Microscopic Hollow Ceramic Spheres

In all these ways and more 3m ceramic microspheres enhance durability and performance in a wide variety of architectural and industrial paints and coatings.

Microscopic hollow ceramic spheres.

Hollow and solid glass spheres ceramic spheres plastic spheres and new for 09. Q cel hollow spheres and extendospheres hollow spheres products offer formulators flexibility in polymer composites. Each ceramic sphere has a vacuum inside it similar to mini thermos bottles. Mesoscopic hollow spheres of ceramic materials whose interior surfaces were functionalized by nanoscopic objects were generated by templating sol gel precursors against three dimensional arrays of polystyrene beads whose surfaces had been derivatized with submonolayers of the nanoscopic objects.

Painted surfaces that are easy to wash and even scrub. By mixing the ceramic spheres into paint it creates a product that provides enhanced insulation and saves you energy and money. Its derivation has been done from the extreme fire of coal fired power plants and now it is being used to improvise the qualities of manufactured products in india. The powder contains hollow microscopic ceramic spheres and a unique process applies a coating to these microspheres when the paint dries it forms a radiant heat barrier converting ordinary house paint into heat reflecting thermal paint.

A version of ceramic hollow spheres is built up from 40 wt al 2 o 3 and 60 wt sio 2 and these hollow spheres are somewhat cheaper but have similar properties to pure al 2 o 3 made ceramic. You might say that nasa s contributions to insulating paint can keep green in your world and in your. The paint with its ceramic additive has. The principle of the product is based on a complex blend of microscopic hollow ceramic spheres.

The addition of hollow spheres to fiberglass reinforced plastics frp epoxy compounds and urethane castings can provide weight reduction cost savings. The microspheres dramatically reduce heat and sound transfer. Glass microspheres are usually between 1 and 1000 micrometers in diameter although the sizes can range from 100 nanometers to 5 millimeters in diameter. The performance of thermoshield is due to its ability to counter radiant heat transfer.

Glass microspheres are microscopic spheres of glass manufactured for a wide variety of uses in research medicine consumer goods and various industries. The ceramic thermal barrier properties of thermoshield are due to millions of hollow microscopic spheres that cluster together and create dead air space. Thermoshield remains effective when it becomes tarnished and addresses the full solar spectrum.