Alaina D'Altorio, Content Marketing Specialist, Smith Corona10.12.20
Thermal transfer ribbons are a crucial part of the thermal label printing process. They are a necessary component when printing with thermal transfer labels, making for a fast and productive process.
Thermal transfer labels and ribbon can be used in compatible desktop and industrial printers. Although it may seem like buying ribbon along with labels as an additional cost, thermal printing is less expensive overall due to its efficiency and quality.
Unlike their direct thermal counterparts, thermal transfer labels do not have ink embedded within the substrate. Thermal transfer labels need a ribbon for the transfer of ink, and will not work without one. However, they are a more stable option as they last much longer than direct thermal and are less likely to scratch or fade.
Thermal transfer technology works by using heat-sensitive carbon ribbon, which is melted onto the substrate as it passes over hot the printhead. This process prints images and texts onto a label.
Choosing the right ribbon depends on the media type and printer used as well as the application. Let’s look at the necessary information you’ll need when looking to purchase thermal transfer ribbon.
Ink configuration
Once you’ve determined which thermal ribbon material is the right choice for your printing needs, you will need to consider your printer compatibility. Each printer model has its own specific functionality, therefore where the ink sits on the ribbon matters to the printing process.
Thermal transfer ribbons come in two classifications: Coated Side In (CSI) and Coated Side Out (CSO). These classifications refer to if the ink is located on the inside or outside of the ribbon roll. This location determines how the ribbon is wound and fed through the printer, which affects how the substrate is printed on. Depending on the printer type, you must use either one or the other.
Need an easy trick to tell whether your ribbon is CSI or CSO? Simply stick a label onto the outside of the thermal ribbon roll. If ink sticks to the label, it is CSO ribbon. If not, it is CSI ribbon.
Coated Side In (CSI)
Coated side in means the ribbon is wound in around the core, and therefore the ink on the ribbon is facing inward. To use CSI thermal transfer ribbon with compatible printers, you will want to unroll it from the top and feed it over the printhead.
Printers compatible with CSI ribbon:
Sato
Datamax
Coated Side Out (CSO)
Coated side out means the ribbon has been wound out around the core, and therefore the ink on the ribbon is facing outward. To use CSO thermal transfer ribbon with compatible printers, you will want to unroll it from the bottom and feed it underneath the printhead.
Printers compatible with CSO ribbon:
Zebra
Intermec
Different ribbon materials/coatings
Thermal transfer ribbons come in several different varieties but we’ll focus on the most basic: full wax, wax/resin, and full resin. It is important to know which type of ribbon to use for your printer, as different materials can affect print quality. Using the wrong thermal ribbon type will end up wasting time and costing money.
Make sure to consider how and where your labels will be used so you can determine which ribbon material is the best choice for your printing needs.
Wax
Thermal ribbon made with wax is the most common type of thermal transfer ribbon available. This ribbon type is inexpensive and can be used at higher print speeds. Full wax ribbons have a low melting point, leading to lighter and less durable print jobs. This makes them an optimal choice for short-term use.
Due to its durability, full-wax thermal ribbons are typically used on coated and uncoated paper stock. This makes them a reasonable choice for labels meant for indoor use.
Wax/Resin
Wax/resin thermal ribbon is exactly like its name describes: a combination of both wax and resin materials. Slightly more expensive than basic all-wax ribbon, the addition of resin creates a protective barrier over images and texts, increasing durability against smudges, scratches, and abrasions. This makes wax/resin a great choice for printing labels that need to withstand more exposure to water, changing temperatures, and some chemicals.
Because wax/resin thermal ribbons are more durable than full-wax, they can be typically used on synthetic substrates, such as polypropylene, as well as materials that are coated and glossy, matte, or weatherproof.
Resin
Full resin thermal transfer ribbon is the most expensive type of ribbon available. However, these ribbons are also the most durable, resilient, and long-lasting, making them the best choice for labels needed in harsh environments, exposure, and extreme chemical conditions.
Resin ribbons require slow print speeds to get the best quality but they are scratch and smudge resistant. They can withstand contact with water, grease, and oil, as well as intense temperature changes.
Resin thermal ribbon should only be used for print jobs that require its high-class durability. They are typically used with non-paper, synthetic materials and facestock, like polypropylene, polyester, vinyl, and nylon.
Near Edge Ribbon
Near edge printing is a technology where the printhead is at an angle instead of a horizontal position. At this angle the heating elements are at the edge of the print head, where the it comes in contact with the ribbon and surface. For this specific type of printhead, you will need to use a near edge ribbon.
Near edge ribbon is composed of different materials and ink specifically for this style of printing. The technology makes the printing process quicker and able to print on thicker substrates. Only certain printers require near edge ribbon. While using the wrong kind of ribbon won’t immediately damage the printer, in the long run it will reduce the printhead life, which is expensive to replace.
Ribbon sizing
It is important to match the proper ribbon size to the labels you are using. Ribbons are not sized the same as labels. For example, you will not be able to buy a 4×6 thermal ribbon for a 4×6 thermal label. Trying to figure out the criteria for the ribbon you’ll need may be a little tedious, but knowing how to match your ribbon and labels correctly will save both time and money.
Here are the factors you need to consider when shopping for the right thermal ribbon.
Width:
To prevent damage to the printhead made from the label material, you will want a ribbon width that extends past the edge of the label material. Choose a ribbon width that is closest to the label you are using as a larger ribbon width will result in wasted ink and a smaller width will hinder the printing process. For example, if you purchase a 4” wide thermal label, you will want to choose a 4.33” ribbon.
Length:
Thermal ribbon length extends longer than a roll of labels. This means less time changing out ribbon between print jobs, maximizing efficiency. Depending on the ribbon, you can typically print through 2-3 rolls of labels for one roll of ribbon. You can determine the length of ribbon by using your roll of labels. For example, our 4×6 thermal transfer label is 510 feet long. If you purchase a 4.33” x 1182’ thermal ribbon, you would be able to use about two rolls of labels. In this instance, a smaller ribbon length would run out before the labels.
Core size:
Industrial printers use ribbon with a standard 1” core while smaller, desktop printers will need to be fitted with ribbons using a 0.5” core.
For more information, and information on loading a ribbon, see the original article posted on www.smithcorona.com.
Thermal transfer labels and ribbon can be used in compatible desktop and industrial printers. Although it may seem like buying ribbon along with labels as an additional cost, thermal printing is less expensive overall due to its efficiency and quality.
Unlike their direct thermal counterparts, thermal transfer labels do not have ink embedded within the substrate. Thermal transfer labels need a ribbon for the transfer of ink, and will not work without one. However, they are a more stable option as they last much longer than direct thermal and are less likely to scratch or fade.
Thermal transfer technology works by using heat-sensitive carbon ribbon, which is melted onto the substrate as it passes over hot the printhead. This process prints images and texts onto a label.
Choosing the right ribbon depends on the media type and printer used as well as the application. Let’s look at the necessary information you’ll need when looking to purchase thermal transfer ribbon.
Ink configuration
Once you’ve determined which thermal ribbon material is the right choice for your printing needs, you will need to consider your printer compatibility. Each printer model has its own specific functionality, therefore where the ink sits on the ribbon matters to the printing process.
Thermal transfer ribbons come in two classifications: Coated Side In (CSI) and Coated Side Out (CSO). These classifications refer to if the ink is located on the inside or outside of the ribbon roll. This location determines how the ribbon is wound and fed through the printer, which affects how the substrate is printed on. Depending on the printer type, you must use either one or the other.
Need an easy trick to tell whether your ribbon is CSI or CSO? Simply stick a label onto the outside of the thermal ribbon roll. If ink sticks to the label, it is CSO ribbon. If not, it is CSI ribbon.
Coated Side In (CSI)
Coated side in means the ribbon is wound in around the core, and therefore the ink on the ribbon is facing inward. To use CSI thermal transfer ribbon with compatible printers, you will want to unroll it from the top and feed it over the printhead.
Printers compatible with CSI ribbon:
Sato
Datamax
Coated Side Out (CSO)
Coated side out means the ribbon has been wound out around the core, and therefore the ink on the ribbon is facing outward. To use CSO thermal transfer ribbon with compatible printers, you will want to unroll it from the bottom and feed it underneath the printhead.
Printers compatible with CSO ribbon:
Zebra
Intermec
Different ribbon materials/coatings
Thermal transfer ribbons come in several different varieties but we’ll focus on the most basic: full wax, wax/resin, and full resin. It is important to know which type of ribbon to use for your printer, as different materials can affect print quality. Using the wrong thermal ribbon type will end up wasting time and costing money.
Make sure to consider how and where your labels will be used so you can determine which ribbon material is the best choice for your printing needs.
Wax
Thermal ribbon made with wax is the most common type of thermal transfer ribbon available. This ribbon type is inexpensive and can be used at higher print speeds. Full wax ribbons have a low melting point, leading to lighter and less durable print jobs. This makes them an optimal choice for short-term use.
Due to its durability, full-wax thermal ribbons are typically used on coated and uncoated paper stock. This makes them a reasonable choice for labels meant for indoor use.
Wax/Resin
Wax/resin thermal ribbon is exactly like its name describes: a combination of both wax and resin materials. Slightly more expensive than basic all-wax ribbon, the addition of resin creates a protective barrier over images and texts, increasing durability against smudges, scratches, and abrasions. This makes wax/resin a great choice for printing labels that need to withstand more exposure to water, changing temperatures, and some chemicals.
Because wax/resin thermal ribbons are more durable than full-wax, they can be typically used on synthetic substrates, such as polypropylene, as well as materials that are coated and glossy, matte, or weatherproof.
Resin
Full resin thermal transfer ribbon is the most expensive type of ribbon available. However, these ribbons are also the most durable, resilient, and long-lasting, making them the best choice for labels needed in harsh environments, exposure, and extreme chemical conditions.
Resin ribbons require slow print speeds to get the best quality but they are scratch and smudge resistant. They can withstand contact with water, grease, and oil, as well as intense temperature changes.
Resin thermal ribbon should only be used for print jobs that require its high-class durability. They are typically used with non-paper, synthetic materials and facestock, like polypropylene, polyester, vinyl, and nylon.
Near Edge Ribbon
Near edge printing is a technology where the printhead is at an angle instead of a horizontal position. At this angle the heating elements are at the edge of the print head, where the it comes in contact with the ribbon and surface. For this specific type of printhead, you will need to use a near edge ribbon.
Near edge ribbon is composed of different materials and ink specifically for this style of printing. The technology makes the printing process quicker and able to print on thicker substrates. Only certain printers require near edge ribbon. While using the wrong kind of ribbon won’t immediately damage the printer, in the long run it will reduce the printhead life, which is expensive to replace.
Ribbon sizing
It is important to match the proper ribbon size to the labels you are using. Ribbons are not sized the same as labels. For example, you will not be able to buy a 4×6 thermal ribbon for a 4×6 thermal label. Trying to figure out the criteria for the ribbon you’ll need may be a little tedious, but knowing how to match your ribbon and labels correctly will save both time and money.
Here are the factors you need to consider when shopping for the right thermal ribbon.
Width:
To prevent damage to the printhead made from the label material, you will want a ribbon width that extends past the edge of the label material. Choose a ribbon width that is closest to the label you are using as a larger ribbon width will result in wasted ink and a smaller width will hinder the printing process. For example, if you purchase a 4” wide thermal label, you will want to choose a 4.33” ribbon.
Length:
Thermal ribbon length extends longer than a roll of labels. This means less time changing out ribbon between print jobs, maximizing efficiency. Depending on the ribbon, you can typically print through 2-3 rolls of labels for one roll of ribbon. You can determine the length of ribbon by using your roll of labels. For example, our 4×6 thermal transfer label is 510 feet long. If you purchase a 4.33” x 1182’ thermal ribbon, you would be able to use about two rolls of labels. In this instance, a smaller ribbon length would run out before the labels.
Core size:
Industrial printers use ribbon with a standard 1” core while smaller, desktop printers will need to be fitted with ribbons using a 0.5” core.
For more information, and information on loading a ribbon, see the original article posted on www.smithcorona.com.