DSA100S – Công ty TNHH TM DV KT Minh Khang //gd-1.com Thu, 14 Mar 2024 03:47:00 +0000 en-US hourly 1 //wordpress.org/?v=6.6.2 //gd-1.com/wp-content/uploads/2021/02/favicon-32x32.png DSA100S – Công ty TNHH TM DV KT Minh Khang //gd-1.com 32 32 DSA100S – Công ty TNHH TM DV KT Minh Khang //gd-1.com/en/san-pham/dsa100s-drop-shape-analyzer/ Thu, 09 Feb 2023 03:33:55 +0000 //gd-1.com/?post_type=product&p=7300
The Standard configuration of the DSA100 Drop Shape Analyzer system solution is designed for the semi-automatic measurement of the static and dynamic contact angle and the scientific assessment of wettability by means of the surface free energy (SFE). The instrument, which is equipped with a robust housing, is well-suited for the reliable quality assurance of surface pre-treatment processes as well as the development and optimization of wetting and coating procedures. Accessories for ultrafast one-click SFE measurement as well as wetting analysis at higher temperatures enhance the spectrum of the instrument.
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  • Quality assurance and optimization of activation processes such as plasma treatment, flame treatment, or corona treatment before coating or bonding
  • Analyzing wettability of plastics, glass, ceramics, wood, paper, or metal
  • Analyzing the effectiveness of hydrophobic coatings and other coatings
  • Analyzing surface cleanliness
  • Wetting analysis at controlled temperature
  • MEASURING METHODS

    • Contact angle of a drop on a solid surface
    • Contact angle using a gas bubble beneath a solid surface in a liquid
    • Contact angles of two drops dosed in parallel
    • Surface free energy of a solid using contact angle data
    • Roll-off behavior and advancing/receding contact angle of a drop on a tilted surface
    • Surface tension using the curvature of a perfectly symmetrical drop on a circular sample pedestal
    • Carrying out a measurement up to 20 consecutive times and displaying the results together
    • Remote control of ADVANCE for integration in custom-designed, complex automations

    MEASURING RESULTS

    • Static contact angle
    • Advancing and receding contact angle
    • Contact angle using a bubble in a liquid
    • Surface free energy (SFE) according to the following models: Owens-Wendt-Rabel-Kaelble (OWRK), Fowkes, Wu, Zisman, Equation of State
    • Temperature
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