Extrusion System

Open Source Technology

Extrusion System

Open Source Technology

 

Extrusion System

Open Source Technology

Extrusion System

Open Source Technology

 Extrusion System

Open Source Technology

Date:

Funding:

Client:

Where to find it:

What:

Photography:

Date:

Client:

Funding:

Where to find it:

What:

Photography:

Date:

Client:

Funding:

Where to find it:

What:

Photography:

2018

Open Maker

Open Source Community

Wikifactory

Open Source extruder

Jetclay

 

2018

Open Source Community

Open Maker

Wikifactory

Open Source extruder

Jetclay

 

2018

Open Source Community

Open Maker

Wikifactory

Open Source extruder

Jetclay

The aim of this project is the building of an Open Source large extrusion system able to manage the extrusion of clay with a humidity of 18%, which means a great improvement in comparison with the technology based in air compression. With this achievement we get a higher stability of the printed piece due to the higher strength of the drier clay.

The system is composed by two elements: the extruder (explained in this page) and the tank.

In our WikiFactory page you can find all the information needed to fabricate this 3D printer and contribute to the project if you wish.

This is a scheme of the goals and functioning of the project:

The aim of this project is the building of an Open Source large extrusion system able to manage the extrusion of clay with a humidity of 18%, which means a great improvement in comparison with the technology based in air compression. With this achievement we get a higher stability of the printed piece due to the higher strength of the drier clay.

The system is composed by two elements: the extruder (explained in this page) and the tank.

In our WikiFactory page you can find all the information needed to fabricate this 3D printer and contribute to the project if you wish.

This is a scheme of the goals and functioning of the project:

The aim of this project is the building of an Open Source large extrusion system able to manage the extrusion of clay with a humidity of 18%, which means a great improvement in comparison with the technology based in air compression. With this achievement we get a higher stability of the printed piece due to the higher strength of the drier clay.

The system is composed by two elements: the extruder (explained in this page) and the tank.

In our WikiFactory page you can find all the information needed to fabricate this 3D printer and contribute to the project if you wish.

This is a scheme of the goals and functioning of the project:

0

The extrusion system has its own subsystems that we describe:

The extrusion system has its own subsystems that we describe:

1

Extrusion system and its elements:

Extrusion system and its elements:

Extrusion system and its elements:

2


Assembly for direct extrusion:

Assembly for direct extrusion:

Assembly for direct extrusion:

3

You can find this project and contribute in Wikifactory where the community of product designers, engineers and enterprises comes together to design, prototype and manufacture hardware products.

You can find this project and contribute in Wikifactory where the community of product designers, engineers and enterprises comes together to design, prototype and manufacture hardware products.

You can find this project and contribute in Wikifactory where the community of product designers, engineers and enterprises comes together to design, prototype and manufacture hardware products.

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 2022 JetClay
Web design: Mick Udaondo & JetClay
Cookies Policy

 2020 JetClay
Web design: Mick Udaondo & JetClay
Cookies Policy

 2021 JetClay
Web design: Mick Udaondo & JetClay
Cookies Policy