Thermal Transfer Printing vs. Other Technologies
Dot matrix printers are readily accessible and very inexpensive – most typically used to type forms, checks, and other documents that require carbon copies. Since the pressure applied by the print head to transfer the ink ribbon to the paper helps create a carbon copy, the dot matrix process is extremely useful for record keeping. Due to multi-pass, ribbons for dot matrix printers are relatively inexpensive.
Primary drawbacks include low print quality, limited graphic print capability, very slow print speeds, noisy operation, and a lack of resistance to chemicals. For bar code printing, especially, a defined image is crucial. The edge definition of dot matrix images is rarely clean or linear – greatly compromising the integrity of the bar code. Dot matrix printing’s poor image quality, combined with its low printing speed and inability to resist chemical solvents, severely inhibit its performance – serious concerns which can greatly increase costs to manufacturers.
There are basically two types of ink jet applications for bar code printing – direct print applications and label applications. Direct ink jet printing is very effective for printing bar codes and expiration dates directly on canned foods, liquid bottles, etc. For these uses, a special direct ink jet printer is necessary – these machines are very expensive, and are usually incorporated directly into the assembly line. Ink jet technology can also print bar codes on labels using a standard office printer.
The serial printing technology of ink jet printing is conceptually very similar to dot matrix – ink applied to a substrate in an up-and-down or side-by-side droplet form by pressure – however, the actual delivery method of ink jet printing differs from dot matrix substantially. Ink jet printers do not use direct pressure for the transfer process, nor do they rely on ink ribbons – instead, they use a combination of liquid ink, ultrasonic pressure and an electrostatic field. Ink jet printers create images by propelling ink into tiny, highly controlled jet streams and onto the substrate. The quality of ink jet images is determined by the size of the ink droplets – small droplets produce cleaner lines, large droplets tend to blur.
Ink jet printing technology is virtually the only solution for direct printing on a wide variety of substrates – from cartons and cans to plastics, glass, and paper. Assembly line ink jet printing can print at extremely high speeds and code large quantities in seconds. It is the most efficient method for alpha-numerical coding of consumer goods.
While ink jet printers do allow users to have more flexibility, their low image resolution, limited durability, and high unit price make them a less attractive option for bar coding purposes. Although assembly line ink jet printing services a large audience, it is a very niche application, and the printers tend to be extremely expensive. Ink jet printing is also less solvent resistant, and specialty inks are required for high speed assembly line printing – a factor which entails costly maintenance and frequent routine attention. The ability of ink jet printers to print directly on many substrates makes it a very useful printing technology; however, for bar coding projects that require quality high resolution and good durability, thermal transfer printing is by far the better choice.
The laser printing process produces beautiful, dense, high resolution images for text and graphics.
For bar coding purposes, the most serious constraint of laser printing technology is its substrate limitation. Laser printers can only print on certain types and sizes of labels – and certainly not directly on any non-paper surface, such as plastic or metal. Laser printing is also not the fastest option, and laser images are far less durable than thermal printed images. Toner cartridges and drum kits used in the laser printing process are extremely expensive, and hazardous if not disposed of properly. While the images produced by laser printers are much cleaner than those of ink jet printers, the lack of versatility, durability, and environmental safety – combined with high unit and maintenance fees – typical of laser printers certainly makes laser printing a less efficient alternative for bar coding.
Images produced by direct thermal printing are clear and defined; and direct thermal printers are cheap, simple to operate and easy to maintain. Direct thermal printing for bar code labeling is certainly an improvement over ink jet and laser technology, especially when it comes to speed and resolution.
Direct thermal images are far less durable than thermal transfer printed images; and direct thermal technology is also constrained by substrate restrictions. The coated paper required by direct thermal printing is very sensitive to light, heat, and abrasion – limiting the range of applications for direct thermal printing to short-term projects. Direct thermal images have no chemical resistance, and very short life spans. Primary uses for direct thermal printing are “Point-A-to-Point-B” applications, such as baggage checking in airports, or parcel delivery. Bar coding projects requiring durable images and substrate flexibility are not well served by direct thermal printing technology.
In thermal transfer printers, the thermal transfer process occurs not on the substrate, but on the ribbon. As the ribbon and substrate come into contact with the print head, heat from the print head melts the ink in the ribbon and releases (transfers) the ink directly onto the substrate. Ink used in the thermal transfer process is generally composed of wax, resin, or a wax/resin compound, according to the requirements of the project. Wax ribbons are less expensive and less durable, and are more suitable for short-term projects; resin ribbons are premium quality transfer agents, and are optimal for long-term, highly durable printing needs.
The primary disadvantage of thermal transfer printing is that each ribbon only has a one-time use. However, thermal transfer ribbons can be easily disposed and are comparatively environmentally safer to dispose of than the other printing technologies discussed. Thermal transfer printing is the industry’s most suitable solution for bar code printing applications. Extremely versatile, thermal transfer technology allows users to print crisp, resilient images on a virtually unlimited universe of substrates – a primary requirement of most bar coding projects. For absolute assurance of quality and reliability when it counts, there’s no other choice. Thermal transfer printing is the industry’s best solution for bar code printing.
While barcode printing supplies may seem like a simple part of your business, using the wrong ones can have far-reaching implications. What starts as a relatively small issue can quickly escalate into larger problems, and unscannable labels can result in chargebacks, costly fines, and increased expenses. Let’s take a look at how using the wrong barcode printing supplies can hurt your business.
Is your business already generating barcodes? Are you using a standard office printer to print barcodes on sheets of labels? While this may serve your needs in the short term, if you plan to grow your business and sell or distribute to anyone outside your organization, a standard office printer or laser printer is typically not a cost effective solution.
Here at Peak-Ryzex, we love the story of how adhesive has evolved and want to share an infographic about the history of adhesive from horse glue to Elmer’s to nano-tech.
How do you know you have the right label? There are thousands of types of labels, though all are not created equally. Each label is designed for a specific use and with materials for specific conditions. Labels may also be chosen for brand consistency, operational efficiency or compliance with specific industry and government standards.