Print Sirey 6 is a bold, narrow, low contrast, upright, short x-height font.
Keywords: kids branding, packaging, posters, social graphics, invitations, playful, casual, friendly, handmade, youthful, handmade charm, friendly display, casual voice, playful legibility, rounded, brushy, chunky, quirky, bouncy.
A lively hand-drawn print with thick, rounded strokes and subtly uneven contours that mimic marker or brush lettering. Letters are mostly upright with softly tapered terminals, occasional bulb-like ends, and a gently irregular baseline that creates a bouncy rhythm. Counters are compact and sometimes asymmetrical, while curves (C, O, S) stay open and generous, keeping the texture airy despite the heavy stroke. Spacing and widths vary from glyph to glyph, reinforcing an informal, handmade consistency rather than mechanical uniformity.
This font works well for short-to-medium display text where a personable, handmade feel is desired—such as kids and family-oriented branding, playful packaging, posters, headlines, and social media graphics. It can also suit invitations, crafts, and informal signage where charm and immediacy matter more than typographic precision at small sizes.
The overall tone is cheerful and approachable, with a spontaneous, doodled energy that feels personal and conversational. Its chunky, rounded forms read as friendly and upbeat, leaning toward kid-centric, craft, or casual lifestyle aesthetics rather than formal editorial voice.
The design appears intended to capture the look of quick, confident hand lettering in an unconnected print style, prioritizing warmth, character, and legible simplicity. Its consistent heaviness and rounded forms suggest a goal of creating bold, friendly display text with an intentionally imperfect, human touch.
Uppercase forms are simplified and sturdy, while lowercase shapes lean more gestural, giving mixed-case text a warm, human cadence. Numerals match the same soft, hand-rendered construction and sit comfortably alongside letters, maintaining the same playful irregularity in stroke endings and curvature.