i-Tac inversely designs 3D-printed elastomers by fitting mixture-design response surface models and applying multi-objective optimization to achieve target optical and mechanical properties in one fabrication step.
Use of extreme vertices method for analysis of how proportional composition affects component interactions and product distribution during hydrothermal treatment
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i-Tac: Inverse Design of 3D-Printed Tactile Elastomers with Scalable and Tunable Optical and Mechanical Properties
i-Tac inversely designs 3D-printed elastomers by fitting mixture-design response surface models and applying multi-objective optimization to achieve target optical and mechanical properties in one fabrication step.