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1
Content available remote Frictional Sound Analysis by Simulating the Human Arm Movement
EN
Fabric noise generated by fabric-to-fabric friction is considered as one of the auditory disturbances that can have an impact on the quality of some textile products. For this reason, an instrument has been developed to analyse this phenomenon. The instrument is designed to simulate the relative movement of a human arm when walking. In order to understand the nature of the relative motion of a human arm, films of the upper half of the human body were taken. These films help to define the parameters required for movement simulation. These parameters are movement trajectory, movement velocity, arm pressure applied on the lateral part of the trunk and the friction area. After creating the instrument, a set of soundtracks related to the noise generated by fabric-to-fabric friction was recorded. The recordings were treated with a specific software to extract the sound parameters and the acoustic imprints of fabric were obtained.
2
Content available remote Development of Knitted Materials Selection for Compression Underwear
EN
The presented research deals with the development of comfortable male underwear taking into account the development of pattern block methods and the analysis of the relationships existing between the compression pressure, the knitted materials properties, and some push-up effects. The main aim of this study is to achieve the technical selection of the materials based on KES-FB evaluations. The ease value has been used as the main index to connect the structural design of underwear, on one hand, and the body sizes, on other hand. A “bodyshell” system for testing the soft tissue of male bodies by FlexiForce sensor has been implemented. The pressures under the shells at six different places on the male body with ease changing have been tested. The collected results including maximum-possible pressure and material tensile indexes measured thanks to KES-FB have been analyzed in order to find the most relevant indexes of the material properties. A mathematical equations based on relationships combining theoretical model with practical application have been established. These equations will be helpful for the consumers and designers to select “the suitable knitting materials for male underwear” and they can be used too in the perspective of parameterization in CAD, in order to improve product developments efficiency.
3
Content available remote Human-Friendly Design of Virtual System “female body-dress”
EN
Recently, the development efforts focused on the computer simulation of garments, which depend on the material's physico-mechanical properties. It intends to achieve the best possible and realistic simulations of garments, which are available for pressure prediction. In this manner, 3D garment virtual technology improvements allow the visualization of pressure areas with values where the fabric might be too tight against the body. Although the purposes of simulation graphics were acceptable, the accuracy for apparel shaping is not enough to meet the needs of Virtual Prototyping and CAD utilization especially while the fabric properties system design was inadequate. Moreover, the existing pressure simulation is intended to simply predict the pressure index or how the textile deformation extend, which are deficient in real human's perception. In this research, the 3D shapes belonging to typical female bodies and dresses made of different fabrics were obtained by 3D body scanners (ScanWorX and TELMAT). Through reconstruction for the 3D torso shapes, the volumetric eases between body and dress were calculated by means of a software Rhinoceros. A new approach for the selection of textile properties based on the Kawabata Evaluation System (KES) was proposed to investigate its relations with dress shaping and pressure comfort. Finally, fabric properties tested by the KES-F system were compared with volumetric eases, objective pressure indexes and subjective comfort scores to reveal the relations how the fabric properties have impacts on dress outside shaping and inside pressure comfort of a female body. In this manner, the human-friendly CAD instead of mechanical approach existing before has been presented as a new approach to promote the construction of a realistic system for the 3D simulation optimization.
EN
During daily oral health care, dental surgeons are in contact with numerous potentially infectious germs from patients’ saliva and blood. Appropriate personal protection equipment should be chosen to mitigate these risks, but the garment must also be comfortable and not hamper activities. This paper presents our research work on optimised working clothing for dentists and discusses some important points in the functional design. Following a consumer study on how users wear the garment and what are their expectations, three main functions were investigated: protection, ergonomics and thermal comfort. Aesthetic appearance was also taken into consideration as it is necessary that the wearer should feel appropriately and attractively dressed in the context of health care. Concerning protection, spray tests in real conditions helped us to localise the potential contamination areas on the garment and led us to select a three-layered material that is protective and breathable enough. However, this part of the garments made from these fabrics exhibited low thermal comfort and the wearer felt some discomfort. In terms of ergonomics, instrumented garments were worn and pressure measurements were taken. The results highlight that a special shape and raglan sleeves should be selected for a better dynamic comfort. Concerning thermal comfort, an infrared camera was used to detect warm zones of the garment where heat and moisture transfers should be enhanced. Breathable, stretchable and shape-retaining knitted fabric that is usually used for sportswear was selected. These fabrics were strategically placed as low and high vents to promote a chimney effect, which minimises retention of heat and humidity inside the garment. The usual PES/cotton fabric was selected for the rest of the gown. Based on these results, a new gown has been proposed. Through fitting tests conducted in a hospital on 25 dentists, it was revealed that the new design was highly appreciated, particularly on the ergonomic structure of the sleeves and thermal comfort of breathable zones. However, some points can be further improved, such as durability of the PES/cotton fabric, the neck length or the shape of ‘breathable zones’. The final product will be produced based on necessary improvements.
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