GMU:DIY Biolab License/Anna Kranitz & Balázs Vágvölgyi

From Medien Wiki

goal

The aim of this experiment was to understand the possibilities of using mycelium as a biodegradable material, and to explore its strengths and weaknesses, especially in a combination with straw. The main goal was to see how these two materials work together regarding growing intensity, strength, and appearance.

Filling the building element with straw.jpg

workshop

As a start, we prepared argar, which is the initial substrate of the step-by-step mycelium growth process, which was followed by rye.

preparing the mixtures

3 different substrate mixtures were produced. On the one hand, the already tried-and-tested recipe with hemp, on the other hand, only with straw, and finally, the two together.

manufacturing progress

growing together

stopping the growth process

analysis

compressive strength testing

The compressive strength test was essential for the purpose of assessing the later usability of the block in the construction industry.

mycelium growth phases on rye substrate

organic shapes

The main goal of the side experiment was to observe that we can create these organic forms with alternative formwork. We used nylon stockings and cellophane to help with this and observed that the same mixture of mycelium and substrate reacted in completely different ways to the different formworks.

foreign objects

The main goal of the second side experiment was to observe whether the mycelium attacks organic materials other than the substrate, such as MDF or solid wood. Since our research mainly focused on reforming the construction industry, it was important that the added material to be tested was not sterilized, similar to an environment outside the laboratory. We observed that the mycelium began to spread on the surface of the solid wood, where as a result of the wet environment, other molds also began to grow.

exhibition

go4spring 2023

conclusion

Including several experimental directions, the project aimed to learn about and exploit the potential inherent in the use of mycelium in the construction industry.

First, to replace the already widely used substrate for the growth of mycelium, the mixture of hemp, wheat bran, water and gypsum, with a simpler and cheaper material, with straw. We wanted to see if the growth can be just as successful with fewer measurements, and ingredients, therefore stepping out from the lab would be possible in the future. According to our observations, the mycelium grew just as quickly and intensively on the straw, compared to the mixture just mentioned, and no significant difference could be observed on the exterior of the finished objects either.

On the other hand, the mushroom threads formed a close connection between the elements placed next to each other and joined together. It is well proven that even after the 40% size reduction of the test cubes that occurred during the pressure tests, it didn't start to separate where the elements were joined.

During the pressure tests, the compressive strength of the test cubes of each mixture was revealed. A significant difference is that the general substrate, i.e. the mixture consisting of four materials, can carry almost twice as much load as straw alone. This is due to the larger particle size of the straw and its natural tubular design, as a result of which a lower density was achieved, which also greatly affected the compressive strength. If the straw is ground to a smaller size, it could certainly compete with the density of the one made with hemp.