Sans Faceted Ihfu 10 is a very light, normal width, monoline, upright, normal x-height font.
Keywords: ui display, headlines, posters, branding, tech graphics, futuristic, technical, minimal, geometric, precision, geometric stylization, futuristic tone, systematic forms, display impact, angular, chamfered, squared, crisp, modular.
This typeface is built from thin, uniform strokes with a geometric, faceted construction that substitutes curves with straight segments and crisp corners. Many forms resolve into squared bowls and rectangular counters, giving letters like O, D, and Q a boxy silhouette, while diagonals remain clean and consistent in A, V, W, X, and Y. Terminals are predominantly flat and orthogonal, with occasional clipped or chamfer-like joins that reinforce a planar, engineered feel. Overall spacing reads even and restrained, producing a tidy rhythm in both uppercase and lowercase as well as in the numerals.
It works best at display sizes where the faceted geometry and squared counters remain clearly legible, such as UI headings, tech-themed branding, posters, packaging accents, and editorial titling. It can also suit diagrams, labels, and interface mockups where a crisp, engineered aesthetic is desired.
The overall tone is futuristic and technical, evoking interfaces, schematics, and modernist minimalism. Its sharp geometry and reduced ornamentation create a cool, precise voice that feels digital and design-forward rather than conversational.
The design appears intended to deliver a sleek, constructed sans voice with a distinctly angular, faceted geometry. By minimizing curves and emphasizing planar joins and squared forms, it aims to project precision and a contemporary, digital-forward character.
The design leans heavily on rectilinear structure, so round characters take on an intentionally squared personality, and the lowercase retains a similarly constructed, modular look. The thin stroke and open interior shapes keep it visually light, while the consistent angles and corners maintain strong stylistic cohesion across the set.