Research & academia

3Dresyns® materials are widely used in research and academic environments focused on the development, evaluation and validation of advanced additive manufacturing processes.

This section provides an overview of research-oriented workflows and technology platforms already documented across the website, covering exploratory manufacturing, material development and process innovation.

Research material platforms

Research projects frequently involve the evaluation and comparison of material platforms under controlled laboratory conditions.

Relevant material families used in academic and research environments include:

• Biocompatible 3D resins 

• Functional 3D resins for engineering 

• Functional additives & auxiliaries 

Advanced and emerging technologies

Academic and research users often work with advanced or non-standard additive manufacturing technologies.

Documented technology platforms relevant to research activities include:

• Two-Photon Polymerization (2PP)

• Inkjet material jetting 

• Indirect Additive Manufacturing 

• Microfluidics

• Micro-scale fabrication

Experimental workflows and validation

Research workflows typically require flexibility in material behavior, processing windows and post-processing strategies, supporting exploratory studies, proof-of-concept development and early-stage validation.

Such workflows often involve iterative testing, comparative material evaluation and adaptation of processing parameters under controlled laboratory conditions.

Collaboration and knowledge transfer

3Dresyns collaborates with research institutions, universities and technology developers on projects involving materials development, process innovation and technology transfer.

For projects requiring technical support, customization or structured collaboration, see Custom materials & consulting.