Mangliár László

Research Projects
Architecture
student works

robotic_drawing_2019

Research Projects

Re_Shuffle

Re_Shuffle

The project investigates alternatives for timber waste upcycling via computational workflows and digital fabrication, to enable circular construction.

Project lead | prof. Markus M. Hudert, PhD.

2022 | Aarhus University

Department of Civil and Architectural Engineering | Aarhus University

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Reconcile

Reconcile

Framework for automated indoor climate and environmental impact assessment, an early stage design tool.

Project lead: prof. Lars V. Andersen PhD

2022 | Aarhus University

Department of Civil and Architectural Engineering | Aarhus University

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Architecture

Pop-Up Pavilion

The versatile pop-up pavilion with a lightweight, easily deployable timber-frame structure, served on many occasions, functioning as a pop-up shop, gallery, bar, or cafe.

2016 | Budapest

Hello Wood Design Studio | Budapest

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UrbanSurf

Urban Surf is an artificial surfing facility in the heart of the city. Surrounding the area with sea cliff-like architecture we created a secret beach.

2018 | Zürich

Hello Wood Design Studio | Budapest

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Vizslapark Pavilon

This organic pavilion is located in a central park of Zalaegerszeg in West-Hungary. The large, elliptical CLT roof lays on the forest of larch columns, surrounding the functional core, which features the kiosk and the public restroom.

2018 | Zalaegerszeg

Hello Wood Design Studio | Budapest

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Workstation Cabins

2019 | Budapest

Hello Wood Design Studio | Budapest

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Bagatellini Cafe

2016 | Budapest

Hello Wood Design Studio | Budapest

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Textura Restaurant

2016 | Budapest

Hello Wood Design Studio | Budapest

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Pop-up Park

2018 | Budapest

Hello Wood Design Studio | Budapest

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Hegyvidék Sign

The 12 meter long sculpture serves as a city sign is a of Hegyvidék, the 12th district of Budapest. The quality installation is assembled from CNC milled solid oak panels and clad with rusted steels sheets. The relief shows the terrain map of the 12th district highlighting some popular locations.

2019 | Budapest

Hello Wood Design Studio | Budapest

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Student Works

Farács

Inspired by temporary architecture, megastructures, and traditional joinery, I developed a construction set based on interlocking joints. The cross shaped modules formed from three oak beams can be assembled in many configurations.

thesis supervisor | prof. U. Nagy Gábor

2014 | Sopron, Budapest

Applied Art Insitute | Sopron

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LivingStone Project

I developed my MA degree project following my increasing curiosity in new digital tools and open-source, configurable architecture. The focus of the project was the development of an accessible generative design tool to create small house designs, functioning as shelters, kabins or tiny homes, ready to prefabrication and installation.‍

U. Nagy Gábor, Lipák Gábor

2014 | Sopron

Applied Art Insitute | Sopron

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Illuminating links

The Illuminati thesis project examines a new digital fabrication method for steel components. The result of the thesis is a prototypical steel component, which is a combination of a functional element and a sculptural object, inspired and informed by the manufacturing method. The thesis was further developed and implemented as the central joint of the Digital Bamboo Pavilion.

thesis supervisor | Marirena Kladeftina

2020 | ETH, MAS Dfab

ETH - D-Arch - ITA | MAS-Dfab-2019/2020

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Digital Bamboo Pavilion

The project combines the naturally grown material with digital fabrication. Using customized computational tools and bespoke 3D printed joints we realized a full-scale ultra-lightweight demonstrator pavilion. My main role in the project was the 3DP joint design, including the computational design tool development and the structural testing. The pavilion was installed in Zürich and in Venice.

project supervision | Marirena Kladeftira (Project lead), Matthias Leschok, Eleni Skevaki, Yael Ifrah, Davide Tanadini (Chair of Structural Design, ETH Zurich)

2020 | Zürich, Venice

ETH - D-Arch - ITA | Digital Building Technologies

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Rapid Clay Formations

Rapid clay formations explores novel ways of robotic additive manufacturing with clay. After small scale initial experiments, the method were scaled up for industrial robotic application. Working as part of the design group, we discoverd the behaviour of the material system and the technical constraints of the fabrication method. The learnings got enscripted in a parametric design tool, which in turn translated the geometry to fabrication data.

Supevisor | David Jenny (Project leader), Coralie Ming, Nicolas Feihl, Selen Ercan Jenny

2020 | ETH, MAS Dfab

ETH - D-Arch - ITA | Gramazio Kohler Research

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