Print Orgaw 9 is a regular weight, very narrow, medium contrast, italic, very short x-height font.
Keywords: posters, headlines, packaging, social media, invitations, casual, handmade, lively, friendly, personal, handwritten feel, casual display, human warmth, quick note, expressive texture, brushy, slanted, springy, textured, informal.
A compact, slanted handwritten print with brush-like strokes and subtly textured edges that suggest a quick, natural tool. Letterforms are narrow and upright-to-forward-leaning, with variable character widths and a steady, rhythmic baseline. Strokes show moderate thick–thin behavior from implied pen angle and pressure, and terminals are mostly tapered or lightly blunted rather than sharply finished. Capitals are tall and prominent, while lowercase is small and compact, giving the overall texture a top-heavy, energetic profile.
Works well for short-to-medium display settings such as posters, packaging callouts, social graphics, invitations, and headers where a personal handwritten feel is desired. It can also suit quotes, captions, and labeling when a quick, human note-like voice is needed, especially at sizes large enough to preserve the brush texture and tight interior spaces.
The font reads as conversational and human, with a fast, note-to-note spontaneity that feels approachable rather than polished. Its brisk slant and narrow proportions add urgency and motion, while the brushy texture keeps it warm and personal. Overall it conveys an informal, creative tone suited to everyday messaging.
Designed to emulate a swift handwritten print made with a brush pen or marker, balancing legibility with expressive, gestural movement. The narrow, slanted construction and textured stroke edges aim to deliver a lively, handmade voice for contemporary casual design.
In running text, the tall capitals and compact lowercase create strong word silhouettes and a slightly scribbled cadence. Numerals and letters share the same handwritten logic, with simplified, gestural forms that prioritize flow over geometric uniformity.