Script Hibus 6 is a regular weight, narrow, low contrast, italic, short x-height font.
Keywords: wedding, invitations, greeting cards, packaging, branding, elegant, friendly, classic, romantic, polished, penmanship, elegant display, personal touch, decorative capitals, looping, calligraphic, flowing, rounded, swashy.
A flowing, connected script with smooth, rounded strokes and gentle, continuous curves. Letterforms lean consistently to the right and maintain an even, low-contrast stroke weight, with soft terminals and frequent looped joins. Capitals are more ornamental, featuring prominent entry/exit swashes and curled counters, while lowercase forms stay compact with a relatively small x-height and clear rhythmic connections. Overall spacing is tidy for a script, with moderate word color and legible numerals shaped to match the cursive movement.
Well-suited for wedding suites, invitations, greeting cards, and other celebratory or personal stationery where a refined handwritten feel is desired. It can also work for boutique branding, packaging, and short display copy such as headers, product names, or pull quotes where decorative capitals can shine.
The font conveys a warm, personable elegance—formal enough for celebratory work, yet approachable due to its rounded curves and steady rhythm. Its looping capitals and smooth connections evoke classic penmanship and a lightly nostalgic, romantic tone.
Designed to emulate neat, formal pen script with consistent slant and smooth connectivity, balancing ornamental capitals with a more readable lowercase. The overall intention appears to be an elegant, versatile display script that feels handcrafted while remaining controlled and cohesive in running words.
Uppercase characters carry most of the flourish, creating distinctive initial-letter moments, while the lowercase remains restrained for readability in short lines. Descenders and loops (such as in g, y, and Q-like forms) add decorative motion without becoming overly intricate, and the numerals harmonize with the script through similar curves and terminals.