Sans Normal Amlih 14 is a regular weight, normal width, low contrast, upright, normal x-height font visually similar to 'Dikta Neue' by Atasi Studio, 'Innova' by Durotype, 'Galvani' and 'Qubo' by Hoftype, and 'Belle Sans' by Park Street Studio (names referenced only for comparison).
Keywords: ui text, branding, signage, headlines, editorial, modern, neutral, clean, utilitarian, corporate, legibility, versatility, neutrality, modernity, geometric, monoline, round, crisp, open.
This is a clean, geometric sans with monoline strokes and smoothly rounded bowls. Proportions feel balanced and contemporary, with generous counters and clear apertures that keep the texture even in paragraph settings. Curves are circular and controlled, while joins and terminals are tidy and minimally styled; diagonals (as in A, V, W, X, Y) are crisp and steady. Numerals are straightforward and highly legible, matching the letterforms’ consistent stroke rhythm and calm spacing.
Well suited to UI and product copy, wayfinding and signage, dashboards, and general-purpose branding where a neutral, contemporary voice is needed. It also works effectively for headlines and subheads thanks to its clean geometry and firm presence without feeling ornamental.
The overall tone is neutral and modern, prioritizing clarity over personality. It reads as professional and efficient, with a familiar, system-like calm that suits everyday interface and informational typography.
The design appears intended as a versatile, no-nonsense geometric sans that emphasizes clarity, consistency, and broad usability. Its restrained detailing and even rhythm suggest a focus on modern digital and corporate applications where legibility and neutrality are primary goals.
Round letters (C, G, O, Q) have smooth, even curvature, and the shapes avoid dramatic modulation or calligraphic influence. Lowercase forms are simple and practical, with a single-storey a and g contributing to a more contemporary, geometric feel. The sample text shows stable word shapes and a consistent gray value, suggesting dependable performance in continuous reading at larger text sizes.