Fullerenes better dating through technology

19 Dec

These properties position IF materials as one of the best candidates for future protective gear and armor.Currently Ap Nano can manufacture only a few kilograms of the new material a day at their lab in Nes Ziona. Menachem Genut, Ap Nano CEO, explained that the company is moving into semi-industrial manufacturing within the next six months producing between 100-200 kilograms of the material per day, gradually moving to full-scale industrial production by 2007, creating several tons each day.For any comments about this story, please contact the writer of the original article. Its presence in organic materials is used extensively as basis of the radiocarbon dating method to date archaeological, geological, and hydrogeological samples.that normally occur as large flat platelets can be synthesized into much smaller nano-spheres and nano-tubes which they named inorganic fullerene-like nanostructures or IF for short.Fullerenes are a new form of carbon, other forms being diamond, graphite and coal.Shock absorbing materials are commonly used in impact resistant applications such as ballistic protection personal body armor, bullet proof vests, vehicle armor, shields, helmets, and protective enclosures.

A year later we find Ap Nano working also on a wholly different application of their technology - shielding and protection. Yan Qiu Zhu of the School of Mechanical, Materials and Manufacturing Engineering at the University of Nottingham, England, a sample of the Ap Nano material was subjected to severe shocks generated by a steel projectile traveling at velocities of up to 1.5 km/second.

— Radiocarbon dating is a key tool archaeologists use to determine the age of plants and objects made with organic material.

But new research shows that commonly accepted radiocarbon dating standards ...

The material withstood the shock pressures generated by the impacts of up to 250 tons per square centimeter. Martin from Ecole Central de Lyon in France tested the new material under isostatic pressure and found it to be stable up to at least 350 tons/cm.

This is approximately equivalent to dropping four diesel locomotives onto an area the size of one’s fingernail. In the line of fire - creating super shock-resistant materials In order to understand how it is possible to create this ultra-strong shock absorbing material we first need to understand the nature of the nano material developed by Ap Nano.