Close Menu
AM ChronicleAM Chronicle
  • Content
    • News
    • Insights
    • Case Studies
    • AM Infocast
  • Focus Regions
    • India
    • Asia Pacific
    • Middle East
    • North America
    • Europe
  • Industries
    • Automotive
    • Aerospace
    • Defence
    • Energy
    • Construction
    • Healthcare
    • Tooling
    • Engineering
  • Training
  • Magazine
    • Digital Issues
    • Print Subscription
  • Events
Facebook Instagram YouTube LinkedIn
  • About us
  • Media Kit
  • Contact us
Facebook Instagram YouTube LinkedIn
AM ChronicleAM Chronicle
  • Content
    1. News
    2. Insights
    3. Case Studies
    4. AM Infocast
    5. View All
    3D Systems Closes Systemic Bio, Founder Continues Mission

    3D Systems Closes Systemic Bio, Founder Continues Mission

    July 26, 2025
    Kre8+ Unveils Advanced Manufacturing Capabilities at Recent Colloquium

    Kre8+ Unveils Advanced Manufacturing Capabilities at Recent Colloquium

    July 25, 2025
    The 3D Printed Schools Project is expected to be completed by the end of 2025

    Qatar to Construct World’s Largest 3D-Printed Building

    July 14, 2025
    Qatar Unveils Largest 3D-Printed Boat by GORD 3D, Credits: GORD 3D

    Qatar’s Largest 3D-Printed Boat Manufactured at GORD 3D Center

    July 4, 2025
    Digital Twin Integration in Additive Manufacturing Systems: Revolutionizing Design, Production, and Lifecycle Management

    Digital Twin Integration in Additive Manufacturing Systems: Revolutionizing Design, Production, and Lifecycle Management

    July 4, 2025
    LACS equipment set-up to add a coating to repair a panel aircraft wing

    Laser-assisted cold spray: a new generation of innovative manufacturing technology

    July 3, 2025
    Oerlikon Reaches 25,000 3D-Printed Suppressors Milestone, Advancing Next Generation Defense Applications, Credits: Oerlikon

    Oerlikon Reaches 25,000 3D-Printed Suppressors Milestone, Advancing Next Generation Defense Applications

    June 24, 2025
    ArianeGroup and Nikon SLM Solutions Join Forces to Advance Ultra-Large-Scale Additive Manufacturing for Space Applications

    ArianeGroup and Nikon SLM Solutions Join Forces to Advance Ultra-Large-Scale Additive Manufacturing for Space Applications

    June 21, 2025
    Formlabs fuse 1+

    How Imaginarium Helped Kaash Studio Scale with the Right 3D Printing Technology

    April 12, 2025
    The Formlabs Fuse 1+ 30W

    Kaash Studio Optimized Service Bureau Operations with Formlabs 3D Printers- Case Study

    January 30, 2025
    Namthaja Unveils Worlds First 3D Printed Marine Gangway

    Worlds First 3D Printed Marine Gangway unveiled by Namthaja

    August 8, 2024
    RusselSmith Material Performance Improvement Whitepaper

    RusselSmith Whitepaper : Improving Material Performance with Microstructural Refinement

    May 9, 2024
    Sustainable Production of Metal Powder for Additive Manufacturing

    Sustainable Production of Metal Powder for Additive Manufacturing with Bruce Bradshaw

    February 15, 2024
    Meeting Evolving Customer Demands in the Additive Manufacturing Industry with Tyler Reid

    Meeting Evolving Customer Demands in the Additive Manufacturing Industry with Tyler Reid

    February 9, 2024
    Innovation is at the heart of AMUG with Diana Kalisz

    Innovation is at the heart of AMUG with Diana Kalisz

    March 7, 2023
    3D Printing Workshops at AMUG with Edward Graham

    3D Printing Workshops at AMUG with Edward Graham

    March 7, 2023
    3D Systems Closes Systemic Bio, Founder Continues Mission

    3D Systems Closes Systemic Bio, Founder Continues Mission

    July 26, 2025
    Kre8+ Unveils Advanced Manufacturing Capabilities at Recent Colloquium

    Kre8+ Unveils Advanced Manufacturing Capabilities at Recent Colloquium

    July 25, 2025
    The 3D Printed Schools Project is expected to be completed by the end of 2025

    Qatar to Construct World’s Largest 3D-Printed Building

    July 14, 2025
    Digital Twin Integration in Additive Manufacturing Systems: Revolutionizing Design, Production, and Lifecycle Management

    Digital Twin Integration in Additive Manufacturing Systems: Revolutionizing Design, Production, and Lifecycle Management

    July 4, 2025
  • Focus Regions
    • India
    • Asia Pacific
    • Middle East
    • North America
    • Europe
  • Industries
    • Automotive
    • Aerospace
    • Defence
    • Energy
    • Construction
    • Healthcare
    • Tooling
    • Engineering
  • Training
  • Magazine
    • Digital Issues
    • Print Subscription
  • Events
Subscribe
AM ChronicleAM Chronicle
Home » News

Researchers from Seoul National University use FDM type 3D printer to develop fashion products

News By AM Chronicle EditorFebruary 7, 20197 Mins Read
40691 2018 162 Fig6 HTML
3D printed skirt
LinkedIn Twitter Facebook WhatsApp Pinterest Email Copy Link

While 3D printing is certainly playing a noble role in numerous industries today—from the creation of medical devices that help babies survive to rocket engines nozzles built by NASA—most of us are fascinated by the strides made in fashion (a girl has gotta have a nice dress to wear to the party after all!), and enjoy the contagious enthusiasm of designers of all ages and experiences levels exploring new technology to make bold statements. Student designs and haute couture aside though, is 3D printing actually doing the fashion industry any good?

Sohyun Kim, Hyunjin Seong, Yusun Her, and Jaehoon Chun, all hailing from the Department of Textiles, Merchandising and Fashion Design at Seoul National University in Seoul, South Korea, explored the progress of fashion in ‘A study of the development and improvement of fashion products using a FDM type 3D printer.’ While acknowledging the role of 3D printing in fashion, the research team asserts that progress has been slow in comparison to other industries, and they set out to find solutions for this disparity, including fabricating clothes themselves to determine the best ‘complementary measures’ to use.

For this project, the team used an FDM printer to make three different sets of clothing using either TPU or ABS. In evaluating their creations and continuing to explore ways to improve, they considered:

  • Materials limitations
  • 3D modeling programs
  • 3D printing issues
  • Manufacturing processes
  • Wearing processes

“Based on this research, it is expected that more diverse and active attempts to utilize 3D technology will be pursued by those who develop various fashion products,” explained the authors in their abstract.

Citing limitations in materials as a key factor in the slower progress of fashion in 3D printing, the authors state that more research has been performed so far in regard to accessories like jewelry instead of actual clothing. Along with that, FDM printers have mainly only been used to create fashion partially affected by 3D printing, or with attached accessories:

“Thus, in this study, three full-size clothing are manufactured using a FDM type 3D printer, with the aim of analyzing the limitations of the process and suggesting ways to mitigate them,” state the authors.

The team designed several pieces to be completely 3D printed, working from a geometrical motif. For modeling, they relied on Rhinoceros 5.0 and Grasshopper, with Cubicreator 2.5 R3 as a conversion program. Two entry-level FDM 3D printers were used: The Cubicon Single and the Cubicon Style. The researchers also experimented with ABS and TPU filaments.

printers

a Cubicon Single (left), b cubicon style (center), c filaments (ABS & TPU) (right)

The three different designs used were that of rectangles for the first, triangles for the second, and circles for the third.

In creating the first design, the team explored whether it was possible to 3D print quality clothing without the use of sewing. Inspired by the work of minimalist artist, Donald Judd, they chose repetitive rectangles as a design, and then the same patterns over and over to produce the desired shape.

“Rhinoceros was used as a modeling program for Design 1. Design 1 was based on the shape of the cross that is formed with two rectangles, 41 * 7 mm in size (W * D), and the height was designed to be 3 mm to give a three-dimensional effect,” stated the researchers. “The cross patterns that form the base are connected through hinges with 5 mm spaces between them. The hinges were modeled to be detachable, with a hole on a fixed plane through which a cylinder fits inside.”

basic model

Basic unit modeling (left), b Hinge modeling 1 (center), c Hinge modeling 2 (right)

TPU was used in this design, and the print job (using the Cubicon Single) took two hours and 33 minutes.

modeling 2

Basic unit modeling (left), b Hinge modeling 1 (center), c Hinge modeling 2 (right)

The design was inspired by nature: the spider’s web. The team made an impressive design ‘created by disassembling and reforming triangles.’ Innerwear was required due to the revealing nature of the design, and according to the designers they were inspired for that portion of the piece as they imagined petals trapped in the web.

spider dress

necklace

3D printed necklace of Design 2 (left), b closure shape of necklace (right)

The dress required 492 basic triangles and 34 six-layered triangles, with the first set taking three minutes to print, and the layered ones requiring around 24 minutes.

head gear

Head gear for the third design

The third design was created with Rhinoceros and Grasshopper to model the base unit pattern, and then the 3D printed pieces were connected manually. The inspiration was that of a medieval knight helmet with ‘circular chain structure.’ Embracing the military style, the team chose ABS as the material of choice due to its ‘powerful physical property.’ They also chose a knit structure for the dress to embrace the natural curves of the wearer.

“This design was developed to ascertain if it would be possible to make clothing with only 3D printed materials,” stated the research team.

The Cubicon Style 3D printer was used to create the circular structures, with a total printing time of five hours, and five minutes. The units were assembled manually, connecting the 3D printed rings.

3 design

a 3D pattern modeling (left), b grasshopper algorithm (right)

dress

3D printed dress of Design 3

Upon analyzing their work, the research team conceded that printing with the chosen materials on an FDM 3D printer was challenging. They found a variety of different challenges with both ABS and TPU from issues with too much post-processing required (ABS) to difficulty in removing supports after 3D printing (TPU). There were also issues with clogging, sticking in use with TPU and problems regarding breakage with ABS.

They also found that FDM 3D printing led to increases in the amount of output due to size limitations, along with longer output times.

“Printing a single unit of a basic pattern takes a minimum of 30 min and printing an entire piece of clothing requires multiple printout processes, consuming much time and effort. Therefore, in this study, we tried to simplify the design and the pattern, and to model them without support as much as possible to minimize errors and time,” stated the researchers.

Their findings showed that indeed, improvement in materials is necessary. They also suggested that 3D printers should be more streamlined and efficient in preventing clogging and sticking. Along with that, they suggest better modeling programs. The team suggested that those creating fashion via 3D printing should experiment with a variety of different manufacturing processes. Post processing was definitely a ‘sticky’ point with the team too, as they recommend more study of post-treatment steps.

“During the process of this study, due to limitations on printing methods and materials, the difficulty in making wearable clothing with only 3D printout was revealed. Thus, fabric was used together for the production of clothing to supplement such limitations,” concluded the researchers. “However, if the development of material and printing methods and the subsequent studies on various motifs and connection methods continue, the introduction of the 3D printing method to the fashion industry will be accelerated. This will have an innovative impact on efficiency.”

“In addition, if a wearing test frame, including elements such as ease of operation and foreign body sensation, is provided, it is expected to help the 3D printed clothing into practical use. We hope that the utilization of 3D printing technology will increase in the field of fashion and that many follow-up studies will be conducted based on the findings of this study.”

Source: 3dprint.com

e22cc466a6e7392fb7e2617b2e35c0d1?s=120&d=mp&r=g
AM Chronicle Editor
3d printing additive manufacturing Cubicon Style fashion products FDM printer FDM type 3D printer I3DPn Indian 3D Printing Network Seoul National University SNU Researchers
AM Chronicle Editor

NAMIC GLOBAL AM SUMMIT 2025
LATEST FROM AM
3D Systems Closes Systemic Bio, Founder Continues Mission News

3D Systems Closes Systemic Bio, Founder Continues Mission

July 26, 20252 Mins Read
Kre8+ Unveils Advanced Manufacturing Capabilities at Recent Colloquium News

Kre8+ Unveils Advanced Manufacturing Capabilities at Recent Colloquium

July 25, 20251 Min Read
The 3D Printed Schools Project is expected to be completed by the end of 2025 News

Qatar to Construct World’s Largest 3D-Printed Building

July 14, 20252 Mins Read

CONNECT WITH US

  • 126 A, Dhuruwadi, A. V. Nagvekar Marg, Prabhadevi, Mumbai 400025
  • [email protected]
  • +91 022 24306319
Facebook Instagram YouTube LinkedIn

Newsletter

Subscribe to the AM Chronicle mailer to receive latest tech updates and insights from global industry experts.

SUBSCRIBE NOW

Quick Links

  • News
  • Insights
  • Case Studies
  • AM Training
  • AM Infocast
  • AM Magazine
  • Events

Media

  • Advertise with us
  • Sponsored Articles
  • Media Kit

Events

  • AM Conclave 2025
    24-25 September 2025 | ADNEC, Abu Dhabi
  • AMTECH 2025
    3-4 December 2025 | KTPO, Whitefield, Bengaluru
CNT Expositions & Services LLP
© 2025 CNT Expositions & Services LLP.
  • Privacy Policy
  • Cookie Policy

Type above and press Enter to search. Press Esc to cancel.



0 / 75