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The plastic material with the rough diffusing surface can be modeled in * AsILK�0�
TracePro, but as two separate properties (select Define/EditPropertyData). $M�W-�c*5a
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MATERIAL PROPERTY �{7EnM1]�
A TracePro Material Property can be created, and the index of refraction of ^7b[s�pq�E
the material is entered here, as well as an absorption coefficient if it is v67utI�SNI
known (this would be for absorption losses just from propogating through a Cu2�e�MUGt
given thickness of a clear polished sample of the material, unrelated to the �k�@}?!V*l
diffusing surface finish. Entering zero for the absorption coefficient is R1,��.H92�
propobly a reasonable estimate for a transparent material. %w�9/��gD
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The Material Property is applied to the Object (Define/Apply Properties). s,z$Vt"h*K
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SURFACE PROPERTY �.>X��0 $#
A TracePro Surface Property can specify 5 possible outcomes for light incident 4c�})LAwd&
on a surface - Specular Transmission, Specular Reflection, Scattered ~Qg�:_ @@\
Transmission (BTDF). Scattered Reflection (BRDF), and Absorption. ��&\n<�pXQ
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For your property, I expect that Specular Transmission, Specular Reflection, W#|30RU�.G
and Absorption would all be 0, leaving only Scattered Transmission (BTDF). [nS��lkl
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Scattered Reflection (BRDF). BTDF and BRDF are controlled by 3 coefficients - .$�o�0�$`}
A, B, and g. For an initial estimate, I would suggest entering BTDF(g) = L>trLD1p�t
BRDF(g) = 0, which defines a Lambertian dsitribution. R=7,�F6.��
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The challenge is to determine the proper ratio of Transmittance vs *8I+D�>��x
Reflectance. You can enter a value for BRDF(A) and then use the Solve For B|f�h 4FNy
feature to solve for BTDF, and the editor will display the resulting $m
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Integrated BTDF and Integrated BRDF values. You want these to sum to 1, and &XvSAw+D@�
to have a ratio that matches the behavior of your surface. If the ratio of T �AiF'�*!�1
vs R is dependent on the Incidence Angle, you can use the Add button in the e�jF�Ge��R
property to add Incidence ANgles to the table, and then define the BTDF and j�H�5VrN*Q
BRDF separately for each incidence angle.
