Snow, Particle & Image Window Effects
FUSION BUILDER ELEMENT ADD-ON
Snow white and the seven particles – if you’re looking for a new classic to spice up a page, consider our Snow, Particle & Image Window Effects element add-on for Avada’s Fusion Builder! We offer a creative way to display falling circle particles, snowflakes (requires FontAwesome to be active), or a custom image, complimented with options to specify the number of particles for desktop and responsive devices separately for optimal performance, size, animation speed, rotation, enable a “melting effect”, target a specific element on the page, and even add a link to the particles – how chill-tastic! Still need convincing? Have a look at our live examples and included features below.
Snowflake Particle Type Window Effect
A snowflake type example set to use the default number of particles for desktop (100) and a manual amount for performance on responsive devices (10), default values for lower and upper bounds sizes (4px and 12px), default values for lower and upper bounds speed (60 and 100), default white color, “melting” feature enabled, and the “Show on Element” option matching the CSS ID of the image to target.
Font Awesome is required for the “snowflake” type
Circle Particle Type Window Effect
A circle particle type example set to use a custom number of particles for desktop (50) and minimum amount for responsive devices (10), custom values for lower and upper bounds sizes (20 and 60), custom values for lower and upper bounds speeds (150 and 900), the color set to 20% opacity, and target a transparent PNG for the image used.
works great on images with a transparent background!
Image Particle Type Window Effect
An image window effect example set to use the minimum number of particles for desktop (10) and “automatic screen size scaling” for responsive devices, custom values for lower and upper bounds sizes (15 and 45), custom values for lower and upper bounds speed (50 and 300), and target an image that has a 50% border radius applied.
size the image to match the upper bound for best performance
