GE T12, T8, 10186 User Manual

Lamp Material Information Sheet

Material Safety Data Sheets (MSDS)

Information and Applicability

The Material Safety Data Sheet (MSDS) requirements of the Occupational Safety and
Health Administration (OSHA) for chemicals are
such as lamps. No material contained in a lamp is released during normal use and
operation.

The following information is provided as a service to our customers. The following Lamp
Material Information Sheet contains applicable Material Safety Data Sheet information.

I. Product Identification

GE Fluorescent Lamps

GE Consumer & Industrial

Lighting

1975 Noble Road Nela Park Cleveland, OH 44112 (216) 266-2222

II. Lamp Materials and Hazardous Ingredients

Glass & Metal

The glass tube used in a standard fluorescent lamp is manufactured from soda-lime glass and is
essentially similar but not identical to that used throughout the glass industry for bottles and other
common consumer items. The end-caps on the lamp are generally aluminum while the wires in the
lamps (called filaments or cathodes) are made of tungsten. None of these materials would present a
potential hazard in the event of breakage of the lamp, aside from the obvious ones due to broken
glass. Some fluorescent lamps (CovRguard™ products) use an external coating of polycarbonate to
provide a shatter-resistant coating.

Phosphor
The fluorescent product line uses two different phosphor systems. One phosphor system
(halophosphate) uses calcium chloro-fluoro-phosphate, with small amounts (less than 1-2% by weight
the phosphor) of antimony and manganese, both of which are tightly bound in the phosphor matrix.
The second phosphor system (SP/SPX) uses a mixture of rare earth elements such as lanthanum, and
yttrium as either an oxide or as a phosphate, along with a barium/aluminum oxide. These phosphors
produce better lamp efficiency and color rendition. The phosphor components may vary slightly
depending on the color of the lamp (cool white, warm white, etc.). Also, in some lamps designed for
reduced power consumption, a thin coating of tin oxide is placed on the inside of the glass prior to
coating the glass with the phosphor.

not applicable to manufactured articles

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Normally a 1.5 inch diameter (T12) fluorescent lamp has approximately 1 - 1.25 grams of the phosphor
per foot of lamp. A standard four-foot lamp has about 4 - 5 grams of the phosphor coating its inside
length. The one-inch diameter (T8) lamp would have proportionally less phosphor due to its smaller
size.

Mercury

Mercury is present in small amounts in all fluorescent lamps. The overall fleet average for all GE
fluorescent lamps has been reduced by more than 75% since 1990 due to significant investments in
new manufacturing technology. The amount of mercury present in any given lamp will vary
depending on both the size of the lamp and the design life of the lamp. Smaller, shorter life lamps
generally have lower mercury content.

III. Health Concerns

Phosphor

Except for small changes, it is essentially the same phosphor that has been in use in our lamps for
over fifty years. The Industrial Hygiene Foundation of the Mellon Institute found no significant adverse
effects, either by ingestion, inhalation, skin contact, or eye implant, in a five-year animal study of the
original phosphor. Also, there have been no significant adverse effects on humans by any of these
routes during the many years of its manufacture or use. The phosphor is somewhat similar to the
inert mineral apatites (calcium phosphate-fluorides) that occur in nature.

Antimony, manganese, yttrium and tin compounds are characterized by OSHA as hazardous
chemicals, as are most inorganic compounds. However, due to their insolubility, relatively low toxicity
and small amount present in the phosphor and the lamp, these materials do not present a significant
hazard in the event of breakage of the lamp.

Barium and cadmium had also been used as additives to the phosphor in lamps made prior to mid­1988 but are no longer used in the phosphor in current production. These materials are also
considered hazardous chemicals. In addition, although the evidence is limited and conflicting,
cadmium and certain cadmium compounds have been listed by the International Agency for Research
on Cancer as possible human carcinogens.

Mercury
Neither the mercury nor the phosphor concentration in air produced as a result of breaking one or a
small number of fluorescent lamps should result in significant exposures to the individual. However,
when breaking a large number of lamps for disposal, appropriate industrial hygiene monitoring and
controls should be implemented to minimize airborne levels or surface contamination. We
recommend that the work be done in a well-ventilated area, and local exhaust ventilation or personal
protective equipment may be needed.

IV. Disposal Concerns

TCLP

A Toxicity Characteristic Leaching Procedure (TCLP) conducted on traditional fluorescent lamp designs
for mercury would most likely cause the lamps to be classified as a hazardous waste due to the
mercury content. While small numbers of these lamps placed in ordinary trash may not appreciably
affect the nature or method of disposal of the trash, under most circumstances disposal of large
quantities may be regulated. You should review your waste handling practices to assure that you
dispose of waste lamps properly and contact your state environmental department for any
regulations that may apply. To check state regulations or to locate a recycler, go to

www.lamprecycle.org. Reduced mercury fluorescent lamps that consistently pass the TCLP test are

available and marketed under the Ecolux trade name. For more information on Ecolux fluorescent
lamps visit

www.gelighting.comT .

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