Sans Normal Afris 14 is a regular weight, normal width, low contrast, italic, normal x-height font visually similar to 'Contempo Gothic' by Arkitype, 'BR Segma' by Brink, 'Oktah Round' by Groteskly Yours, 'Kaleko 105 Text' by Talbot Type, 'Endorphin' by Tall Chai, and 'Causten' and 'Causten Round' by Trustha (names referenced only for comparison).
Keywords: branding, headlines, posters, packaging, ui labels, modern, friendly, clean, sporty, dynamic, energetic emphasis, modern utility, friendly clarity, rounded, slanted, geometric, open apertures, compact.
A slanted, rounded sans with smooth, geometric construction and a steady, even stroke. Curves are clean and circular, terminals read mostly as sheared/cut to match the italic angle, and counters stay open and uncluttered. Proportions lean slightly compact with straightforward, single‑storey lowercase forms and simplified joins that keep the texture even across lines. Numerals follow the same geometric logic, with rounded bowls and crisp diagonal cuts.
Well-suited to brand identities, headlines, and promotional graphics where a modern, upbeat italic voice is useful. Its rounded geometry and open forms also make it workable for short UI labels, product packaging, and signage where clean, friendly emphasis is desired.
The overall tone feels contemporary and approachable, combining a friendly roundness with forward motion from the consistent slant. It reads confident and energetic without becoming loud or decorative, giving it a practical, modern voice.
The design appears intended as a versatile italic sans that delivers motion and emphasis while staying simple, geometric, and highly legible. It aims to provide a contemporary alternative to traditional obliques by pairing consistent slant with rounded, approachable letterforms.
The italic angle is uniform across caps, lowercase, and figures, producing a cohesive rightward rhythm in running text. The shapes prioritize clarity and smoothness over calligraphic modulation, helping the font maintain a neat, controlled color at display sizes.