JW
Jasmine Wong
info
Please Note
<p>This page displays the records of the person named above and is not linked to a unique person identifier. This record may need to be merged to a profile.</p>
2 records found
1
3D Printing with Bamboo
An Early-Stage Exploration Towards Its Use in the Built Environment
Along with the circular bioeconomy principles, alternative ways of utilizing biomass waste streams are considered viable approaches to reaching sustainability goals. Accordingly, a growing body of literature is exploring new materials utilizing biomass in 3D-printing applications. This article presents early-stage research that initially investigates the usability of bamboo fibers and dust with bio-based binders in 3D printing towards its use in the design and production of the built environments. The research delves into solutions through a material tinkering approach to develop a bio-based composite material that can be used in fused deposition modeling (FDM). It includes mechanical strength analyses of printed specimens to understand the effects of different infill designs on the structural performance of objects printed using bamboo-based composite. Then, it demonstrates a design-to-production workflow that integrates a mechanically informed infill pattern within a self-supporting wall design that can be produced by 3D printing with bamboo. The workflow is presented with a partial demonstrator produced through robotic 3D printing. The article concludes with discussions and recommendations for further research.
...
Along with the circular bioeconomy principles, alternative ways of utilizing biomass waste streams are considered viable approaches to reaching sustainability goals. Accordingly, a growing body of literature is exploring new materials utilizing biomass in 3D-printing applications. This article presents early-stage research that initially investigates the usability of bamboo fibers and dust with bio-based binders in 3D printing towards its use in the design and production of the built environments. The research delves into solutions through a material tinkering approach to develop a bio-based composite material that can be used in fused deposition modeling (FDM). It includes mechanical strength analyses of printed specimens to understand the effects of different infill designs on the structural performance of objects printed using bamboo-based composite. Then, it demonstrates a design-to-production workflow that integrates a mechanically informed infill pattern within a self-supporting wall design that can be produced by 3D printing with bamboo. The workflow is presented with a partial demonstrator produced through robotic 3D printing. The article concludes with discussions and recommendations for further research.
Additive Manufacturing with Bamboo
Mechanically Informed Infill Wall Made with Bamboo Dust and Fibers
This paper explores the use of bamboo in Additive Manufacturing (AM), specifically towards the development of a building component. The presented study uses bamboo in the form of dust and fibers, which can be sourced from waste streams. This innovative approach not only offers a solution to the challenges of bamboo’s anatomy but also has the potential to use bamboo in a more circular way. With this approach, rather than being discarded at the end of its life cycle, bamboo products can be recycled and transformed into valuable powder and fibers, granting them a second life. By leveraging the benefits of additive manufacturing technology, such as reduced material waste and the ability to fabricate complex geometries, the design aimed to create a mechanically informed infill tailored to the loading condition of the building component. After use, the component can be re-introduced into a new mixture to be used in a new AM application, enabling circular use. The project involves a comprehensive workflow, including material research, design development exploration, manufacturing process exploration and prototyping.
...
This paper explores the use of bamboo in Additive Manufacturing (AM), specifically towards the development of a building component. The presented study uses bamboo in the form of dust and fibers, which can be sourced from waste streams. This innovative approach not only offers a solution to the challenges of bamboo’s anatomy but also has the potential to use bamboo in a more circular way. With this approach, rather than being discarded at the end of its life cycle, bamboo products can be recycled and transformed into valuable powder and fibers, granting them a second life. By leveraging the benefits of additive manufacturing technology, such as reduced material waste and the ability to fabricate complex geometries, the design aimed to create a mechanically informed infill tailored to the loading condition of the building component. After use, the component can be re-introduced into a new mixture to be used in a new AM application, enabling circular use. The project involves a comprehensive workflow, including material research, design development exploration, manufacturing process exploration and prototyping.