Hostname: page-component-78c5997874-ndw9j Total loading time: 0 Render date: 2024-11-20T02:46:12.281Z Has data issue: false hasContentIssue false
  • English
  • Français

Detection and quantification of non-milk fat in mixtures of milk and non-milk fats

Published online by Cambridge University Press:  01 June 2009

Ralph E. Timms
Ralph E. Timms
Affiliation:
Dairy Research Laboratory, Division of Food Research, CSIRO, P.O. Box 20, Highett 3190, Australia
Get access Rights & Permissions [Opens in a new window]

Summary

The triglyceride compositions of 76 Australian milk fats obtained from 3 factories during a whole year were determined by gas-liquid chromatography. It was shown that all the data fitted the equation

with a S.D. of of 0·7088 where C40, C42 and C44 are the weight percentages of triglycerides with carbon numbers 40, 42 and 44. The triglyceride compositions of 10 samples of milk fat from countries other than Australia were also shown to fit the equation. If the equation is assumed to define pure milk fat, it is shown that as little as 5% of any non-milk fats can be detected with > 99% confidence. The amount of non-milk fat in mixtures of milk and non-milk fats can be quantified to better than ±2% with > 95% confidence. Also, the identity of the non-milk fat can usually be deduced by calculation of its triglyceride composition. Analyses of known mixtures and of chocolate and a table spread comprising butter and vegetable oil showed an agreement between observed and expected results well within the predicted confidence limits.

Type
Original Articles
Information
Journal of Dairy Research , Volume 47 , Issue 3 , October 1980 , pp. 295 - 303
Copyright
Copyright © Proprietors of Journal of Dairy Research 1980

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

REFERENCES

Fisher, R. A. (1950). Statistical Methods for Research Workers, 11th Edn. London: Oliver and Boyd.Google Scholar
Gray, I. K. (1973). Journal of Dairy Research 40, 207214.Google Scholar
Guyot, A. (1967). Collogues d'information scientifique: Détection des Falsifications de la Matière Grasse butyrique 1967, 4376.Google Scholar
Guyot, A. L. (1978). 20th International Dairy Congress, Paris 1E, 400.Google Scholar
Hadorn, H. & Zürcher, K. (1972). International Chocolate Review 27, 82, 84–88, 9092.Google Scholar
Homberg, E. (1975). Fette Seifen Anslrichmittel 77, 811.CrossRefGoogle Scholar
International Dairy Federation (1970). International Standard FIL-IDF 54: 1970.Google Scholar
Knightbridge, J. P. & Black, R. G. (1978). Australian Journal of Dairy Technology 33, 1418.Google Scholar
Norris, G. E., Gray, I. K. & Dolby, R. M. (1973). Journal of Dairy Research 40, 311321.Google Scholar
Padley, F. B. & Timms, R. E. (1978). Chemistry and Industry pp. 918919.Google Scholar
Parodi, P. W. (1970). Australian Journal of Dairy Technology 25, 200205.Google Scholar
Parodi, P. W. (1972a). Australian Journal of Dairy Technology 27, 1217.Google Scholar
Parodi, P. W. (1972b). Australian Journal of Dairy Technology 27, 140143.Google Scholar
Parodi, P. W. (1973). Australian Journal of Dairy Technology 28, 3842.Google Scholar
Timms, R. E. (1979). Australian Journal of Dairy Technology 34, 6065.Google Scholar
Zillén, M. (1977). Nordisk Mejeriindustri 4, 263265.Google Scholar