Sans Superellipse Arlak 3 is a light, wide, low contrast, italic, normal x-height font.
Keywords: tech branding, ui headings, sports graphics, product labeling, poster titles, futuristic, technical, sleek, sporty, digital, modernization, speed cue, geometric coherence, digital aesthetic, display clarity, rounded corners, monoline, oblique, extended, angular.
A streamlined oblique sans with monoline strokes and consistently rounded, superellipse-like corners. Forms lean forward with a low, extended stance and generous horizontal proportions, producing a fast, aerodynamic silhouette. Curves are squared-off into softened rectangles (notably in bowls and counters), while joins and terminals stay clean and uncluttered; crossbars and horizontals read steady and controlled. Spacing feels even and airy, supporting a crisp, engineered rhythm across both uppercase and lowercase.
Well suited to display roles where a sleek, futuristic voice is desirable—technology branding, user-interface headings, automotive or esports graphics, and product or model-name labeling. It performs best in short lines, titles, and branded phrases where its extended, oblique rhythm can carry the composition without relying on dense text color.
The overall tone is modern and tech-forward, with a subtle motorsport and sci‑fi sensibility. Its rounded-rect geometry and forward slant suggest speed, precision, and a contemporary industrial aesthetic rather than warmth or tradition.
The design appears intended to fuse geometric clarity with a fast, contemporary stance, using rounded-rectangle construction to feel both digital and approachable. The consistent corner radii and disciplined stroke behavior suggest a focus on system-like coherence for branding and interface-forward applications.
Round glyphs gravitate toward squarish ovals, giving counters a compact, modular feel. The numerals and capitals maintain the same softened-corner logic, which helps the set read cohesively in all-caps and mixed-case settings. At smaller sizes the light monoline construction may favor high-contrast reproduction where the open spacing can be preserved.