Sans Normal Okluy 10 is a bold, normal width, low contrast, upright, tall x-height font.
Keywords: headlines, posters, branding, packaging, signage, modern, confident, clean, friendly, corporate, impact, clarity, neutrality, consistency, geometric, compact, high aperture, flat terminals, even texture.
A heavy, geometric sans with broad, simple construction and very even stroke weight. Curves are smoothly rounded and close to circular, while straight-sided forms stay crisp with minimal modulation. Terminals are predominantly flat and squared off, producing a compact, sturdy silhouette and a consistent typographic color. Counters are relatively open for the weight, and lowercase shapes maintain clear, straightforward forms with a distinctly tall x-height feel in text.
Best suited to headlines, titles, posters, and brand marks where a strong, contemporary sans presence is needed. It can work well for packaging, signage, and UI/labeling at medium-to-large sizes where its compact, even texture reads clearly. In long passages, the heavy weight will create a dense page color, so it’s most effective for emphasis and display use.
The overall tone is modern and confident, with a clean, no-nonsense presence that still reads approachable. Its geometric regularity suggests contemporary branding and interface sensibilities, leaning more utilitarian than expressive. The weight gives it an assertive voice suited to attention-grabbing headlines and strong labels.
The design appears intended to deliver a sturdy, geometric sans voice with high impact and consistent texture across letters and numbers. It prioritizes clarity and uniformity over calligraphic detail, aiming for a dependable, modern workhorse look in display and branding contexts.
The sample text shows a dense, stable rhythm with tight interior spaces handled cleanly at larger sizes. Rounded letters (like C, O, S) keep smooth continuity, while straight forms (E, F, H, N) reinforce a solid, structured look. Numerals appear sturdy and highly legible, matching the letterforms’ simple geometry and uniform weight.