Sans Superellipse Ukloh 13 is a very bold, narrow, medium contrast, upright, normal x-height font.
Keywords: headlines, posters, packaging, signage, sports branding, industrial, assertive, sporty, poster-like, retro, high impact, space saving, strong branding, geometric consistency, condensed, rounded corners, squared bowls, blocky, compact.
A compact, condensed sans with heavy, even strokes and rounded-rectangle construction throughout. Curves resolve into squared bowls and soft corners, producing a superelliptic look in letters like O, C, and D and in the counters of B, P, and R. Terminals are blunt and flat, joins are sturdy, and interior apertures are relatively tight, giving the design a dense, high-impact texture. Uppercase forms are tall and rectangular, while lowercase is similarly compact with short ascenders/descenders and simple, utilitarian shapes; the overall rhythm is consistent and built for bold silhouette clarity.
Best suited to display contexts such as headlines, posters, packaging, and large-format signage where its dense, compact shapes read as confident blocks. It also fits sports branding and bold label systems that need tight set widths and a strong, industrial voice.
The font conveys a tough, no-nonsense tone with a distinctly industrial and athletic flavor. Its chunky geometry and compressed stance feel energetic and forceful, suggesting headline urgency and a slightly retro, signage-inspired character.
The design appears intended to deliver maximum visual punch in a condensed footprint, using rounded-rectangle geometry to stay friendly at the corners while remaining firmly mechanical in structure. It prioritizes consistent, blocky silhouettes and strong emphasis for attention-grabbing typography.
The squared, softened-corner construction creates strong repetition across the alphabet and numerals, helping long lines of text maintain a uniform, blocky color. Counters and apertures are small relative to the stroke weight, which favors impact over delicacy and makes the design feel especially solid at large sizes.