Sans Superellipse Finad 3 is a very bold, wide, low contrast, italic, normal x-height font visually similar to 'Black Square' by Agny Hasya Studio, 'Barakat' by Denustudio, and 'Sweet Square' by Sweet (names referenced only for comparison).
Keywords: sports branding, racing graphics, headlines, posters, gaming ui, sporty, futuristic, technical, energetic, confident, speed, impact, modernity, branding, display, oblique, rounded, squared, streamlined, compact.
A heavy oblique sans with broad, superellipse-driven forms: squared-off bowls and counters softened by generous corner radii. Strokes stay largely monolinear, with blunt terminals and a consistent forward slant that creates a fast, aerodynamic rhythm. The geometry favors wide, stable silhouettes and horizontally stretched curves, while counters remain open enough to keep dense shapes from clogging. Numerals echo the same rounded-rectangle construction, with an especially boxy, track-like feel in figures such as 0, 2, and 3.
This face is well suited to sports and motorsport-style branding, energetic headlines, and promotional graphics that benefit from a strong slanted stance. It can also work in gaming or tech-forward UI accents, short labels, and titling where its compact, streamlined word shapes remain legible at larger sizes.
The overall tone feels fast and engineered, projecting a sporty, high-performance attitude with a modern, slightly sci‑fi edge. Its chunky, rounded geometry reads confident and assertive, suited to designs that want impact without sharp aggression.
The design appears intended to merge bold display impact with an aerodynamic, contemporary voice. By combining superelliptical rounding with wide proportions and a strong oblique stance, it aims to communicate speed, power, and modernity in logos and headline settings.
The oblique angle is pronounced and consistent, and the spacing appears tuned for display use where tight, cohesive word shapes matter. The rounded-square construction gives letters a distinctive “machined” softness, balancing solidity with motion.