70 μm opaque blue MOPP silicone coated release, for food packaging, lamination, tape, labels, industrial applications

70-micron opaque blue monoaxially oriented polypropylene silicone coated release film can be used in a variety of applications where

a high-performance release liner is required. However, there are specific scenarios where this type of film is ideal.

One such instance where this film can be applied, is:

1. Security Labels:

    The opaque blue color of the film ensures that the information on the label is not visible from the outside, adding an extra layer of security

    and protection against counterfeiting. The high strength and puncture resistance of the film make it resistant to tampering or other physical

    damage.

2. Automotive Labels:

    In the automotive industry, this film can be used for labeling critical parts, such as engine components or transmission systems.

    The film's high-temperature resistance and thermal stability ensure the label remains intact under high heat and environmental stressors.

3. Medical Labels:

    The film's biocompatibility and non-toxicity make it ideal for producing medical labels for syringes, medicine bottles, or other medical devices.

    The film is also resistant to sterilization agents, which prevents the labels from fading or peeling off during the label's life cycle.

4. Industrial Labels:

    The release liner is suitable for labels used in harsh environments such as those for warehouse identification, chemical containers labeling,

    and hazardous material transportation. The film withstands wear and tear without cracking or tearing, ensuring labels remain legible throughout

    the label's lifespan.

Overall, 70-micron opaque blue monoaxially oriented polypropylene silicone coated release film is typically applied where the label or sticker is

subjected to harsh environmental conditions where harsh chemicals, high heat, or physical damage might compromise the label's legibility or

adhesive properties. This release liner offers the durability, stability, and high performance required in applications where quality and reliability

must be assured.

Silicone coated monoaxially oriented polypropylene (MOPP) film and cast polypropylene (CPP) film are both commonly used in various

applications. However, there are significant differences in their physical properties, and these differences significantly impact their application

scenarios. Here are some of the significant differences in the application scenarios between these two types of films:

1. Tensile Strength:

    MOPP has a higher tensile strength than CPP, which makes it ideal for applications where high strength and robustness are required.

    Conversely, CPP's lower tensile strength makes it more suitable for applications where strength is not the primary consideration.

2. Puncture Resistance:

    MOPP has excellent puncture resistance, which makes it more appropriate for applications where there may be the potential for physical

    damage, like tapes and labels. CPP, on the other hand, may not be suitable for these applications due to its lower puncture resistance.

3. Printing Quality:

    MOPP has a smoother surface than CPP, making it more ideal for printing high-quality graphics or fine details.

    CPP mainly displays better print quality compared to other films.

4. Clarity:

    CPP offers excellent optical clarity, making it more suitable for applications that require transparency, such as food packaging. MOPP,

    on the other hand, may be less appropriate in these situations as it provides slightly hazy clarity.

5. Temperature Resistance:

    MOPP offers better thermal stability, making it suitable for high-temperature applications. CPP, on the other hand, may not perform well

    under high-temperature conditions.

Overall, the choice between silicone coated MOPP film and cast polypropylene (CPP) film depends on the application's specific requirements.

MOPP is a great choice for applications that require high strength, puncture resistance, and high-temperature operations. CPP's superior optical

clarity and relatively lower costs make it more suitable for applications such as flexible packaging, shrink film packaging, and label applications.