Suit yourself for safety
working in hazardous environments such as nuclear reactor sites or chemical factories could be made a lot safer, now that us scientists have developed a new protective suit that has an electrically-conductive polymer incorporated into it. If the suit is torn in an accident, the polymer closes a circuit, immediately activating an alarm.
The new system, which has been patented by a team from the well-known Los Alamos National Laboratory in New Mexico, usa , has been built into material essentially used for protective clothing designed to shield against radiation, toxic chemicals or bio-hazards.
Knowing early that they have been exposed to a hazard will be of great help for the workers.
At present, tears that leave the wearer exposed to the hazard may not be discovered for some time after they have occurred.
Some existing puncture detection systems either do not work in time, which means that they are only checked before the worker puts on his or her protective clothing. Other only work when pierced by electrically-conductive materials, such as metal tools. The Los Alamos system, however, works when nonconductors such as wood puncture the clothing. This gives it broader use, according to Robb Hermes, one of the developers of the new protective suits at the Los Alamos laboratories.
The system is simplicity itself: a semi-solid conducting material is made by dissolving polyvinylalchohol and table salt (sodium chloride) in glycerol. Two layers of the conducting polymer, each with an embedded electrode, are separated by a nonconducting polymer. Two further layers of this nonconducting polymer are then added to the other sides of the conducting layers.
When there is a rip or a puncture, the semi-solid conducting polymer layers are forced through the insulating layer between them, closing a circuit. This could be used to trigger a light-emitting diode (led) or an audio alarm in the wearer's face mask.
Earlier fabric warning systems used layers of thin metal foil separated by a nonconductor. These systems only worked when they were pierced by a conductor. The semi-solid polymer ensures that any tear will be registered.
"I wanted to make it as simple as possible so that most businesses could adopt it,' says Hermes. Details of the wearer's actual warning mechanism