Sans Normal Arreg 14 is a regular weight, normal width, low contrast, upright, normal x-height font visually similar to 'Fold Grotesque' and 'Fold Grotesque Variable' by Colophon Foundry, 'Monto Grotesk' by Lucas Tillian, and 'Anthro' by Studio Few (names referenced only for comparison).
Keywords: ui text, web, branding, editorial, signage, modern, clean, neutral, friendly, technical, versatility, clarity, system design, modern neutrality, readability, geometric, open apertures, high legibility, crisp terminals, even rhythm.
A clean, geometric sans with smooth, round bowls and largely uniform stroke thickness. Curves are drawn with a consistent circular logic, while straight stems and bars stay crisp and unembellished. Counters are open and well-sized, with clear apertures in letters like c, e, and s; the overall spacing reads even and orderly in both the grid and paragraph sample. Numerals follow the same rounded construction, with a simple, clear “1” and a balanced, open “4,” supporting straightforward readability.
Well-suited to interface and web typography where clarity and consistency matter, as well as general-purpose branding systems that need a neutral sans foundation. Its even color and open forms also make it comfortable for editorial subheads, captions, and straightforward signage.
The tone is contemporary and matter-of-fact, with a mild friendliness coming from its rounded forms and steady rhythm. It feels practical and unobtrusive rather than expressive, leaning toward a calm, modern utility that suits information-forward design.
The design appears intended as a versatile, geometric-leaning workhorse: simple construction, stable proportions, and restrained detailing aimed at producing clear text and dependable display lines without stylistic distraction.
Capitals show a tidy, engineered structure—particularly in round letters like O and Q—while diagonals in A, V, W, X, and Y are sharp and stable. Lowercase forms stay simple and conventional, helping the sample text maintain a smooth, predictable texture at reading sizes.