See Through the Fake. Prove the Real.
Model exactly how a pigment should have aged — then compare it to what's sitting on your examination table.
Forgers are getting better. Your eye alone isn't enough anymore. PigmentBoard gives authentication specialists a reproducible, adjustable degradation model they can run against any suspect textile or painted surface. Dial in the claimed age, region, and storage conditions — then compare the predicted pigment state to the actual sample. Discrepancies light up. Reports write themselves.
Reproducible Aging Simulations
Replace subjective visual comparison with reproducible, parameter-driven aging simulations.
Forgery Detection
Detect sophisticated forgeries by exposing mismatches between claimed provenance and actual pigment degradation.
Defensible Reports
Generate defensible authentication reports with documented degradation parameters and predicted vs. actual comparisons.
Self-Improving Database
Build a proprietary database of verified aging profiles that sharpens accuracy with every case.
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Related Articles
View all articles →Geographic Attribution Through Regional Degradation Patterns
A textile from the humid American South ages differently from one in dry Central Asia. Regional degradation signatures help confirm or challenge claimed geographic origins.
The Legal Weight of Degradation Analysis in Art Fraud Cases
When a forgery dispute reaches court, the judge needs more than opinion — they need science. Degradation analysis that meets evidentiary standards can make or break a case.
Authenticating Textile Age Through Fiber Degradation Analysis
Fibers age independently of their dyes. Fiber degradation analysis provides a second, independent age estimate that should agree with the dye-based assessment.
Statistical Methods for Evaluating Degradation Consistency
Is the ΔE between predicted and actual degradation within normal range? Statistical methods answer this question with confidence intervals rather than gut feelings.
Authentication Red Flags in Textile Surface Examination
Before any instrumental analysis, careful surface examination with magnification, raking light, and UV fluorescence reveals authentication clues that no photograph can capture.
How Iron Mordant Degradation Patterns Support Authentication
Iron mordants are destructive — and that destruction follows a specific pattern over decades. A forger cannot replicate 100 years of iron-catalyzed degradation in a laboratory.