This seamless 3D texture presents an 8K resolution laser cut metal surface designed specifically for furniture applications, showcasing the intricate detail and precision characteristic of advanced laser-cut metalwork. The base material is a high-grade metal substrate, typically stainless steel or aluminum alloy, known for its durability and corrosion resistance. The texture highlights finely punched holes and sharp grooves that reflect the clean, industrial finish of laser cutting technology. Subtle surface imperfections and natural micro-variations in tone contribute to a realistic appearance, simulating the slight oxide layers and brushed metal finishes common in decorative and structural furniture metal parts. These details are accurately captured across the PBR channels, enhancing photorealism in any 3D rendering pipeline.
Within the PBR workflow, the BaseColor/Albedo channel reveals the metal’s natural coloration and slight oxidation hues, while the Normal map intricately represents the punched holes and precise grooves, providing depth and tactile detail. The Roughness map balances polished and brushed metal areas, reflecting how light interacts with the surface—some edges are sharper and glossier, while others feature subtle weathering and micro-scratches. The Metallic channel confirms the fully metallic nature of the material, and Ambient Occlusion enhances shadowed recesses around cut-out patterns, increasing overall depth perception. Height or Displacement maps further accentuate the relief of the laser cut edges and perforations, making this texture ideal for high-fidelity close-up renders.
Thanks to its seamless tiling capability, this 8K resolution laser cut metal surface texture is perfectly suited for continuous large-scale applications without visible repetition, making it highly versatile for furniture design, architectural visualization, and product rendering. It is fully optimized and ready for use in popular 3D engines such as Blender, Unreal Engine, and Unity, ensuring smooth integration with PBR workflows and real-time rendering environments. For practical usage, adjusting the UV scale to match the physical dimensions of the metal pattern will maintain realism, while fine-tuning the roughness can simulate either a freshly polished or slightly worn finish, depending on the desired aesthetic.
How to Use These Seamless PBR Textures in Blender
This guide shows how to connect a full PBR texture set to Principled BSDF in Blender (Cycles or Eevee). Works with any of our seamless textures free download, including PBR PNG materials for Blender / Unreal / Unity.
What’s inside the download
*_albedo.png — Base Color (sRGB)*_normal.png — Normal map (Non-Color)*_roughness.png — Roughness (Non-Color)*_metallic.png — Metallic (Non-Color)*_ao.png — Ambient Occlusion (Non-Color)*_height.png — Height / Displacement (Non-Color)*_ORM.png — Packed map (R=AO, G=Roughness, B=Metallic, Non-Color)
Quick start (Node Wrangler, 30 seconds)
- Enable the addon: Edit → Preferences → Add-ons → Node Wrangler.
- Create a material and select the Principled BSDF node.
- Press Ctrl + Shift + T and select the maps
albedo, normal, roughness, metallic (skip height and ORM for now) → Open.
The addon wires Base Color, Normal (with a Normal Map node), Roughness, and Metallic automatically.
- Add AO and Height using the “Manual wiring” steps below (5 and 6).
Manual wiring (full control)
- Create a material (Material Properties → New) and open the Shader Editor.
- Add an Image Texture node for each map. Set Color Space:
- Albedo → sRGB
- AO, Roughness, Metallic, Normal, Height, ORM → Non-Color
- Connect to Principled BSDF:
albedo → Base Colorroughness → Roughnessmetallic → Metallic (for wood this often stays near 0)normal → Normal Map node (Type: Tangent Space) → Normal of Principled.
If details look “inverted”, enable Invert Y on the Normal Map node.
- Ambient Occlusion (AO):
- Add a MixRGB (or Mix Color) node in mode Multiply.
- Input A =
albedo, Input B = ao, Factor = 1.0.
- Output of Mix → Base Color of Principled (replaces the direct albedo connection).
- Height / Displacement:
Cycles — true displacement
- Material Properties → Settings → Displacement: Displacement and Bump.
- Add a Displacement node: connect
height → Height, set Midlevel = 0.5, Scale = 0.02–0.08 (tune to taste).
- Output of Displacement → Material Output → Displacement.
- Add geometry density (e.g., Subdivision Surface) so displacement has polygons to work with.
Eevee (or lightweight Cycles) — bump only
- Add a Bump node:
height → Height.
- Set Strength = 0.2–0.5, Distance = 0.05–0.1, and connect Normal output to Principled’s Normal.
Using the packed ORM texture (optional)
Instead of separate AO/Roughness/Metallic maps you can use the single *_ORM.png:
- Add one Image Texture (Non-Color) → Separate RGB (or Separate Color).
- R (red) → AO (use it in the Multiply node with albedo as above).
- G (green) → Roughness of Principled.
- B (blue) → Metallic of Principled.
UVs & seamless tiling
- These textures are seamless. If your mesh has no UVs, go to UV Editing → Smart UV Project.
- For scale/repeat, add Texture Coordinate (UV) → Mapping and plug it into all texture nodes.
Increase Mapping → Scale (e.g., 2/2/2) to tile more densely.
Recommended starter values
- Normal Map Strength: 0.5–1.0
- Bump Strength: ~0.3
- Displacement Scale (Cycles): ~0.03
Common pitfalls
- Wrong Color Space (normals/roughness/etc. must be Non-Color).
- “Inverted” details → enable Invert Y on the Normal Map node.
- Over-strong relief → lower Displacement Scale or Bump Strength.
Example: Download Wood Textures and instantly apply parquet or rustic planks inside Blender for architectural visualization.
To add the downloaded texture, go to Add — Texture — Image Texture.
Add a node and click the Open button.
Select the required texture on your hard drive and connect Color to Base Color.
