VisiJet M2R-CL rigid clear MJP material shown as a transparent rigid photopolymer producing high accuracy clear resin functional 3D prototypes.

VisiJet M2R-CL (MJP)

VisiJet M2R-CL (MJP) is a rigid clear MJP material engineered for transparent, high-accuracy functional 3D prototypes. This transparent rigid photopolymer delivers controlled optical clarity while maintaining dimensional stability. Engineers use this high accuracy clear resin to evaluate internal geometry, light transmission, and part fit during validation and testing workflows.

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Description
Rigid Clear MJP Material for Dimensionally Stable Parts

VisiJet M2R-CL performs as a rigid clear MJP material with predictable mechanical behavior. For example, 3D printed parts maintain geometry under handling and light mechanical loads. This transparent rigid photopolymer supports housings, covers, and assemblies that require visibility without compromising structural integrity. In addition, stable curing behavior limits distortion across repeated builds, which supports tighter tolerances and reduces variation during iterative prototyping.

 

VisiJet M2R-CL for Internal Feature Evaluation

This high accuracy clear resin reproduces thin walls and internal features with high fidelity while maintaining consistent geometry. In addition, it features a smooth surface finish and sharp feature resolution to support clear visual inspection of internal channels and assemblies. As a result, engineers use this material for microfluidic devices, light guides, lenses, and transparent enclosures. When higher optical performance is required, post-processing options such as clear coating or polishing further enhance transparency without affecting dimensional accuracy.

 

Functional 3D Prototypes on MJP 2500 Platforms

VisiJet M2R-CL is an MJP 2500 compatible resin for ProJet® MJP 2500 and 2500 Plus systems. Reliable print behavior supports repeatable output and predictable part quality. In addition, automated support removal minimizes post-processing while preserving surface detail. This 3D Systems material also holds certifications to USP Class VI and ISO 10993 standards, which extends its use into medical, laboratory, and regulated functional 3D prototypes.

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