Archives

  • Watch how flame treatment of polymers affects how ready your polymer surface is for additional processing.

    When it comes to preparing polymers for painting, printing, coating, sealing or bonding, there’s an optimal level of treatment, and the Surface Analyst shows how overtreatment can negatively affect the surface.

    Regardless of industry, whether automotive, aerospace, film & flexible packaging or otherwise, contact us today to discover how to optimize your material system using the Surface Analyst.

  • Are you a medical supply or device manufacturer that has struggled to achieve FDA validation of your products due to medical tubing or otherwise?

    The Surface Analyst, with its fast, easy, accurate, and non-destructive usage of contact angle measurement technology, gives manufacturers the ability to validate their products like never before.

    Used in tandem with a custom fixture, obtaining detailed information related to surface quality as it relates to your process is now entirely possible.

    Contact us today to discuss your unique application as we can help you start your journey towards FDA validation!

  • Welcome to the BTG Labs Materials Library series.

    In this series, we use the Surface Analyst to demonstrate how the surface quality of a material changes based on common surface preparation processes. We also give typical contact angle measurements before and after processing, to give a general reference for each process as it pertains to the material.

    This video demonstrates how the Surface Analyst gives you the ability to measure changes in polypropylene film preparation through corona treatment. These measurements are used to develop, verify, and monitor surface preparation processes in manufacturing.

    Whether you’re using the Surface Analyst in the lab, or in the hands of an operator on the factory floor, the Surface Analyst give you real-time business insights while dramatically improving quality control.

     

  • Welcome to the BTG Labs Materials Library series.

    In this series, we use the Surface Analyst to demonstrate how the surface quality of a material changes based on common surface preparation processes. We also give typical contact angle measurements before and after processing, to give a general reference for each process as it pertains to the material.

    This video demonstrates how the Surface Analyst gives you the ability to measure changes in composite preparation through treatment using atmospheric plasma. These measurements are used to develop, verify, and monitor surface preparation processes in manufacturing.

    Whether you’re using the Surface Analyst in the lab, or in the hands of an operator on the factory floor, the Surface Analyst give you real-time business insights while dramatically improving quality control.

     

  • Welcome to the BTG Labs Materials Library series.

    In this series, we use the Surface Analyst to demonstrate how the surface quality of a material changes based on common surface preparation processes. We also give typical contact angle measurements before and after processing, to give a general reference for each process as it pertains to the material.

    This video demonstrates how the Surface Analyst gives you the ability to measure changes in aluminum preparation. These measurements are used to develop, verify, and monitor surface preparation processes in manufacturing.

    Whether you’re using the Surface Analyst in the lab, or in the hands of an operator on the factory floor, the Surface Analyst give you real-time business insights while dramatically improving quality control.

  • Welcome to the BTG Labs Materials Library series.

    In this series, we use the Surface Analyst to demonstrate how the surface quality of a material changes based on common surface preparation processes. We also give typical contact angle measurements before and after processing, to give a general reference for each process as it pertains to the material.

    This video demonstrates how the Surface Analyst gives you the ability to measure changes in composite preparation using an IPA wipe and abrasion with stearate-free sandpaper. These measurements are used to develop, verify, and monitor surface preparation processes in manufacturing.

    Whether you’re using the Surface Analyst in the lab, or in the hands of an operator on the factory floor, the Surface Analyst give you real-time business insights while dramatically improving quality control.

     

  • The Surface Analyst Speaks Dyne Too

    by Emily Leporati November 2017

    The Surface Analyst is a fast, easy, accurate, and non-destructive alternative for dyne inks. The Surface Analyst features a ‘Dyne Mode’ for manufacturers who already have an in-place process for dyne inks. ‘Dyne Mode’ allows manufacturers to maintain their investment in the dyne measurement language, but provides a precise and reliable measurement of any surface–unlike dyne ink.

    Watch how the Surface Analyst quickly measures the surface preparation across a sheet of industrial film.

  • Preparing a surface for painting, adhesion, coating, or bonding are common processes that do not get the attention they deserve.

    These processes are key to a business and the continued success of a product.

    Watch this video to learn how the Surface Analyst gives manufacturers the language for total surface quality control.

  • This video uses an FIPG application to demonstrate how you can measure changes in your surface preparation process simply through the push of a button.

  • In the early 2000s, the U.S. Airforce recruited BTG Labs to aid in the development of bonding technologies for composite materials to replace heavier aluminum and titanium in aircraft manufacturing. Carbon fiber composites provide lighter, stronger options for aircraft materials. But, to realize these advantages composites must attach by bonding, not by mechanical fasteners. The primary obstacle to bonding has been the lack of a practical way to inspect a bond surface and ensure that they have been prepared in a way that will produce a strong, reliable bond. Thus, they needed a method to adhere the composites effectively, efficiently, and confidently.

    Learn how a few drops of water, American ingenuity, and an Air Force SBIR contract are changing how we design and build in the future.