Overview
This elegant evening gown is a parametric outfit asset for MetaHumans, designed for Unreal Engine 5.6+.
The garment automatically adapts to MetaHuman body size and proportion changes, allowing it to be reused across different characters without manual resizing.
The outfit features a sleeveless high-neck bodice with textured fabric and an open-back cutout, combined with a structured waistband and flowing pleated skirt for an elegant silhouette suitable for cinematic, formal, or stylized character presentations.
Style: Formal eveningwear / modern fashion gown
Key Features
✔ Parametric MetaHuman outfit — automatically resizes with body customization
✔ Sleeveless high-neck design with open-back cutout and pleated skirt
✔ Separately customizable bodice, detail, and skirt materials
✔ Optimized for real-time use
✔ Auto-generated LODs included
✔ Clean topology suitable for animation and cinematics
Customization
The outfit includes separately adjustable color parameters for:
Bodice fabric
Bodice details
Skirt
Materials are exposed through material instances in the Unreal Editor for quick iteration.
Included Assets
Skeletal Mesh (2)
Cloth Asset
Outfit Asset
Wardrobe Item Asset
Texture Maps
Base Color
Normal
Metallic
Roughness
Body Hidden Mesh
Parent Materials
Material Instances
Reference MetaHuman Skeletal Mesh
Reference MetaHuman Physics Asset
.zprj Project File
Use Cases
Games
Cinematics
Virtual production
Visualization
Commercial and non-commercial Unreal Engine projects
Compatibility
Unreal Engine 5.6+
MetaHuman framework
Tested on Windows
Feedback
If this asset helps your project, a quick review is greatly appreciated and helps support future updates.
License & Restrictions
This asset may be used in personal and commercial Unreal Engine projects.
Redistribution, repackaging, or resale of this asset or its components is not permitted.
UnseenNeon is the sole author of this asset.
Technical Notes
While the garment is designed to adapt automatically to MetaHuman body changes, extreme body proportions or animations may result in minor clipping or deformation. Users are encouraged to evaluate suitability for their specific use case.