Sans Faceted Yibo 7 is a very bold, very wide, medium contrast, italic, normal x-height font.
Keywords: sports branding, gaming titles, racing graphics, posters, headlines, futuristic, aggressive, athletic, techno, action, speed, impact, machined look, modern edge, display focus, angular, faceted, slanted, geometric, blocky.
A heavily slanted, geometric sans with sharp planar facets that replace most curves, producing a chiseled, aerodynamic silhouette. Strokes are thick and compact with clipped corners and wedge-like terminals, and counters are kept tight and polygonal (notably in O, Q, 8, and 9). The overall rhythm is forward-leaning and energetic, with a wide stance and sturdy caps; lowercase forms largely echo the same angular construction for a cohesive, all-caps-like texture in running text. Numerals share the same faceted logic, using horizontal cut-ins and sharp joins to maintain the mechanical, high-impact look.
This font is best suited to short, high-impact settings such as sports identities, esports or gaming titles, racing-themed graphics, and bold promotional headlines. It also works well for logos, packaging callouts, and motion graphics where the slanted, faceted construction can reinforce speed and intensity.
The tone reads fast, forceful, and performance-driven—suggesting speed, competition, and futuristic machinery. Its sharp geometry and pronounced slant give it an assertive, action-oriented voice that feels at home in high-energy visual systems.
The letterforms appear designed to deliver maximum punch and momentum through a forward slant and faceted, machined geometry. The consistent use of clipped corners and polygonal counters suggests an intention to evoke speed and technical precision while remaining clearly sans and highly graphic.
The design emphasizes straight segments and diagonal joins, creating strong directional flow and a consistent “shaved” edge detail across many glyphs. In paragraphs, the dense shapes and tight counters build a dark, punchy color that prioritizes impact over quiet readability at small sizes.