(Disclaimer: I'm just an amateur 3d printer and just hack with my printer and what I can get my hands on)
The thing that intrigues me about fiberous ceramics for deposition printing is that no printers currently take advantage of the (albeit tiny) tensile strength of the deposited filament.
For plastic printing, this isn't very useful, but potentially for this new construction compound you could effectively (or nearly so) bridge gaps with little droop or sag.
I do think from an engineering perspective that placing blanks underneath is the best bet, but on the order of a 20-hr print, I don't think its unreasonable to have someone walking around with the machine placing single layer "blanks" at each opening at each level.
The thing that intrigues me about fiberous ceramics for deposition printing is that no printers currently take advantage of the (albeit tiny) tensile strength of the deposited filament.
For plastic printing, this isn't very useful, but potentially for this new construction compound you could effectively (or nearly so) bridge gaps with little droop or sag.
I do think from an engineering perspective that placing blanks underneath is the best bet, but on the order of a 20-hr print, I don't think its unreasonable to have someone walking around with the machine placing single layer "blanks" at each opening at each level.