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Studies on the hydro-thermal and viscoelastic properties of leather

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posted on 2014-12-15, 10:37 authored by Sujeevini Jeyapalina
This thesis mainly reports the dynamic mechanical behaviour of leather within the temperature region of -100°C and 300°C, where three major viscoelastic transition were identified, termed alpha, beta and gamma. The beta transition peak represents the glass transition temperature of the amorphous region of collagen molecules. It was also shown that tanning agents act as plasticisers and depress the glass transition temperature to a lower temperature. Thus the tanning process itself may be viewed as a plasticisation of the collagen molecule. In this event, tanning molecules interpose themselves between the collagen chains, thus reducing the forces holding the chain together. Different tanning agents show differing degrees of plasticisation. The effect of water on the viscoelastic transitions of leather was also investigated. It was shown that leather remains in a transitional viscoelastic region between -50 and 70°C regardless of the moisture content of a sample. This imparts unique properties to leather. Initially, the absorbed water molecules act as a plasticiser and depress viscoelastic transitions to a lower temperature region. Depending on the leather type, above a certain percentage of absorbed water splitting of the glass transition peak is observed. This may be due to a preferential hydration of certain hydrophilic amino acid residues leading to separation of the transitions due to hydrophobic and hydrophobic amino acid residues. It was demonstrated that the rate of stress relaxation is temperature dependent and the stress relaxation property of leather above and below the glass transition differs greatly. Two critical temperatures related to heat setting were identified, which may be termed the critical and the optimum temperature. The critical temperature is the temperature above which the set increases markedly and has been positively identified as the glass transition temperature. Finally, changes in the dynamic modulus during the drying of leather revealed information concerning the nature of the moisture-leather relationship at the critical stages accompanying drying. It was concluded that leather undergoes three different phases during drying where only the final phase is related to the final stiffness of the leather.


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Awarding institution

University of Leicester

Qualification level

  • Doctoral

Qualification name

  • PhD



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