Y. Chen scite author profile

When fabrics are coated, their deformation behaviour ehanges eonsiderably. The tensile, shear, and bending properties of four typical coated fabrics have been measured using the FAST system and an Inslron tensile machine. The fabrics were measured before coating, after eoating and after subsequent stretching or shearing treatment. Empirical polynomial functions were fitted lo the experimental load-extension curves to allow the calculation of strain energies for comparison purposes. Mechanieal treatment in the form of stretching or shearing partly restored the original fabrie properties and so might be beneficial In apparel applications. INTRODUCTIONEarly research [11 on the deformation behaviour of coated fabrics had as its aim the development of suitable measurement techniques, much of the interest concentrating on hovercraft skirt materials and their strength. Recently, the use of coated fabrics in garments has increased, particularly for clothes with a special performance need, such as to be waterproof, flame-resistant, etc. Improving the handle and drape of these materials has grown in importance with their increasing use.It is well known that fabrics become stiff and papery after coating. Their handle and drape properties deteriorate, mainly because the material of the coating fills the spaces between the yams and cements the warp and weft threads together. The mechanical behaviour of the yarns is changed and relative rotation of the yarns at interlacings is inhibited. The coating material itself has a specific response to applied load. These effects make a theoretical description of the deformation mechanism (structural mechanics) of coated fabrics difficult to achieve.In the present work a physical approach is taken in attempting to change the properties of coated fabrics, to obtain properties closer to the original properties of the uncoated fabrics. The intention is to reduce the internal constraints on the yarns (improved by the coating) through the application of simple mechanical treatments.The present work is part of a research project concentrating on investigating the feasibility of the FAST instruments to measure a wide range of apparel fabrics currently used by clothing manufacturers in the UK. Here an initial study is reported only, because a limited number of coated fabrics were involved in the experiment. The aim of the work is to examine the effect of coating materials on original mechanical properties of fabrics, and to demonstrate the utility of simple mechanical treatments in improving the mechanical properties associated with handle and drape in coated fabrics used for apparel applications.

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The effect of lanthanide contraction on grain growth in lanthanide-doped BaTiO3

Xue

Chen

Brook

1988

J Mater Sci Lett

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The kinetics of hot-pressing for undoped and donor-doped BaTiO3 ceramics

et al. 1990

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The kinetics of hot-pressing for undoped and donor-doped BaTiO3 of high purity have been studied at 1050~ and at 2.3 to 27.6 MPa in an oxidizing atmosphere. The stress exponent and grain size exponent of the densification rate are indicative of control of densification by a grain boundary diffusion mechanism. The activation enthalpy (,~ 400 kJ mo1-1 ) for the densification process has been measured over the range of 1050 to 1200 ~ No significant influence of the donor is observed on the densification of BaTiO3 until the late stages of sintering.

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Energy-based analysis of milling α-lactose monohydrate

Chen

Ding

Papadopoulos

et al. 2004

Journal of Pharmaceutical Sciences

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Y. Chen

The influence of ionic radii on the incorporation of trivalent dopants into BaTiO3

Mechanical Characteristics of Coated Fabrics

The effect of lanthanide contraction on grain growth in lanthanide-doped BaTiO3

The kinetics of hot-pressing for undoped and donor-doped BaTiO3 ceramics

Energy-based analysis of milling α-lactose monohydrate

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