Matthias Leschok
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View article: Material characterization and structural behaviour of HC3DP elements for lightweight facades
Material characterization and structural behaviour of HC3DP elements for lightweight facades Open
View article: Thermal and manufacturing properties of hollow-core 3D-printed elements for lightweight facades
Thermal and manufacturing properties of hollow-core 3D-printed elements for lightweight facades Open
View article: Large-Scale Hollow-Core 3D Printing: Variable Cross-Section and Printing Features for Lightweight Plastic Elements
Large-Scale Hollow-Core 3D Printing: Variable Cross-Section and Printing Features for Lightweight Plastic Elements Open
Hollow-core 3D printing (HC3DP) proposes a new method for the production of lightweight, material-efficient thermoplastic 3D printed elements. This new fabrication approach promises material savings of 50-80%, while increasing the extrusio…
View article: Challenges in modelling thermo-optical performance of 3D-printed facades: a cross-domain review
Challenges in modelling thermo-optical performance of 3D-printed facades: a cross-domain review Open
ISSN:2522-2708
View article: Large-scale hollow-core 3D printing (HC3DP): A polymer 3D printing technology for large-scale ultralightweight components
Large-scale hollow-core 3D printing (HC3DP): A polymer 3D printing technology for large-scale ultralightweight components Open
View article: Light Distribution in 3D-Printed Thermoplastics
Light Distribution in 3D-Printed Thermoplastics Open
Daylight distribution is an essential performance parameter for building facades that aim to maximize user comfort while maintaining energy efficiency. This study investigates the feasibility of using 3D-printed thermoplastic to improve da…
View article: Printing thermal performance: an experimental exploration of 3DP polymers for facade applications
Printing thermal performance: an experimental exploration of 3DP polymers for facade applications Open
The decarbonisation of the building sector requires the development of building components that provide energy efficiency while producing minimal environmental impact. We investigate the potential of polymer 3D printing (3DP) for the fabri…
View article: 3D printing facades: Design, fabrication, and assessment methods
3D printing facades: Design, fabrication, and assessment methods Open
View article: Tuning the Solar Performance of Building Facades through Polymer 3D Printing: Toward Bespoke Thermo‐Optical Properties
Tuning the Solar Performance of Building Facades through Polymer 3D Printing: Toward Bespoke Thermo‐Optical Properties Open
Façades are the primary interface controlling the flow of solar energy in buildings and affecting their energy balance and environmental impact. Recently, large‐scale 3D printing (3DP) of translucent polymers has been explored as a techniq…
View article: Parametric design of an additively manufactured building facade for bespoke response to solar radiation
Parametric design of an additively manufactured building facade for bespoke response to solar radiation Open
The building construction industry is adapting Additive Manufacturing (AM) and robotic fabrication techniques to, among other efficiency and cost benefits, reduce the lifecycle Green House Gas (GHG) emissions of new buildings. This researc…
View article: Dissolvable 3DP Formwork
Dissolvable 3DP Formwork Open
Additive manufacturing technology frees the designer and manufacturer from the constraints for creating formwork for castable materials.However, the removal of formwork remains a challenging task for specific geometric features such as und…
View article: 3D-Printed Formwork for Prefabricated Concrete Slabs
3D-Printed Formwork for Prefabricated Concrete Slabs Open
This research puts forward a pioneering construction method which uses 3D-printed formwork for casting or spraying concrete in any conceivable shape. 3D printing overcomes the geometric limitations of traditional methods for fabricating fo…
View article: Smart Slab. Computational design and digital fabrication of a lightweight concrete slab
Smart Slab. Computational design and digital fabrication of a lightweight concrete slab Open
The optimization of slab systems can have a large impact on buildings: more compact slabs allow for more usable space within the same building volume, refined structural concepts allow for material reduction, and integrated prefabrication …