Sans Superellipse Onmil 6 is a bold, normal width, monoline, upright, normal x-height font visually similar to 'Expedition' by Aerotype (names referenced only for comparison).
Keywords: display, headlines, posters, branding, packaging, futuristic, techno, industrial, sporty, game ui, sci-fi styling, ui influence, impactful display, geometric uniformity, rounded corners, squared curves, modular, geometric, compact apertures.
A geometric sans built from squared-off curves and rounded-rectangle bowls, with a consistent, monoline stroke and firm, horizontal and vertical emphasis. Corners are broadly radiused, counters are mostly rectangular, and apertures tend to be narrow, giving the face a compact, engineered feel. Many joins and terminals resolve into clean, flat cuts with occasional angled strokes in diagonals, producing a crisp rhythm in both caps and lowercase. Numerals follow the same boxy logic, with simplified, high-contrast interior windows and a sturdy, signage-like silhouette.
Best suited for display typography where the angular, rounded-rect geometry can be appreciated—headlines, posters, logos, packaging, and tech-oriented branding. It can also work well for game/UI titling and short labels where a modern, engineered voice is desired, while very small text may require ample sizing due to the compact apertures.
The overall tone is futuristic and utilitarian, evoking digital hardware, sci‑fi interfaces, and performance branding. Its squared geometry reads confident and technical, with a slightly aggressive edge that feels suited to high-energy, modern contexts.
The likely intention is to deliver a contemporary geometric voice rooted in rounded-square forms, optimized for bold visual identity and a distinctly digital, techno aesthetic. The consistent stroke and modular curves aim to keep letterforms uniform and impactful across uppercase, lowercase, and numerals.
Round letters such as O and Q stay distinctly squarish rather than circular, reinforcing the superelliptic construction. The design favors clarity and impact over softness, with tight internal spaces that can look especially strong at larger sizes.