Indian Journal of Fibre & Textile Research

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Optimisation of application of Acid Protease and Transglutaminase on wool to achieve machine washable care claim


Affiliations
1 Department of Textile Technology, Dr B R Ambedkar National Institute of Technology, Jalandhar 144 011, India

Acid Protease and Transglutaminase enzymes were used to impart anti-felting properties to wool with minimal loss in tensile strength. Statistical optimisation of the application conditions using Box Behnken design of experiment was employed to achieve less than 3% total warp shrinkage as specified in Woolmark Specification AW-1 for machine washable care claim. During optimisation of protease treatment, the total warp shrinkage was reduced from 7.66% to 2.77% but was accompanied with 9.95% loss in warp tensile strength. Subsequently, optimisation of transglutaminase enzyme was carried out on protease treated wool. This resulted in marginal reduction of total warp shrinkage to 2.64% with 7.92% recovery in warp tensile strength giving a net loss of 2.82% in warp tensile strength.

Keywords

Acid protease, anti-felting, enzyme, machine washable, shrink-resist, transglutaminase, wool
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  • Optimisation of application of Acid Protease and Transglutaminase on wool to achieve machine washable care claim

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Authors

Pavittar Punit Singh Madān
Department of Textile Technology, Dr B R Ambedkar National Institute of Technology, Jalandhar 144 011, India
J N Chakraborty
Department of Textile Technology, Dr B R Ambedkar National Institute of Technology, Jalandhar 144 011, India

Abstract


Acid Protease and Transglutaminase enzymes were used to impart anti-felting properties to wool with minimal loss in tensile strength. Statistical optimisation of the application conditions using Box Behnken design of experiment was employed to achieve less than 3% total warp shrinkage as specified in Woolmark Specification AW-1 for machine washable care claim. During optimisation of protease treatment, the total warp shrinkage was reduced from 7.66% to 2.77% but was accompanied with 9.95% loss in warp tensile strength. Subsequently, optimisation of transglutaminase enzyme was carried out on protease treated wool. This resulted in marginal reduction of total warp shrinkage to 2.64% with 7.92% recovery in warp tensile strength giving a net loss of 2.82% in warp tensile strength.

Keywords


Acid protease, anti-felting, enzyme, machine washable, shrink-resist, transglutaminase, wool