Engineering & Functional 3D Resins

Overview

This collection includes 3Dresyns engineering and functional 3D printing resins developed for SLA, DLP and LCD technologies, designed for applications where mechanical performance, dimensional stability and functional reliability are critical. These materials support the production of technical components that go beyond visual prototyping, enabling parts that can be used for functional testing, tooling and end-use engineering applications.

Key features

The resins in this collection are engineered to deliver targeted combinations of stiffness, toughness, impact resistance and thermal stability depending on the selected grade. They are optimized for consistent printability, high feature accuracy and repeatable mechanical properties after post-processing, making them suitable for demanding industrial workflows. The range includes materials designed to withstand mechanical loads, maintain shape under stress, and support functional performance requirements across different design constraints and operating conditions.

Typical applications

Engineering and functional resins are recommended for producing functional prototypes, housings, brackets, jigs and fixtures, mechanical assemblies, technical components, industrial tooling and parts for validation testing. This collection is suitable for engineering teams and manufacturers requiring reliable mechanical behavior, consistent part quality and materials adapted to real-use functional conditions rather than purely aesthetic printing.

Custom resin solutions

If your project requires a specific resin performance profile, tailored viscosity, defined curing wavelength range, enhanced functionality, biocompatibility targets or printer-specific parameter optimization, 3Dresyns can support custom material development and formulation optimization. We provide technical support to adapt resin chemistry and additive packages for specialized applications and advanced printing technologies, including exposure calibration guidance and validation-driven development for high reliability and production-scale workflows.