Print Bymel 2 is a light, normal width, low contrast, upright, normal x-height font.
Keywords: notes, packaging, posters, social graphics, education, friendly, casual, playful, approachable, handmade, handwritten feel, approachability, casual clarity, human texture, monoline, rounded, soft terminals, bouncy, open counters.
A monoline handwritten print with softly rounded strokes and gentle, slightly uneven curves that preserve a natural pen-drawn feel. Proportions are relaxed and somewhat variable, with open bowls and counters that keep letters airy. Terminals are blunt and organic rather than sharp, and joins stay unconnected, maintaining clear separation between characters. The overall rhythm is lively and a bit bouncy, with subtle irregularities that read as intentional rather than sloppy.
Works well for short-to-medium text where an informal, human tone is desired—notes, labels, packaging callouts, and friendly headings. It can also suit educational materials and social graphics where clarity and approachability matter. Best used at sizes where the subtle stroke wobble reads as texture rather than noise.
The tone is warm and informal, like quick, neat marker notes or a friendly classroom hand. Its looseness and rounded shapes create a playful, approachable voice without becoming overly childish. The texture conveys spontaneity and human presence, making text feel personable and conversational.
The design appears intended to mimic natural printed handwriting—clean enough to read easily, but irregular enough to feel authentically drawn. It prioritizes friendliness and everyday usability, offering a casual alternative to rigid sans serifs while keeping character shapes straightforward and open.
Uppercase forms are simple and readable with gentle curvature, while the lowercase maintains consistent simplicity and openness. Numerals follow the same hand-drawn logic, with rounded shapes and uncomplicated construction that blends well with the letters. Spacing appears comfortable in running text, favoring legibility over strict geometric uniformity.