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Further reading
Gutauskas, M., Masteikaite, V., Kolomejec, L., 2000. Estimation of fused textile systems
shrinkage. Int. J. Cloth. Sci. Technol. 12 (1), 63–72.
Jevšnik, S., Jelka Geršak, J., 1998. Objective evaluation and prediction of properties of a fused
panel. Int. J. Cloth. Sci. Technol. 10 (3/4), 252–262.
Jevšnik, S., Jelka Geršak, J., 2001. Use of a knowledge base for studying the correlation be-
tween the constructional parameters of fabrics and properties of a fused panel. Int. J. Cloth.
Sci. Technol. 13 (3/4), 186–197.
Jevšnik, S., Vasiliadis, S., Bahadir, S.K., Grujić, D., Stjepanovič, Z., 2016. Applying heat
for joining textile materials. In: Ishak, M. (Ed.), Joining Technologies. InTech. ISBN
9789535125969.
Jones, J., 2013. The use of heat sealing, hot air and hot wedge to join textile materials. In:
Jones, J., Stylios, G.K. (Eds.), Joining Textiles. Woodhead, Cambridge. ISBN
9781845696276.
Kim, S.J., Kim, K.H., Lee, D.H., Bae, G.H., 1998. Suitability of nonwoven fusible interlining to
the thin worsted fabrics. Int. J. Cloth. Sci. Technol. 10 (3/4), 273–282.
Lai, S.-S., 2001. Optimal combinations of face and fusible interlining fabrics. Int. J. Cloth. Sci.
Technol. 13 (5), 322–338.
Nemes, I., 2016. Fabric shrinkage fusing material as the reason of raised material consumption,
V Naučno stručni skup “Tendecija razvoja i inovativni pristup u tekstilnoj industriji—
Dizajn, tehnologija i menadžment”, Serbia, Beograd, June 10, 2016.
Phebe, K., Krishnaraj, K., Chandrasekaran, B., 2014. Evaluating performance characteristics of
different fusible intertinings. Indian J. Fibre Text. Res. 39, 380–385.
Yoon, S.Y., Park, C.K., Kim, H.S., 2010. Optimization of fusing process conditions using the
Taguchi method. Text. Res. J. 80 (11), 1016–1026.
