The research aims the development of knitted reinforcement structures for inducing self-diagnostic properties into knitted reinforced composites for structural health monitoring. Conductive carbon fiber was used in knitted inlaid structures as inlay yarns, and l × 1 Rib knitted base fabric of polyester filament yarn was used for knitting. The reinforcement’s conductive nature induced self-diagnostic properties into composites using correlation of mechanical damages and changes in electrical resistance values. Single and double stimuli layers and inlay patterns of 3 × 1, 6 × 1 and 9 × 1 was used to check their impact on self-diagnostic properties. Mechanical testing and real-time electrical resistance monitoring proved knitted structures as a solution to induce self-diagnostic properties into composite materials. Composites having double stimuli (conductive) layers exhibited better self-diagnostic properties than single stimuli layer composites, and the self-diagnostic properties also improved as the inlay pattern of reinforcement moved from 9 × 1 to 6 × 1 and 3 × 1 inlay. Such knitted reinforced self-diagnostic composites could be practically used in structural health monitoring applications, e.g., complicated structures of large buildings infrastructures and machinery which require record of each minor happening with structures to keep smooth and successful running of the system.
Knitted fabrics finds wide applications in functional/protective areas, as the advancements in textile Industry happens. These fabrics were famous for their stretchable structure and soft feel. This study investigates the mechanical performance, stability, and puncture of weft knitted structures with and without inlay yarns. Specimens were developed using Jute and Flax yarn as inlay yarn while Kevlar® (para-aramid) and polyester yarn as main yarn. Main and inlay yarn effect on tensile strength, elongation, stretch and recovery, and puncture resistance was characterized. The results reveal that mechanical performance and stability of fabric were significantly increased with inlay yarn in the course direction. On the other hand, expansion was greatly reduced, but higher growth was observed in rib specimens without inlay yarn.
Knitted fleece fabrics with superior comfort characteristics are chiefly focused in winter wear. Thermal characteristics are an area of interest in selecting fleece clothing. However, environmental hazards also need to be focused. Fleece clothing is worn in cold areas having higher ultraviolet rays exposures. Hence the clothing should have the capability of combating environmental challenges. The study focuses on engineering variable fleece structures with different materials. Cotton, nylon, and polypropylene fleece patterns have been knitted using fleece 1:1, 3:1, and 2:2 patterns. The designs vary by tuck and miss stitch configurations in the fleece course. Comfort characteristics were determined through air permeability, moisture management, and thermal resistance tests. Performance criteria were evaluated in terms of pilling resistance and ultraviolet protection factor (UPF) investigation. Structures and materials owing better comfort characteristics with satisfactory UPF have been predicted as safe clothing in UV affected zones, that is, fleece 3:1 possessed the optimum comfort characteristics and UPF simultaneously; however, the mechanical performance was better for 2:1 and 1:1 fleece fabric due to less amount of miss stitch floating yarns.
The need for innovative fabrics has rapidly increased in recent years, owing to their cost effective with good aesthetic and comfort properties. Seersucker fabrics are cost effective fabric structure with good aesthetic and comfort properties produced by modification in material or in fabric structures. The main purpose of this research work is to develop seersucker fabric on interlock machine through using different yarns and stripes height. Puckering effect on knitted fabric obtained using elastane covered yarn with simple cotton yarn and relaxation of elastane made the cotton yarn produce a puckering effect. Different seersucker fabrics were produced by changing tube size with the help of change in stripe height and using different yarn combinations on the back side (i.e. cotton covered elastane, spun polyester, and cotton) of the fabric. The seersucker knitted fabric were subjected to different tests such as mechanical testing that is fabric stretch, tactile comfort and thermophysiological comfort, that is, thermal resistance and air permeability test. The test results concluded that the seersucker interlock knitted fabric gives good comfort and aesthetic properties.
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