Pandifico: Elastic Diamondoid Fiber Composites
Pandifico (pronounced: pan-diff-EYE-koe) is a powerful diamondoid composite that is constructed to be elastic and flexible like rubber. This diamondoid fiber is incredibly resistant to damage and almost impossible to shatter. It is fabricated with permaform manufacturing technology. When struck with hard kinetic force the elastic features allow the fiber structure to flex and bend in a manner similar to that of polymers and metals. Because of their design the fibers do not stay dented or bent and can pop out - on their own or with a little help - to their original form.
Pandifico can be tuned to have different degrees of hardness and flexibility. As with ancient composite bows the fibers can be made to stretch at different speeds according to the strength and direction of an applied force. For example, a sheet of Pandifico armor may stretch along it's X axis at a rate of 1 cm per 100 joules while along it's y axis it may stretch 1 meter for the same pressure and only move a micrometer for the same force along it's z axis. Pandifico could also be capable of increasing or decreasing its resistance depending on its tension or distance stretched, thereby giving reduced resistance through the middle portion of the stretch while offering high or medium resistance as it approaches maximum stretch. Pandifico retains the strength of standard Diamondoid even when stretched to maximum tension.
Pandifico can be formulated in any color (including transparent) or molded into the same range of shapes as standard diamondoid without any loss of functionality. It can be made to conduct electricity or be an insulator depending on the specific chemical composition of the fiber structure. Some brand names of pandifico are "Pandiflex," "Foreverform" and "Eternilam."
- Buckyball - Text by M. Alan Kazlev
Short for buckminsterfullerene, and part of a larger class of molecules known as as fullerenes, the third form of carbon. Any of a number of roughly spherical molecule formed of a large number of carbon atoms. The smallest and most common form of buckminsterfullerene is C60; it has 60 carbon atoms in a soccer-ball shape, but there are many variants. The third form of carbon. After atomic age visionary thinker and inventer R. Buckminster Fuller's building designs.
- Carbon Nanotube
- Woven Graphene