Sans Normal Asluw 2 is a regular weight, normal width, low contrast, upright, normal x-height font visually similar to 'Evert Greek', 'Evert Greek Display', 'Evert Greek Text', 'Evert Latin', 'Evert Latin Display', and 'Evert Latin Text' by Foundry5 (names referenced only for comparison).
Keywords: ui text, body text, editorial, product branding, signage, modern, neutral, clean, friendly, versatility, legibility, clarity, approachability, rounded, open apertures, humanist, soft corners, balanced.
A clean sans with gently rounded curves and a balanced, even rhythm. Strokes are fairly uniform with smooth joins and open counters, giving the letterforms a clear, unforced texture in text. The design mixes circular geometry (notably in O/C/G and the numerals) with slightly humanist shaping in shoulders and terminals, keeping the overall color consistent across lines. Uppercase proportions feel straightforward and stable, while the lowercase shows practical, readable forms with a single-storey a and g and compact punctuation-like details.
Works well for UI and product text where clarity and steady rhythm matter, and it holds together in longer paragraphs thanks to open counters and consistent stroke behavior. It can also support straightforward branding and signage that benefits from a clean, contemporary sans without a sharply technical feel.
The overall tone is modern and neutral, leaning friendly rather than rigid. Its rounded forms and open spacing read approachable and contemporary, suitable for interfaces and everyday brand communication without drawing too much attention to itself.
The design appears intended as a versatile, everyday sans optimized for legibility and even texture, blending geometric clarity with soft, humanist touches to remain comfortable in extended reading and functional in interface contexts.
Numerals are clear and fairly monolinear, matching the letterforms in width and visual weight for continuous reading. The sample text shows smooth paragraph color and good word-shape continuity, with curves and diagonals staying consistent across sizes.