Brand, R.H., and Backer, S., Mechanical Principles of Natural Crimp of Fiber, Textile Res. J.32, 39-49 (1962).
2.
Chakravarty, A.C., Crimp Produced in Jute Fibers by Treatment with Solution of Sodium Hydroxide, Textile Res. J.32, 525-526 (1962).
3.
Lewin, M., Shiloh, M., and Banbaji, J., TheCrimp of Alkali-Treated Jute Fibres, Textile Res. J.29, 373-385 ( 1959).
4.
Macmillan, W.G. , Sengupta, A.B., and Mazumdar , S.K., A Study of the Action of Alkalis on Jute, J. Textile Inst.45, T703-T715 (1954).
5.
Mazumdar, A. , Samajpati, S., Ganguly , P.K., Sardar, D., and Das Gupta, P.C., Swelling of Jute: Heterogeneity of Crimp Formation, Textile Res. J.50, 575-578 (1980).
6.
Saha, P.K., Chatterjee, K.K., and Sarkar, P.B., Woollenized Jute as a Wool substitute, monograph, Indian Central Jute Committee, Calcutta, 1961.
7.
Samajpati, S. , Mazumdar, A., and Das Gupta, P.C., Geometrical andMechanical Properties of Alkali-Treated Jute Filaments, Textile Res. J.49, 8-18 (1979).
8.
Sao, K.P., and Jain, A.K., On Crimp Measurements in Alkali-Treated Jute, J. Textile Assoc. India (in press).