Study of an arm model for compression sleeve design and garment pressure measurement

Zhao, Lihuan; Yu, Jie; Zhang, Siyu; Li, Cuiyu

doi:10.1177/1558925019872656

Cited by 4 publications

(4 citation statements)

References 18 publications

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“…For compression type clothing, pressure comfort critical value is important, and it's mainly affected by many factors such as curvature of body surface, body fat, postures, external environments, extensibility and features of materials and ease allowance (Zhao et al , 2019; Zhe et al , 2018).…”

Section: Application and Evaluationmentioning

confidence: 99%

A design of wetsuit based on 3D body scanning and virtual technologies

Kuzmichev

2020

IJCST

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PurposeThe purpose of this paper is to present a method of digital twins of female bodies and the optimization of wetsuit patterns with the help of virtual technologies.Design/methodology/approachFirst, the new anthropometrical grouping of female torsos has been developed with 3D body scanning technology. Second, soft tissue deformation under the influence of typical diving postures and hydraulic pressure has been explored. Through real experiments, the relationship between textile material strain and body measurement changing has been applied to establish deformed digital twins of female bodies. Finally, during the evaluation of the virtual wetsuit test on digital twins through material strain and pressure values in CLO 3D, the optimized pattern of the wetsuit has been designed.FindingsThe experimental results show that the digital twins based on real data transformation are feasible and practical, and the process of establishing digital twins with 3D body scanning technology is valid and accurate.Originality/valueThe researches on the wetsuit of structure and body dynamic measurements still have many gaps existing in the real and virtual experiments. Thus the manuscript addresses these issues and provides the deformed digital twin for wetsuit pattern design for the first time. This study can be used for designing and optimizing the wetsuit and further improving the efficiency of manufacture and evaluation.

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Section: Application and Evaluationmentioning

confidence: 99%

A design of wetsuit based on 3D body scanning and virtual technologies

Kuzmichev

2020

IJCST

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“…Important aspects are the prediction the compression value [21] and its mathematical modeling [22]. The development of reliable full body scanning has provided a new tool for compression garment design [23] and the study of the interaction between the body and clothing fit in active positions [24]. The exploration of system "bodycompression garments" is the most important stage of compression garment design and this stage is less studied despite a lot of works in the area.…”

Section: Introductionmentioning

confidence: 99%

The Investigation of the geometry changes of body legs with compression stocking in static position

Kyzymchuk

Kyosev

Melnyk

et al. 2023

cdatp

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The high speed (4D) body scanning provides technical possibility for accurate measurements of the body geometry and can be applied not only for moving objects, but as well for evaluating the changes of static geometry with time. This information is important for compression socks, because it provides data regarding the relaxation processes of the textile product and of the human leg. In this work, changes of the body geometry after 1 and 4 hours with compression socks are investigated. Up to 9% changes of the cross section areas and up to 5.5% of changes of the circumference between the position at the starting point and after 4 hours are detected. Additionally the differences between the both legs of the investigated person and of the different (upper- and bottom) part of the leg are observed. It is the first step to the digitalization of the personal compression stocking design.

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“…It was found that the garment pressure of the dummy and that of a real human body had a linear relationship. 22 Zhao et al 23 developed an arm mannequin to substitute for the human body and further test the sleeve pressure. Moreover, Yang et al 24 presented a smart bionic and morphing leg mannequin with highly sensitive pressure sensor networks, providing precise pressure measurement for routine tests and individual customization of compression garments.…”

mentioning

confidence: 99%

“…22 Zhao et al. 23 developed an arm mannequin to substitute for the human body and further test the sleeve pressure. Moreover, Yang et al.…”

mentioning

confidence: 99%

Fabricated leg mannequin for the pressure measurement of compression stockings

Sun

Chen

et al. 2022

Textile Research Journal

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Different lower limbs and devices used for the contact pressure measurement of the compression stocking make a significant difference to the precise contact pressure value. This study aimed to fabricate a novel soft leg mannequin based on the standard-sized wooden leg mannequin, but closer to the human leg with soft tissue and bones and to evaluate further the performance of the fabricated leg mannequin. The contact pressure exerted by the graduated compression stocking was measured by the fabricated leg mannequin at four different locations along six different cross-sections. Comparing the contact pressure measured by the fabricated leg mannequin, the standard-sized wooden leg mannequin and human legs, the fabricated leg mannequin has a similar pattern to human legs, and contact pressure exerted by the wooden leg mannequin was far higher than that of human legs. In addition, the local contact pressure measured by the fabricated leg mannequin also has a remarkable agreement with that of human legs. Moreover, there was a signiﬁcant Spearman rank correlation between the contact pressure measured by the fabricated leg mannequin and the human leg. Therefore, the performance of the fabricated leg mannequin can be consistent with the human leg, which enables the fabricated leg mannequin to replace the standard-sized wooden leg mannequin for standard tests.

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Study of an arm model for compression sleeve design and garment pressure measurement

Cited by 4 publications

References 18 publications

A design of wetsuit based on 3D body scanning and virtual technologies

A design of wetsuit based on 3D body scanning and virtual technologies

The Investigation of the geometry changes of body legs with compression stocking in static position

Fabricated leg mannequin for the pressure measurement of compression stockings

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