Sans Superellipse Efruk 14 is a regular weight, narrow, monoline, italic, tall x-height font.
Keywords: headlines, posters, branding, sports graphics, tech ui, tech, futuristic, sporty, industrial, precise, modernize, add speed, save space, systematize, condensed, rounded corners, rectilinear, oblique, high contrast (shape).
A condensed, oblique sans with monoline strokes and a distinctly rectilinear construction softened by rounded corners. Curves resolve into superellipse-like rounded rectangles, giving bowls and counters a squared-off feel rather than fully circular forms. The rhythm is tight and upright in structure despite the slant, with generous x-height and compact ascenders/descenders that keep lines efficient. Terminals are clean and mostly horizontal/vertical, and joins are crisp, producing a disciplined, engineered texture in both all-caps and mixed case.
It performs best in short-to-medium display settings where its condensed width and oblique stance can add momentum—headlines, posters, titles, and branding systems. The uniform stroke and open, squared counters also make it suitable for UI labels, dashboards, and technical or sports-themed graphics where a crisp, modern tone is desired.
The overall tone feels contemporary and technical, with a forward-leaning, aerodynamic energy suited to modern interfaces and performance-oriented branding. Its squared curves and steady stroke give it an industrial, engineered character that reads as confident and precise rather than casual or decorative.
The design appears intended to merge a streamlined italic stance with superellipse-based geometry, creating a compact, high-efficiency sans that feels engineered and contemporary. The rounded-rect construction suggests a focus on consistency across letters and numerals, delivering a distinctive, tech-leaning voice without relying on ornament.
Capitals show a consistent squarish rounding in C/G/O/D-like forms, while diagonals in letters such as K, V, W, X, and Y stay slim and sharp. Numerals follow the same rounded-rect geometry, maintaining uniform stroke and compact proportions for a cohesive alphanumeric set.