby ‘Cellular Solids, Structure And Properties’, 1st Edition, (1988), Butterworth-Heinemeann.

  8. V.V. Calmidi. and R. L. Mahajan, ‘The Effective Thermal Conductivity of High Porosity Fibrous Metal Foams’, Journal of Heat Transfer, Trans of ASME, Vol 121, May 1999, pp. 466-471.

  9. K. Boomsma and D.Poulikakos, ‘On the Effective Thermal Conductivity of a three-dimensionally structured fluid-saturated metal foam’ Int. J. Heat Mass Transfer, Vol 12(144), 2001, 827-836.

  10. Atkins P. W., ‘Physical chemistry’, 5th Edition, Oxford University Press.

  11. E.Donald, ‘Basic Acoustics’ (1987), Harper and Row.

  12. L.Beranek,L. Istuan, ‘Noise And Vibration and Control Engineering, Principles and Application’, (1992), John Wiley and Sons, New York.

  13. A.Marsh, ‘The School of Architecture And Fine Arts, The University Of Western Australia


  1. McIntire R and Kennedy R.N, Chem. Eng. Prog. Vol 9,727.

  2. T.J.Lu.A.Hess, ‘Sound Absorption In Metallic Foams’ Journal of Applied Physics, Vol 85, (June 1999), p 7528-7539.

  3. G.Kirchoff, Ann Phys. Chem.134, 177 (1868)

  4. T.J.Lu,F.Chen, ‘Sound Absorption of Cellular Metals with Semi-Open Cells, Journal Acoustic. Soc. Am., In Press (August 1999)

  5. H.J.Pain, ‘The Physics of Vibrations and Waves’ 5th Edition, John Wiley and Sons, New York.

  1. M. Ashby, L. Gibson, A. Evans ‘Metal foams, A design guide’, edition (2000), Butterworth-Heinemeann.

  2. H. K. D. H. Bhadeshia, Department of Phase Transformation and Complex Properties research Group, Department of Materials and Metallurgy, University of Cambridge.


Verilənlər bazası müəlliflik hüququ ilə müdafiə olunur ©azrefs.org 2016
rəhbərliyinə müraciət

    Ana səhifə