Abstract Scope |
Methods involving versatile, dynamic and eco-friendly paperclay save over half the fuel/emissions, cost, and time in production with performance advantages in continuous use by artists for over 3 decades. Why do we get light weight, porous/vitreous hard/soft ceramic form by single speed fire, speed dry, wet dry join, healing cracks, and more.
To advance, David Kingery and I published micrographs 1992. Perspective on ceramics extended beyond. Integrated paperclay compounds are a versatile natural polymer DNA nano lattice lightweight stable structure/membrane surrounded by minerals from base clay-glazes and streamlined methods of formation.
Clay pot water treatment trials in Nicaragua 2005 are discussed. Microbes, PFAS, PM2, electro-spun-filaments, nitrogen, carbons, etc can be targeted today.
How would medicine, membrane sciences, bio-polymers, bio-ceramics, modeling, nano-molecular meta-material knowledge tie-in?
Which industries, water, marine, agriculture, automotive, catalysts, aerospace, waste management, structural, tile, refractories gain? |