Milton Jackson Jr., PhD, CleanMark08.03.23
In cleanroom environments, where maintaining a controlled and particle-free atmosphere is crucial, barcode labels must meet stringent standards. Cleanroom barcode labels should be made from materials that do not release particles or generate static electricity, which could disrupt the controlled environment.
Specialized facestock materials, adhesives, and printing processes must be used to ensure the labels adhere well and remain legible in these critical environments. Standard controlled room temperature conditions allow for the most flexible label design choices, while labels exposed to persistent harsh conditions may require a more robust solution.
If harsh conditions are not accounted for in the specified environment, your barcode labels may become unreadable due to inadequate material selections. Once the environment is established, the cleanroom barcode label can be optimized and retrofitted to suit your unique product or package configuration, as described below:
Application Surface
In addition to the environment, the surface roughness and surface energy to which your label is applied are crucial considerations. These factors greatly influence the type of adhesive and facestock material that will be suitable for a particular surface archetype.
Label Configuration
The size and shape of your barcode label will influence per unit pricing, but it is equally critical to ensure that the labels have the correct dimensions for the products and surfaces they will be applied to before full label construction.
Barcode Symbologies
Selecting the appropriate barcode symbology is crucial for efficient data capture and processing. Common symbologies include Code 39, Code 128, QR codes, and Data Matrix. Depending on the application and the amount of data to be encoded, certain symbologies may be more suitable than others.
Print Durability
If your barcode label will be placed in an environment with harsh temperatures, chemicals, or prolonged exposure to intense light, you will need to invest in durable materials and adhesives. This is especially true for barcode labels that will be placed on bins or equipment, as these labels will come into frequent contact with employees, tools, and other products.
While cleanrooms typically maintain controlled temperatures and limited exposure to harsh chemicals, there might be some cleanroom processes that require additional label durability. For instance, cleanroom barcode labels used in cold storage areas or subjected to sterilization processes must withstand these conditions without losing adhesion or readability. Opting for a cheap solution in a demanding environment will quickly lead to faded labels, rendering them useless and requiring additional costs for replacements.
Sticking Power
The adhesive used on your barcode labels is paramount for any use case. While some barcodes are designed to be removed after a set duration, others remain permanently adhered. Many product barcodes on grocery items may need to be removed over time, signifying that removable adhesives tend to be preferred. In contrast, barcode labels for outdoor applications that may experience shifting weather patterns would benefit from a permanent adhesive as they will likely remain adhered to the surface despite unpredictable weather conditions.
Label Lifespan
If your label needs to be scannable for long durations, the odds of exposure to tearing, moisture, UV, etc. increase, and in such cases, a thermal transfer label should be chosen. Labels with short-term usage do not need high-level resistance and durability. In such scenarios, direct thermal labels are better suited.
Equipment Compatibilities
Apart from choosing the right cleanroom label material and symbology, it's essential to ensure that the selected barcode labels are compatible with your barcoding equipment, including barcode scanners and printers. Some barcode scanners may have specific requirements for label size, contrast, or printing method.
Failure modes
Barcode labels are not a one-size-fits-all solution, and failure modes can occur for a multitude of reasons. These failures can result in minor inconveniences for the user or catastrophic problems for a group or organization, depending on the severity and scale of the failure modes. Below, we highlight some very common reasons why barcode labels may fail in the field:
Specialized facestock materials, adhesives, and printing processes must be used to ensure the labels adhere well and remain legible in these critical environments. Standard controlled room temperature conditions allow for the most flexible label design choices, while labels exposed to persistent harsh conditions may require a more robust solution.
If harsh conditions are not accounted for in the specified environment, your barcode labels may become unreadable due to inadequate material selections. Once the environment is established, the cleanroom barcode label can be optimized and retrofitted to suit your unique product or package configuration, as described below:
Application Surface
In addition to the environment, the surface roughness and surface energy to which your label is applied are crucial considerations. These factors greatly influence the type of adhesive and facestock material that will be suitable for a particular surface archetype.
Label Configuration
The size and shape of your barcode label will influence per unit pricing, but it is equally critical to ensure that the labels have the correct dimensions for the products and surfaces they will be applied to before full label construction.
Barcode Symbologies
Selecting the appropriate barcode symbology is crucial for efficient data capture and processing. Common symbologies include Code 39, Code 128, QR codes, and Data Matrix. Depending on the application and the amount of data to be encoded, certain symbologies may be more suitable than others.
Print Durability
If your barcode label will be placed in an environment with harsh temperatures, chemicals, or prolonged exposure to intense light, you will need to invest in durable materials and adhesives. This is especially true for barcode labels that will be placed on bins or equipment, as these labels will come into frequent contact with employees, tools, and other products.
While cleanrooms typically maintain controlled temperatures and limited exposure to harsh chemicals, there might be some cleanroom processes that require additional label durability. For instance, cleanroom barcode labels used in cold storage areas or subjected to sterilization processes must withstand these conditions without losing adhesion or readability. Opting for a cheap solution in a demanding environment will quickly lead to faded labels, rendering them useless and requiring additional costs for replacements.
Sticking Power
The adhesive used on your barcode labels is paramount for any use case. While some barcodes are designed to be removed after a set duration, others remain permanently adhered. Many product barcodes on grocery items may need to be removed over time, signifying that removable adhesives tend to be preferred. In contrast, barcode labels for outdoor applications that may experience shifting weather patterns would benefit from a permanent adhesive as they will likely remain adhered to the surface despite unpredictable weather conditions.
Label Lifespan
If your label needs to be scannable for long durations, the odds of exposure to tearing, moisture, UV, etc. increase, and in such cases, a thermal transfer label should be chosen. Labels with short-term usage do not need high-level resistance and durability. In such scenarios, direct thermal labels are better suited.
Equipment Compatibilities
Apart from choosing the right cleanroom label material and symbology, it's essential to ensure that the selected barcode labels are compatible with your barcoding equipment, including barcode scanners and printers. Some barcode scanners may have specific requirements for label size, contrast, or printing method.
Failure modes
Barcode labels are not a one-size-fits-all solution, and failure modes can occur for a multitude of reasons. These failures can result in minor inconveniences for the user or catastrophic problems for a group or organization, depending on the severity and scale of the failure modes. Below, we highlight some very common reasons why barcode labels may fail in the field:
- Using standard labels for an application requiring engineered customization
- Excessive exposure to large temperature gradients and solvent leakages/spills
- Wrong application method
- Applying an incompatible print method or ribbon/label combination
- Inconsistent label placement during auto label application
- Label size and conformation challenges with lab ware tools and equipment