Sans Superellipse Vekal 4 is a regular weight, wide, low contrast, italic, normal x-height font.
Keywords: ui labels, sports branding, technology, posters, headlines, futuristic, technical, sporty, sleek, dynamic, speed emphasis, tech aesthetic, streamlined signage, modern branding, rounded corners, squared curves, oblique, geometric, monoline.
A slanted, monoline sans built from rounded-rectangle geometry, with corners consistently softened into superellipse-like curves. Strokes stay even and clean, with open apertures and a forward-leaning construction that emphasizes horizontal motion. Many forms use squared bowls and rounded terminals, creating a crisp, engineered rhythm; counters tend to be compact and rectilinear rather than purely circular. Numerals and capitals share the same angled posture and taut spacing, producing a cohesive, streamlined texture in text.
This font suits display uses where a fast, modern voice is needed: UI/UX labels, product dashboards, esports or sports branding, and tech marketing. It also works well for short headlines, signage, and packaging callouts where its squared-rounded shapes and oblique stance can communicate precision and momentum.
The overall tone feels futuristic and performance-oriented, like interface labeling or motorsport graphics. Its rounded-square forms read as modern and controlled, while the oblique angle adds speed and urgency. The result is confident and tech-forward rather than friendly or nostalgic.
The design appears intended to translate rounded-rectangular, industrial geometry into an italicized sans for contemporary branding and on-screen typography. By keeping strokes uniform and corners consistently radiused, it aims for a clean, engineered look that remains readable while projecting speed and modernity.
Several glyphs show deliberate, stylized simplification—especially in curved letters and numerals—favoring chamfered-like transitions and rounded corners over traditional humanist modulation. The slant is consistent across cases, helping mixed-case settings maintain a unified, directional flow.