Sans Normal Kebip 1 is a bold, normal width, low contrast, italic, normal x-height font visually similar to 'Back And Forth' by A New Machine (names referenced only for comparison).
Keywords: headlines, posters, branding, sportswear, packaging, sporty, dynamic, confident, modern, energetic, impact, motion, modernity, clarity, brand voice, oblique, geometric, rounded, compact, punchy.
A heavy, oblique sans with rounded, compact forms and smooth, continuous curves. The strokes are largely monolinear with subtly tapered joins, giving letters a soft, aerodynamic feel rather than a rigid mechanical one. Counters are fairly tight and the overall spacing reads dense and cohesive, producing strong word shapes at display sizes. The numeral set matches the letterforms with similarly rounded, forward-leaning silhouettes and clear, simplified construction.
Best suited for headlines, posters, and other display contexts where a strong, moving silhouette is an advantage. It can work well for branding systems aiming for speed and confidence—such as sports, fitness, automotive, or tech—and for packaging or promotional graphics that need immediate visual punch.
The overall tone feels fast, assertive, and contemporary, with an emphasis on motion and impact. Its forward slant and compact, rounded geometry create a sporty, performance-oriented voice that reads as energetic and direct rather than formal or delicate.
This design appears intended to deliver a bold, motion-driven sans voice with rounded geometry for approachability. The combination of forward slant, compact proportions, and simplified shapes suggests a focus on high-impact display typography that remains clean and modern.
The sample text shows strong emphasis and legibility in short phrases, with a noticeable rightward momentum that keeps lines visually active. The rounded terminals and smooth curvature help prevent the heavy weight from feeling harsh, while the tight internal spaces suggest it will be most comfortable with generous tracking or at larger sizes when used in dense settings.