Sans Normal Oknez 14 is a bold, wide, low contrast, upright, normal x-height font visually similar to 'Altone' by Eko Bimantara and 'SFT Schrifted Sans' by Schrifteria Foundry (names referenced only for comparison).
Keywords: headlines, branding, posters, signage, ui labels, modern, confident, friendly, clean, bold, high impact, clear geometry, modern utility, brand presence, geometric, rounded, sturdy, high clarity, contemporary.
This is a heavy, geometric sans with smooth, rounded bowls and a largely circular construction across counters and curves. Strokes are monolinear with minimal modulation, giving the letters a solid, even color on the page. Proportions read slightly expansive, with generous widths and open counters that keep forms like C, O, e, and s clear at display sizes. Terminals are clean and straightforward; joins are tidy and consistent, and the overall rhythm is steady and uncluttered across both uppercase and lowercase.
Best suited to headlines, branding, posters, and other attention-forward typography where a strong, clean silhouette is needed. The open counters and steady stroke behavior also make it a practical choice for signage and short UI labels that benefit from bold, high-contrast-in-size letterforms.
The overall tone is contemporary and confident, with a friendly smoothness coming from the rounded geometry and open interiors. It feels direct and legible rather than quirky, projecting a pragmatic, modern voice that can still feel approachable.
The design appears intended to deliver a modern, geometric sans voice with high impact and dependable legibility. Its consistent stroke weight and rounded construction suggest a focus on clear, scalable shapes that feel contemporary and versatile across display contexts.
The numeral set follows the same geometric logic, with rounded forms and a strong, even presence; curved digits (0, 6, 8, 9) look especially cohesive. In the sample text, the weight produces strong headline impact while counters remain readable, suggesting the design prioritizes clarity under dense settings.