victoriachang

In today's world, it seems that almost any topic is open for debate. While I was gathering facts for this article, I was quite surprised to find some of the issues I thought were settled are actually still being openly discussed.



Knowledge can give you a real advantage. To make sure you're fully informed about Laser Labels Verses Thermal Labels, keep reading.

Here is an example where Thermal Transfer was found to be more cost effective than Laser. During a site survey it was noted that a customer was using laser labels to print product identification labels. While printing in batch mode they would print 595 labels in one batch, 602 in the second batch, and 607 in the third batch and so on. The print speed of a laser printer was not important because they were printing these in a batch mode for labeling the following morning. It was noted that on a typical night Customer A would throw away on average 200 labels due to the batches not completing a full page. Solution provided was to switch to several Thermal printers, which would allow the customer to produce unattended verses having to man the printer to remove the sheets as they filled the tray, and also completely eliminated any waste. There was an initial cost of printers and a programming change the customer was able to move one person from the processing are to another open position, improve efficiencies, and have a return on investment within 60 days of making the change.

THERMAL TRANSFER: The use of print media receptive to various formulations of ribbons which transfer an image through a print head which contains many small heating pins.

Thermal Transfer Labels are used in a variety of business sectors and can be much more cost effective and more durable than laser labels. The material availability is also very extensive.

Applications for the healthcare industry include: test tubes, slides, patient charts, wristbands, product identification, shipping, IV bags, Etc.

Applications for manufacturing include: product identification, Hazardous materials, bins, racks, floors, barcode labels, UL labels, Etc.

Applications for the trucking industry include: product identification, shipping, pro labels, rack, floor, barcode, maintenance records, Etc.

Applications for the retail industry include: product identification, shipping, racks, floor, barcodes, pricing, sales, Etc.

LASER AND INKJET: Laser utilizes a drum which is charged with a laser to attract a toner. The toner is pressed into the material and fused together with high heat and pressure.

Inkjet printers work by spraying ionized ink at the material. Magnetized plates direct the image into the desired shapes. Desktop Inkjet printers are not cost effective for printing large volumes of print media.

Laser and Inkjet Labels are also used in a variety of business sectors and in the correct environment (70 degrees and 50% relative humidity) and design can be a time and money saving option.

Applications for the healthcare industry include: test tubes, slides, patient charts, wristbands, product identification, shipping, IV bags, Etc.

Applications for manufacturing include: product identification, Hazardous materials, bins, racks, barcode labels, UL labels, Etc.

Applications for the trucking industry include: product identification, shipping, pro labels, rack, floor, barcode, maintenance records, Etc.

Applications for the retail industry include: product identification, shipping, racks, barcodes, pricing, sales, etc.

One type of label printing system may be all your organization needs however a detailed Label System Analysis (LSA) can uncover hidden costs associated with the types of printing system you are using



Knowing enough about Laser Labels Verses Thermal Labels to make solid, informed choices cuts down on the fear factor. If you apply what you've just learned about Laser Labels Verses Thermal Labels, you should have nothing to worry about.