In
earlier machines, this low-cost carbon toner was poured by the user from a
bottle into a reservoir in the machine. Current machines feed directly from a
sealed laser toner cartridge.
Modern
laser toner cartridges intended for use in color copiers and printers come in
cyan, magenta, yellow and black (CMYK).
Composition,
size and manufacture
The specific polymer used varies by
manufacturer but can be a styrene acrylate copolymer, a polyester
resin, a styrene butadiene copolymer, or a few other special polymers. Toner
formulations vary from manufacturer to manufacturer and even from machine to
machine Typically formulation, granule size and melting point vary the
most.
Originally, the particle size of toner
averaged 14–16 micro met res or greater.To improve image resolution, particle size was reduced,
eventually reaching about 8–10 micrometers for 600 dots per
inch resolution. Further reductions in particle size producing further
improvements in resolution are being developed through the application of new
technologies such as Emulsion-Aggregation. Toner manufacturers maintain a quality
control standard for particle size distribution in order to
produce a powder suitable for use in their printers.
Toner has traditionally been made by
compounding the ingredients and creating a slab which was broken or pelletized,
then turned into a fine powder with a controlled particle size range
by air jet milling. This process results in toner granules with varying
sizes and aspherical shapes. To get a finer print, some companies are using a
chemical process to grow toner particles from molecular reagents. This results
in more uniform size and shapes of toner particles. The smaller, uniform shapes
permit more accurate colour reproduction and more efficient toner use.
Clean-up
Toner can be washed
off skin and garments with cold water. Hot or warm water
softens the toner, causing it to bond in place. Toner fused to skin eventually
wears off, or can be partially removed using an abrasive hand cleaner. Toner
fused to clothing usually cannot be removed.
Toner particles
have electrostatic properties by design and can develop
static-electric charges when they rub against other particles, objects, or the
interiors of transport systems and vacuum cleaner hoses. Because of this and
the small particle size, toner should not be vacuumed with a conventional
home vacuum cleaner. Static discharge from charged toner particles can
ignite dust in the vacuum cleaner bag or create a small explosion if
sufficient toner is airborne. This may damage the vacuum cleaner or start a
fire. Toner particles are so fine that they are poorly filtered by household
vacuum cleaner filter bags and can blow through the vacuum motor or into the
room.
If toner spills into the laser printer, a
special type of vacuum cleaner with an electrically conductive hose and a high
efficiency (HEPA) filter may be needed for effective cleaning. These are
called Electrostatic discharge-safe (ESD-safe) or toner vacuums. Similar
HEPA-filter equipped vacuums should be used for clean-up of larger toner
spills.
Unfused toner is easily cleaned from most
water-washable clothing. Because toner is a wax or plastic powder with a low
melting temperature, it must be kept cold while cleaning. The washing machine
should be filled with cold water before adding the garment. Two complete wash
cycles improves the chances of success. The first may use hand wash dish
detergent, the second may use regular laundry detergent. Residual toner
floating in the rinse water of the first cycle will remain in the garment and
may cause permanent graying. A clothes dryer or iron should not be used until
all toner has been removed.
Health
risks
As a fine powder, toner can remain suspended
in the air for some period, and is considered to have health
effects comparable to inert dust. It can be an irritant to people
with respiratory conditions such
as asthma or bronchitis. Following studies
on bacteria in the 1970s that raised concerns about health effects
resulting frompyrrole , a contaminant created during manufacture of the
carbon black used in black toner, manufacturing processes were changed to
eliminate pyrrole from the finished product.
According to recent research, some laser
printers emit submicrometer particles which have been associated in other
environmental studies with respiratory diseases . An unpublished study at the
University of Rostock in Germany is reported to have found that the microscopic
particles in toner are carcinogenic, similar to asbestos. Several technicians
who had been working with printers and copiers on a daily basis were observed
for several years. They showed increased lung problems.
Packaging
The toner container can be a simple pack,
for toner storage and transportation, or further, a consumable component of the
printer. The most commom way to consume toner is with a toner
cartridge (or laser toner), as an office supply of
a laser printers. As a printer's expensive component, it can be refilled.
Repackaging
Several toner manufacturers offer toner in
wholesale quantities. Typically, bulk loose toner is sold in barrels or
10 kg (22-pound) bags.
Toner
is then used by a variety of industries in order to provide consumers with a
finished laser toner cartridge.
Original
Equipment manufacturers such as HP and canon as well as
manufacturers of compatible toner cartridges use the toner in the process of
manufacturing a brand new OEM cartridge. Remanufacturers of toner cartridges
use the bulk toner in the process of creating a remanufactured toner cartridge.
Other companies use the toner to provide a toner refill service.
Most
toner cartridges are available to the average consumer through retail outlets
or local remanufacturing operations. Remanufactured and refilled toner
cartridges are generally offered at a lower cost than original toner
cartridges, having been either wholly remanufactured and then refilled with
toner (the more-optimal method) or just refilled with toner (the less-optimal
method).
Environmental
considerations
Recycling
of pre-consumer waste toner is practiced by most manufacturers. Classifying
toner to the desired size distribution produces off-size rejects, but these
become valuable feedstocks for the compounding operation, and are recycled this
way. Post-consumer waste toner appears primarily in the cleaning
operation of the photo-printing machine. In early printers, as much as 20 to
25% of feed toner would wind up in the cleaner sump and be discarded as waste.
Improved printer efficiencies have reduced this waste stream to lower levels.
Some printer designs have attempted to divert this waste toner back into the
virgin toner reservoir for direct reuse in the printer; these attempts have met
with mixed success. Some consideration and fewer industry attempts have been
made to reclaim waste toner by cleaning it and "remanufacturing" it.
Most
toner goes to printed pages, a large fraction of which are ultimately recycled
in paper recovery and recycling operations. Removal of toner from the pulp is
not easy, and toner formulations to ease this step have been
reported. Hydrolyzable, water-soluble, and caustic-soluble toner resins
have been reported, but do not appear to enjoy widespread application. Most paper
recycling facilities mix toner with other waste material, such as inks and
resins, into a sludge with no commercial use.
In
the UK, large compatible ink cartridge manufacturers like Jet
Tec have implemented toner recycling programs in order to receive back
empty cartridges for refilling of HP, Lexmark, Dell, etc. cartridges, as no
compatible version is readily available.
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