https://youtu.be/C52-XmTjZxU?si=2vVK2pZ85GHrwnra
Mycelium, Biocrete, Hempcrete, Aircrete, Bio Cement, Exoskeleton Block
Mycelium can't hold a wall, neither can hemp, other bio fillers with binders have trouble.
These blocks are to make it 100% possible.
This is the second hemp/bio block exoskeleton.
It has halves.
This was taken from the hemp block which is public domain. They fit together,
https://www.thingiverse.com/thing:7080711
Info on Mycelium
https://longevitybotanicals.com/blogs/mushrooms/how-mushrooms-are-being-used-to-build-houses-with-mycelium-blocks
Main cements/concretes
1. Aircrete
2. Bio/Dirt Blocks/Clay
3. Bio Cement
4. Hempcrete
5. Mycelium
6. Ferrock
7. Rammed Earth
8. Blast Furnace Slag 9. Ashcrete
https://youtu.be/C52-XmTjZxU?si=FwothrXOrbZXVXS8
"Yes, hemp fibers can stabilize rammed earth for below-grade use by enhancing tensile strength and reducing cracking in Yucatan's humid conditions. However, for substantial durability, combine with 5-10% lime or cement to improve moisture resistance and prevent erosion. Hemp alone may not suffice against high groundwater—add waterproof membranes. Test locally for karst soil compatibility." - Grok
"Welding the exoskeletons creates a continuous frame, enhancing stability and potentially allowing taller structures. For aluminum: 5-8 stories. For steel: 8-15 stories, depending on design, loads, and codes. Hempcrete infill remains a limiter; real hybrids reach 12 stories. Always verify with a structural engineer." - Grok
"With welded exoskeletons and mycelium infill (compressive strength ~0.2-2.9 MPa, varying by composition), these blocks could potentially support 4-7 stories for aluminum and 7-12 stories for steel, assuming optimal design and engineering for loads. Mycelium's variability limits height compared to stronger infills; real hybrids are rare. Always consult a structural engineer for safety and codes." - Grok
License:
Creative Commons - Attribution - Non-Commercial - No Derivatives
Gremble
