Overview
A highly realistic and detailed 3D model of a men's Short-Sleeve Casual Shirt featuring a recognizable, classic check pattern (similar to Burberry's iconic check). This model was created in CLO 3D/Marvelous Designer and is optimized for use in virtual fashion shows, product visualization, character dressing, and digital try-on experiences.
Key 3D Model Features
Native CLO 3D/Marvelous Designer File: Includes the original project file (ZPRJ/CLO) with accurate internal seam lines, construction details, and physics properties.
PBR Ready Textures: Comes with high-resolution texture maps, ensuring realistic fabric drape and appearance in rendering engines (e.g., V-Ray, Corona, Blender, Unreal).
Clean Topology: Optimized mesh structure for easy integration into character rigs or for further subdivision and high-quality rendering.
Realistic Fit and Drape: The garment includes simulated fabric physics, providing a natural, casual drape suitable for an average male avatar.
Separated Mesh Components: Buttons, collar, pocket, and main body are logically separated for ease of material application and customization.
Seamless Pattern Application: The check pattern is mapped cleanly across all panels, with careful attention to pattern alignment on the placket and pocket.
Garment Design Details
Style: Relaxed/Regular Fit Short-Sleeve Button-Down Shirt.
Collar: Classic point collar.
Pocket: Single patch pocket on the left chest.
Placket: Full button placket with detailed, color-matched buttons.
Pattern: Iconic Beige/Tan check pattern with black, red, and white stripe accents.
Hemline: Slightly curved or straight bottom hem (specify which one applies if known).
Included Files & Technical Specs
CLO/MD File: .ZPRJ (Native file)
Exported Meshes: .OBJ, .FBX (Quad mesh, triangulated version optional)
Texture Maps: (e.g., 4096x4096 resolution)
Fabric Texture/Albedo
Normal Map (for stitching and texture weave)
Roughness/Glossiness Map
Opacity Map (if relevant for sheer fabrics, but likely not here)
UVs: Unwrapped, non-overlapping UVs.