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Thermomechanical properties of spot-bonded nonwoven synthetic-fiber materials

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The thermomechanical properties of spot-bonded nonwoven synthetic-fiber materials with a polymer binder have been investigated. The materials are composed of heterogeneous fibers, with low-melting polymers (binder) forming the surface layer. The change of deformation in uniaxial tension was studied from 20 to 150° C (rate of temperature increase 1.5° C/min) as a function of the nature of the fibers and the binder, their relative proportions, and the density and weight of the material. A theoretical explanation of the observed effects is offered.

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Mekhanika Polimerov, Vol. 4, No. 2, pp. 300–303, 1968

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Tikhomirov, V.B., Frolov, M.V. Thermomechanical properties of spot-bonded nonwoven synthetic-fiber materials. Polymer Mechanics 4, 237–240 (1968). https://doi.org/10.1007/BF00855626

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  • Polymer
  • Surface Layer
  • Temperature Increase
  • Relative Proportion
  • Uniaxial Tension