The information you provide, including personal data such as name and job title, may be stored in our customer database if required to maintain further contact with you as it relates to the inquiry you’ve submitted. When we gather this information, it is to better understand your needs and properly service your inquiry.
We may use the information to improve our products and services. If you select a box on the form indicating your desire to be added to our mailing list, we may periodically send promotional emails via the email address you provided about new products or other information we think you may find interesting. You will always be provided an option to opt-out of these communications.
If we enter a business relationship with you because of your inquiry, you may also receive periodic promotional emails tailored to your areas of interest. You will always be provided an option to opt-out of these communications.
We may also use your information to contact you by email, telephone, or mail for market research purposes.
We may use the data to help us assess the effectiveness of marketing campaigns.
We may use the data to help us improve the design of our website and make it more usable for you.
SpeedMask® light-curable masking resins are formulated to provide superior surface protection from the thermal and aggressive application of Plasma Spray coatings. The resins also provide thermal and chemical resistance during e-coat and powder-coating processes. Common coating applications where these masking resins are successfully being used include:
Air Plasma Spray - Thermal Barrier Coatings
Painting and Powder Coating
If you do not see your process, please contact Applications Engineering to learn how SpeedMask Masking Resins can make your manufacturing more efficient.
Peelable maskant; next-generation formulation; UV/Visible light curing; moderate adhesion; easy to remove; excellent protection during moderate-pressure blasting; See-Cure technology resin transitions from blue to pink upon sufficient exposure to light energy