Sans Superellipse Kybov 10 is a very bold, very wide, high contrast, italic, normal x-height font.
Keywords: headlines, sports branding, gaming ui, posters, logotypes, futuristic, sporty, techy, assertive, dynamic, impact, speed, modernity, display, branding, rounded, oblique, extended, blocky, streamlined.
A heavy, oblique sans built from rounded-rectangle and superellipse shapes, with broad proportions and a low-ink-counterpoint rhythm. Strokes are thick and crisp, with softened corners throughout and frequent horizontal terminals that read as flattened “caps.” Curves are squared-off rather than circular, giving bowls and counters a compact, engineered feel; apertures stay relatively tight, especially in letters like C, S, and e. The overall texture is dense and uniform, while individual letters show purposeful squaring and chamfer-like transitions that keep forms stable at large sizes.
Best suited to high-impact display settings such as headlines, title cards, sports and esports branding, gaming-related graphics, and bold product or event posters. It can also work for short UI labels or interface headings where a futuristic, performance-oriented tone is desired, but its dense counters favor larger sizes and shorter copy.
The design projects speed and control: confident, aerodynamic, and slightly aggressive without becoming sharp. Its rounded geometry and slanted stance evoke motorsport, sci‑fi interfaces, and contemporary tech branding, balancing toughness with a polished, synthetic smoothness.
The letterforms appear designed to deliver maximum visual presence with a fast, forward-leaning posture and a cohesive superelliptical construction. The intention reads as a modern display sans that emphasizes motion, strength, and a controlled, industrial smoothness.
The alphabet shows consistent corner radiusing and a strong horizontal emphasis, with many shapes appearing built on modular rounded blocks. Numerals follow the same extended, streamlined construction, and the punctuation and punctuation-like details visible in the samples maintain the same flattened, engineered terminal treatment.