Print Rokam 9 is a bold, normal width, medium contrast, italic, short x-height font.
Keywords: posters, packaging, headlines, social media, branding, playful, friendly, casual, energetic, handmade, handwritten feel, bold emphasis, friendly branding, display impact, brushy, rounded, bouncy, looping, soft terminals.
A lively, brush-pen script with unconnected, right-leaning forms and a consistently heavy stroke presence. The lettershapes are rounded and slightly inflated, with soft, tapered terminals and occasional wedge-like starts that mimic a marker or brush nib. Proportions are compact, with a relatively low x-height and generous curves in bowls and shoulders; spacing and widths vary subtly from glyph to glyph to maintain a natural handwritten rhythm. Numerals and capitals follow the same gestural logic, keeping the set visually cohesive while preserving a slightly irregular, hand-drawn texture.
This font is well suited to display settings such as posters, packaging callouts, café or food branding, and social media graphics where an informal, friendly voice is desired. It works especially well for short to medium lines of text—titles, quotes, and promotional copy—where its energetic rhythm can carry the message without demanding extended reading.
The overall tone is upbeat and personable, combining a casual handwritten feel with a bold, confident voice. Its bouncy rhythm and smooth curves read as approachable and informal, making it feel conversational rather than formal or technical.
The design appears intended to capture the look of quick, confident brush lettering in a clean, consistent digital form. It prioritizes personality and emphasis over strict geometric regularity, delivering a bold handwritten presence for expressive display typography.
Legibility remains strong in short phrases due to the clear silhouettes and open counters, while the pronounced slant and variable widths add motion and emphasis. The design avoids connections between letters, giving it a print-like flow that still retains brush-script energy.