Sans Normal Uslum 9 is a regular weight, normal width, medium contrast, italic, normal x-height font visually similar to '19-PRA' by ILOTT-TYPE (names referenced only for comparison).
Keywords: ui text, product design, infographics, captions, branding, clean, modern, neutral, technical, efficient, emphasis, clarity, modernity, efficiency, readability, oblique stress, open apertures, smooth curves, crisp terminals, compact forms.
This is a slanted sans with smooth, rounded construction and a steady, contemporary rhythm. Strokes show gentle contrast and clean, mostly unadorned terminals, giving letters a crisp silhouette without sharp angularity. Counters are open and forms stay compact, with circular shapes that remain slightly ovalized by the slant. Spacing reads even and functional, supporting continuous text while preserving clear character separation.
It works well for UI text, dashboards, and product typography where a controlled italic voice is needed for emphasis or secondary hierarchy. The clear shapes and even texture also suit captions, labels, presentations, and infographics. In branding, it can support a modern, streamlined identity, especially for tech or service-oriented contexts.
The overall tone is modern and matter-of-fact, with an understated dynamism from the italic angle. It feels practical and efficient rather than expressive, suitable for interfaces or communication where clarity is prioritized. The slant adds a subtle sense of motion and emphasis without becoming decorative.
The design appears intended as a utilitarian italic sans that stays neutral and readable while adding gentle forward motion. Its consistent curves and restrained contrast suggest a focus on clarity, typographic economy, and dependable performance across mixed-case text and numerals.
Figures follow the same oblique logic as the letters, maintaining consistent stroke behavior and proportions across the set. Uppercase and lowercase relate cleanly, and the sample text shows stable word shapes with a smooth, uninterrupted texture at reading sizes.