The application of 3D printing technology for developing a lumbar support garment for obese women

Park, Seiyoung; Kim, Dong-Eun

doi:10.1177/00405175221125944

Textile Research Journal

2022

DOI: 10.1177/00405175221125944

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The application of 3D printing technology for developing a lumbar support garment for obese women

Seiyoung Park

Dong-Eun Kim

Abstract: The purpose of this study was to develop a lumbar support garment, using three-dimensional (3D) printing technology, that has a good fit and great aesthetics for obese women in their 30s and 40s. To this end, a survey was conducted to investigate consumers’ satisfaction with commercially available lumbar supports. One participant with class 2 obesity, aged between 30 and 49 years, with previous experience of back pain and wearing a lumbar support, was selected for the 3D body scanning procedure. A lumbar suppo… Show more

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2024

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Cited by 2 publications

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Fabrication and mechanical evaluation of lattice structures for developing a lumbar support brace

Park,

Kim

2024

Journal of Industrial Textiles

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This study aims to explore and select a sample of three-dimensional (3D) printed lattice structures suitable for fabrication of a lumbar brace. In particular, the study compared honeycomb, gyroid, and X-shape lattice structures. Thirty-six samples with two thicknesses, two pattern repeats, three lattice structures, and three 3D printing manufacturing methods and material variables were fabricated to evaluate tensile strength, flexural strength, weight, and density. Mechanical evaluation revealed that the tensile and flexural strengths of the honeycomb structure were higher than those of other structures. In addition, the fused deposition modeling (FDM) method using thermoplastic polyurethane (TPU) material had higher tensile and flexural strengths compared with the other two printing methods and materials. The honeycomb structure weighed the most, followed by the X-shape and gyroid structures. The sample made of PolyJet method with Agilus material showed higher values of weight and density than the other samples. Based on the experimental results, it is considered that TPU material, FDM, and selective laser sintering printing methods are suitable for production of the lumbar support brace because it is flexible and allows body movement but has moderate strength and density. By adjusting the pattern repeat and thickness of the lattice structure variable, we can determine the structure that is most suitable for lumbar support. Considering the lightweight requirements of lumbar support, future studies should devise ways to improve the lightweight properties of samples.

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Fabrication and mechanical evaluation of lattice structures for developing a lumbar support brace

Park,

Kim

2024

Journal of Industrial Textiles

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Understanding the User Experience of Lumbar-Support-Assistive Devices in Lower-Back Pain Patients: Design Recommendations

Chen,

Zhang,

Zhang

et al. 2024

Applied Sciences

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A positive user experience is crucial for enhancing user adherence throughout the utilization of lumbar-support-assistive devices (LSAD). However, there is a lack of research for optimal user experience with LSAD in the existing literature. Therefore, this study aims to explore how patients with lower-back pain use LSAD and assess their satisfaction and overall experience. Based on this, we aim to provide design improvement recommendations for LSAD to researchers in the relevant field. Through in-depth interviews with 14 LSAD users, key themes were identified using reflexive thematic analysis. The results indicate that participants were “somewhat satisfied” with the overall experience with their LSAD. The key factors influencing the LSAD-wearing experience were: (1) key design challenges in improving LSAD (stability, fit and, comfort), (2) providing necessary assistance (potential barriers and prompts), and (3) individualizing needs and balance of design (aesthetics, dimensions, safety, and cleanliness). All participants reported that poor stability, fit, and comfort of LSAD were the main reasons for an adverse experience. It is worth noting that users may encounter potential barriers when initially using LSAD. Furthermore, younger participants perceived pressure related to appearance and expressed concerns about the exposure of their health privacy during social interactions involving the LSAD. Based on these findings, we have proposed a set of comprehensive LSAD design-improvement recommendations, which serve as a foundational reference for future improvements.

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The application of 3D printing technology for developing a lumbar support garment for obese women

Cited by 2 publications

References 16 publications

Fabrication and mechanical evaluation of lattice structures for developing a lumbar support brace

Fabrication and mechanical evaluation of lattice structures for developing a lumbar support brace

Understanding the User Experience of Lumbar-Support-Assistive Devices in Lower-Back Pain Patients: Design Recommendations

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