Sans Normal Armoy 1 is a regular weight, normal width, low contrast, upright, normal x-height font visually similar to 'EB Corp' by Eko Bimantara, 'Epoca Pro' by Hoftype, 'Clear Sans Text' by Positype, 'Core Sans E' by S-Core, 'June' and 'June Pro' by Schriftlabor, 'Corbert Condensed' by The Northern Block, and 'Eastman Grotesque' by Zetafonts (names referenced only for comparison).
Keywords: ui text, body copy, editorial, product design, signage, clean, modern, neutral, friendly, practical, legibility, neutrality, versatility, clarity, rounded, open, crisp, even, unassuming.
A clean sans with softly rounded curves, open counters, and largely monolinear stroke construction. Terminals are mostly squared-off with subtle rounding, giving a crisp but not sharp finish. Proportions read balanced and straightforward, with sturdy uppercase forms, clear apertures in letters like C, S, and e, and simple, highly legible numerals. Spacing and rhythm feel even and calm, supporting continuous reading without drawing attention to individual shapes.
Well-suited to interface typography, product and documentation text, and general-purpose editorial layouts where consistent legibility is the priority. Its restrained character also works for wayfinding and informational graphics that benefit from a clean, neutral voice.
The overall tone is modern and matter-of-fact, with a mild friendliness from the rounded geometry. It feels dependable and unobtrusive rather than expressive, projecting clarity, approachability, and everyday utility.
The design appears intended as a versatile, do-it-all sans focused on clarity and stable texture in both isolated glyphs and running text. The rounded geometry and open forms suggest an emphasis on comfortable reading and broad applicability across digital and print contexts.
In text, the letterforms maintain consistent color and predictable rhythm, making the sample paragraphs look orderly and easy to scan. The figures appear designed to sit comfortably alongside text, with straightforward shapes and clear differentiation at typical reading sizes.