Script Kegun 9 is a light, narrow, very high contrast, italic, short x-height font.
Keywords: invitations, wedding, branding, packaging, headlines, elegant, romantic, refined, airy, classic, calligraphic feel, decorative display, formal tone, signature style, event stationery, swashy, flowing, calligraphic, looped, ornamental.
A formal, calligraphy-inspired script with a rightward slant and pronounced thick–thin modulation. Strokes are smooth and continuous with frequent entry/exit hairlines, rounded turns, and occasional swelling on downstrokes, creating a crisp, pen-nib rhythm. Letterforms show generous loops and soft terminals, with a mix of compact joins and longer swashes on select capitals and descenders. Overall spacing feels open and slightly irregular in width, reinforcing a handwritten, lively texture while remaining cohesive across the set.
This script is well suited to invitations, event stationery, and wedding collateral where elegance and flourish are desired. It also fits boutique branding, beauty or lifestyle packaging, and short headline settings that benefit from an ornamental, handwritten signature feel. For best results, use it at display sizes with ample line spacing to preserve the fine hairlines and loops.
The font conveys a polished, romantic personality—decorative without feeling overly exuberant. Its high-contrast strokes and graceful curves suggest formality and tradition, while the hand-drawn variability keeps it personable and warm.
The design appears intended to emulate pointed-pen calligraphy in a clean, catalog-friendly script: expressive capitals, fluid connections, and dramatic contrast aimed at upscale display typography. It prioritizes graceful motion and decorative presence while keeping the lowercase structure consistent enough for brief phrases and titles.
Capitals tend to be more expressive, with extended leading strokes and occasional flourished cross-strokes that add sparkle in headlines. Lowercase forms remain relatively legible for a script, though the hairline connections and tight joins can look delicate at small sizes or on low-resolution outputs.