Materials

Veja também

While EEVEE shares the same material node system as Cycles, not all features are supported. See Shader nodes limitations.

Espessura

Reference

Panel:

Properties ‣ Material ‣ Thickness

Used to approximate the inner geometry structure of the object without heavy computation. This is currently used for Subsurface Scattering, Translucent BSDF, Refraction BSDF, and the nodes containing these effects.

If no value is plugged into the output node, a default thickness based on the smallest dimension of the object is used. If a value is connected it will be used as object space thickness (i.e. scaled by object transform). A value of zero will disable the thickness approximation and treat the object as having only one interface.

This output is only used by the EEVEE render engine.

Nota

  • The thickness is used to skip the inner part of the object.

  • Refraction will not refract objects inside the thickness distance.

  • Shadow casting object will not cast shadow within the thickness distance.

Dica

  • For large or compound meshes (e.g. vegetation), the thickness should be set to the thickness of individual parts (e.g. leaves, grass blades).

  • Thickness can be baked to textures or custom attributes for more accurate result.

Veja também

Thickness Mode – controls how the thickness value is used.

Configurações de material

Reference

Panel:

Properties ‣ Material ‣ Settings

Pass Index

Index number for the Material Index render pass. This can be used to give a mask to a material which then can be read with the ID Mask Node in the Compositor.

Nota

Volume Objects do not support the pass index.

Superfície

Backface Culling

Backface Culling hides the back side of faces. This option should be turned on whenever it is possible, as it has an impact on performance.

Câmera

Use back face culling to hide the back side of the face.

Shadow

Use back face culling when casting shadows.

Light Probe Volume

Use back face culling when baking Light Probe Volumes. Additionally helps rejecting capture point inside the object to avoid light leaking

Deslocamento

Controls how the displacement output from the shader node tree is used.

Apenas Relevo:

Use Bump Mapping to simulated the appearance of displacement. This only modifies the shading normal of the object. Vertex position is not affected.

Apenas Deslocamento:

This mode is not supported and falls back to Displacement and Bump.

Deslocamento e Relevo:

Combination of true displacement and bump mapping for finer details. Vertex position is modified.

Nota

This type of displacement is not precomputed. It has a performance impact multiplied by the render sample count. However, the evaluation is much faster than doing it using geometry nodes or a displacement modifier.

Nota

Displacing flat shaded geometry will split adjacent faces. This can be worked around by passing the vertex normals as a custom attribute.

Distância máxima

The maximum distance a vertex can be displaced when using true displacement. Displacements over this threshold may cause visibility issues. These visibility issues can be observed when the object is out of view at the edge of screen with parts being displaced inside the view. The object would then disappear because of camera culling. This can also produce missing shadow updates where the displaced geometry is.

Transparent shadows

Use transparent shadows for this material if it contains a Transparent BSDF. Disabling will render faster but not give accurate shadows.

Render Method

Controls the blending and the compatibility with certain features.

Dithered:

Allows for grayscale hashed transparency, and compatible with render passes and raytracing. Also know as deferred rendering.

When using Dithered render method, the materials are rendered in layers. Each layer can only transmit (e.g. refract) light emitted from previous layers. If no intersection with the layers below exists, the transmissive BSDFs will fallback to light probes.

Raytraced Transmission

Use raytracing to determine transmitted color instead of using only light probes. This prevents the surface from contributing to the lighting of surfaces not using this setting.

Blended:

Allows the colored transparency, but incompatible with render passes and raytracing. Also known as forward rendering.

Sorting Problem

When using Blended render method, the order in which the color blending happens is important as it can change the final output color. EEVEE does not support per-fragment (pixel) sorting or per-triangle sorting. Only per-object sorting is available and is automatically done on all transparent surfaces based on object origin. Opaque surfaces (i.e. that have no transparency) will still have correct sorting regardless of the render method.

Dica

Face order can be adjusted in edit mode by using sort element or using a geometry node.

Nota

Per-object sorting has a performance cost and having thousands of objects in a scene will greatly degrade performance.

Transparency Overlap

If enabled, all transparent fragments will be rendered. If disabled, only the front-most surface fragments will be rendered. This option can be disabled to fix sorting issues caused by blending order. Only available for the Blended render method.

Espessura

Determines what model to use to approximate the object geometry.

Esfera:

Approximate the object as a sphere whose diameter is equal to the thickness defined by the node tree. This is more suited to objects with rounder edges (e.g. a monkey head), and is perfectly suited to spheres.

Slab:

Approximate the object as an infinite slab of thickness defined by the node tree. This is more suited to very flat or thin objects (e.g. glass panels, grass blades).

From Shadow

Use the shadow maps from shadow casting lights to refine the thickness defined by the material node tree. This takes the minimum thickness between the shadow map and the material node tree value. This is useful for objects where pre-computation is difficult (e.g. complex meshes), impossible (e.g. procedural geometry with displacement) or just impractical. However, this will have a performance impact that scale with the number of render samples.

Volume

Intersection

Determines which inner part of the mesh will produce volumetric effect.

Rápida:

Each face is considered as a medium interface. Gives correct results for manifold geometry that contains no inner part.

Accurate:

Faces are considered as medium interface only when they have different consecutive facing. Gives correct results as long as the max ray depth is not exceeded. Has significant memory overhead compared to the fast method.