Cursive Adliz 10 is a very light, very narrow, high contrast, italic, very short x-height font.
Keywords: wedding, invitations, branding, packaging, quotes, elegant, delicate, airy, romantic, graceful, signature, formal script, delicate display, personal tone, ornamental caps, monoline feel, hairline strokes, looping capitals, long ascenders, long descenders.
A refined cursive with extremely thin, hairline strokes and a pronounced rightward slant. Letterforms are built from long, continuous curves with generous entry/exit strokes, producing a smooth rhythm and plenty of white space. Capitals are tall and ornamental with looping, calligraphic sweeps, while lowercase forms stay compact with slender ascenders and descenders that often extend well beyond the x-height. Figures are similarly light and flowing, leaning toward elegant, handwritten outlines rather than rigid geometric construction.
Well suited to wedding suites, invitations, greeting cards, and other formal stationery where an elegant handwritten voice is desired. It also works for boutique branding, beauty or lifestyle packaging, and short pull quotes or headings where its airy script can provide a graceful accent without needing dense readability.
The overall tone is poised and intimate, evoking formal handwriting and quiet luxury. Its light touch and looping gestures feel romantic and personal, with an airy sophistication that reads more like a signature than a utilitarian text face.
The font appears designed to capture a polished, signature-like cursive with dramatic, looping capitals and minimal stroke presence. Its intention seems to prioritize elegance and personal charm over everyday text legibility, offering a refined handwritten flourish for display settings.
The design relies on fine hairlines and open counters, so its character is most apparent when there is enough size and contrast for the strokes to remain visible. The sample text shows a consistent, fluid cadence across words, with a slightly elastic baseline and a pen-like tapering impression in curves and terminals.