Sans Superellipse Porey 10 is a very bold, very narrow, monoline, upright, tall x-height font visually similar to 'Morgan Tower' by Feliciano, 'Bowser' by Hipfonts, 'Kajiro' by Maulana Creative, 'Robson' by TypeUnion, and 'Bitcrusher' by Typodermic (names referenced only for comparison).
Keywords: headlines, posters, signage, branding, packaging, industrial, retro, authoritative, utilitarian, mechanical, space saving, high impact, industrial tone, geometric styling, condensed, tall, rounded corners, rectilinear, compact.
A condensed, tall sans with uniform stroke weight and a strong vertical emphasis. Curves resolve into rounded-rectangle forms, giving bowls and counters a squared-off softness rather than true circular geometry. Terminals are generally flat and blunt, with tight apertures and compact interior spaces that create a dense, punchy texture. Overall spacing appears on the tight side, producing a rigid, poster-like rhythm in lines of text.
Best suited to headlines, posters, signage, and bold branding where its condensed height and dense color can carry impact. It can also work for packaging and labels that need a compact, vertical look, but it’s less comfortable for long passages of small text due to tight counters and a forceful overall tone.
The font reads as industrial and retro-modern, combining a no-nonsense, engineered feel with a slightly stylized, display-forward silhouette. Its compact proportions and squared curves convey authority and control, leaning more mechanical than friendly.
The design appears intended to deliver maximum presence in minimal horizontal space, using squared-rounded forms and uniform strokes to create a sturdy, industrial display voice. Its consistent geometry suggests a focus on repeatable shapes and strong silhouettes for attention-grabbing typography.
Round letters like O and Q show superelliptical shaping with vertically oriented counters, and the numerals follow the same tall, compressed logic for consistent texture. The design favors strong silhouettes over open readability, especially where apertures and joins get tight at smaller sizes.