Sans Normal Bemez 13 is a bold, narrow, monoline, upright, normal x-height font visually similar to 'Korolev' by Device, 'Autovia' by Santi Rey, 'Ordina' by Schriftlabor, and 'Breuer Condensed' by TypeTrust (names referenced only for comparison).
Keywords: headlines, posters, branding, packaging, signage, modern, utilitarian, confident, clean, compact, space-saving, strong impact, clear labeling, modern neutrality, condensed, geometric, high-contrast (weight-to, closed apertures, tight spacing.
A compact, condensed sans with heavy, even stroke weight and crisp, squared terminals. Curves are smooth and strongly rounded, while verticals stay straight and dominant, creating a firm, efficient texture in lines of text. Counters are relatively tight and many apertures read as more closed than open, which reinforces the dense rhythm. Uppercase forms feel tall and disciplined; lowercase is similarly upright with straightforward, no-nonsense shaping and minimal modulation.
Best suited to headlines, short blocks of display text, packaging, and brand wordmarks where a compact footprint and strong presence are priorities. It can work for signage and UI labels when set with adequate size and spacing, since the tight counters and condensed forms can feel dense in long passages.
The overall tone is modern and pragmatic, with a direct, authoritative presence. Its narrow proportions and sturdy strokes give it an industrial, matter-of-fact character that reads as functional rather than decorative. The style feels contemporary and punchy, aimed at clarity and impact in limited space.
The design appears intended to deliver maximum impact and legibility in narrow horizontal space, combining geometric simplicity with a sturdy, uniform stroke. It prioritizes a consistent, contemporary silhouette that stays assertive across all-caps and mixed-case settings.
The condensed width produces a high information density, and the heavy strokes keep letterforms prominent even when set tightly. Round letters (like O/C) maintain an orderly geometry, while diagonals (like V/W/X) add angular energy without breaking the consistent weight and terminal treatment.