Sans Faceted Tyne 1 is a bold, normal width, monoline, upright, normal x-height font.
Keywords: headlines, posters, logos, gaming ui, sports branding, techno, industrial, sci‑fi, athletic, futuristic branding, mechanical clarity, impactful display, octagonal, chamfered, angular, geometric, stencil‑like.
A heavy, geometric sans built from straight strokes and clipped corners, replacing curves with crisp chamfers and planar facets. Counters are predominantly squared or octagonal, and joins stay clean and mechanical, producing a consistent, monoline feel at display sizes. The proportions are compact with a steady cap height and a practical, readable lowercase; terminals are flat and sharply cut, and circular forms like O/0 resolve into rounded-rectangle octagons rather than true circles. Numerals and capitals share the same faceted construction, giving the set a unified, engineered rhythm.
Best suited to short text where its angular construction can be appreciated: headlines, posters, branding marks, and packaging. It also fits digital contexts such as game titles, HUD/UI labels, and tech or industrial-themed graphics where a crisp, faceted silhouette enhances the intended atmosphere.
The overall tone is technical and machine-made, with a strong sci‑fi and industrial flavor. Its faceted geometry reads as futuristic and assertive, like interface lettering, equipment labeling, or performance branding, while the sturdy weight projects confidence and impact.
The font appears designed to deliver a contemporary, engineered look by translating traditional sans shapes into an octagonal, chamfered system. Its consistent facets and sturdy construction suggest an intention to balance legibility with a distinctive, futuristic personality for display-forward applications.
The design’s signature is its consistent corner-cut motif across bowls, diagonals, and terminals, which creates a tight, modular texture in words. The sample text shows clear differentiation between similar forms through internal angles and squared counters, emphasizing function over softness.