How to choose the right 3Dresyns® material

How to choose the right 3Dresyns® material system for your additive manufacturing workflow.

This is the main 3Dresyns® material selection entry page.

How to choose the right 3Dresyns® material system

This page provides the first selection layer for identifying the correct 3Dresyns® material family before moving into application-specific selection, engineering validation, process calibration or ordering.

3Dresyns® material systems include photopolymers, inkjet materials, additives, auxiliaries, SLS powders, powder binders, ceramic and metal routes, sacrificial systems, indirect manufacturing materials and advanced photopolymer platforms.

Use this page as the central starting point when you need to choose a material system across the full 3Dresyns® portfolio.

Position within the 3Dresyns® Engineering System

This page is the material-family entry layer. It helps users identify the correct material route before moving into detailed selection, documentation, process control, IFU, calibration or validation.

For complete decision logic, use the Material Selection & Ordering Guide. For fast navigation across pages and documents, use the Material and Documentation Finder.

Material Selection & Ordering Guide

Material and Documentation Finder

3Dresyns Engineering System

Need full engineering selection?

Use the structured methodology when your application involves mechanical, thermal, dimensional, regulatory, debinding, sintering or process-control constraints.

Material Selection & Ordering Guide

I know my application, but not my material

Structured Selection Framework (SSF)

Choose your material family

SLA / DLP / LCD photopolymer materials

Main vat photopolymerization platform for general-purpose, engineering, dental, biocompatible, castable, sacrificial and specialty workflows.

Start here

Open SLA / DLP / LCD materials

General-purpose photopolymers

Engineering & functional materials

Materials for structural performance, toughness, stiffness, impact resistance, thermal resistance, dimensional stability and functional reliability.

Engineering selection

Open Engineering & Functional materials

Next-generation functional materials

How to choose functional & engineering materials

Engineering structural selection tool

Biocompatible materials

Controlled material systems for applications requiring biological interaction awareness, IFU discipline, post-processing control and regulatory evaluation.

Biocompatible route

Biocompatible materials

How to choose a biocompatible material

Safety & regulatory

Instructions for Use

Dental materials

Materials for orthodontic, restorative, model, guide, splint, denture, aligner and laboratory dental workflows.

Dental route

Dental materials

Aligner materials

Dental application overview

Additives & auxiliaries

Fine tuners, colors, processing auxiliaries and functional modifiers for adjusting reactivity, viscosity, dispersion, surface behaviour, colour and workflow stability.

Tuning route

Additives & auxiliaries overview

Fine Tuners

Functional additives

Colours

Inkjet materials

Jettable photopolymer systems for material jetting, inkjet workflows, dental, castable, otoplastic, microfluidic, support and specialty applications.

Inkjet route

Inkjet materials overview

Standard inkjet materials

Next-generation inkjet materials

Specialty inkjet materials

Castable, sacrificial & mold-making systems

Materials for burnout, investment casting, sacrificial structures, soluble patterns, printed molds, tooling and indirect manufacturing workflows.

Indirect route

Castable materials

Sacrificial & mold-making materials

Indirect Additive Manufacturing

Ceramics, metals and powder routes

Material systems for ceramic, metal, glass, polymer powder and exotic-material workflows requiring shaping, binder control, debinding, sintering or indirect powder-feedstock processing.

Powder and sintering route

Ceramics & metals guide

Direct vs Indirect AM

Direct print-to-sinter systems

Powder feedstock slurries

SLS powders & binders

Powder-based additive manufacturing systems, including high-performance SLS powders and binders for Cold Fusion and related powder-processing routes.

SLS and powder route

SLS overview

High-performance SLS powders

Cold Fusion powder binders

Advanced photopolymer platforms

Advanced materials for 2PP, nano / micro fabrication, NIL, VAM, LMM, UV / EB photoresists and other specialized photopolymer manufacturing routes.

Advanced route

Advanced photopolymer platforms

2PP materials

VAM materials

LMM binders

Choose by technology

Start from the manufacturing process

If your printer, process or production route is already defined, select the material system from the technology first.

Technologies hub

SLA / DLP / LCD

Inkjet / Material Jetting

Two-Photon Polymerization

SLS

Indirect AM

Quick decision logic

Simple prototypes: start from general-purpose SLA / DLP / LCD materials.
Functional or mechanical parts: use engineering and functional materials.
Medical, dental or safety-driven applications: start from biocompatible or dental material families and review IFU.
Need to tune speed, reactivity, colour, viscosity or workflow behaviour: use additives and auxiliaries.
Jettable workflow: use inkjet material systems.
Casting, molds or removable structures: use castable, sacrificial or mold-making systems.
Ceramic or metal final material: compare direct and indirect routes before selecting the material.
Powder-bed or powder-binder process: use SLS powders, Cold Fusion binders or powder feedstock routes.
Nano, micro, VAM, NIL or LMM: use advanced photopolymer platforms.

Next step

This is only the first selection layer

Final performance depends on process control, curing behaviour, calibration, material version, geometry, post-processing and validation.

Find exact material

Choose by application

Full selection methodology

Understand curing control

Instructions for Use

Request help choosing