3D Printing Applications

Purpose-driven 3D solutions, engineered for performance.

Discover how 3D printing transforms ideas into practical solutions — for companies, innovators, and individuals alike.

Explore Applications

Custom functional
3D applications

Latest Projects

Explore our latest 3D applications designed to meet client needs.

Mechanical Prototype
Functional

Custom mechanical prototype with press-fit joints, optimized for durability and tolerance accuracy.

Decorative Model
Smart decor

Organic form sculpture printed in resin, finished with a matte coating for interior design use.

Industrial Jig
Industrial

High-strength PETG assembly jig used in automotive component testing, with repeatable dimensional stability.

Architectural Model
Architectural

Scaled architectural visualization with resin-printed facade details and transparent polymer glazing.

Applications by Category

From industrial use cases to creative projects — discover where 3D printing adds value.

Corporate

For Companies

Rapid design validation, functional jigs, and batch production — ideal for testing and scaling ideas fast.

Functional

Functional Parts

Durable, precision-fit components made from high-performance materials for engineering and repair.

Home

Home & Decor

Modern, personalized items — from lamps to organizers — blending aesthetics with practicality.

Education

Educational & Research

Models and prototypes for demonstrations, teaching aids, and student innovation projects.

Applications & Use Cases

See real examples of how 3D printing drives innovation and performance across industries.

3D-printed Car Nut Cap Front 3D-printed Car Nut Cap Bottom
Automotive

Car wheel nut cap

On a local mechanic's request, we designed and produced a cost-effective 17 mm protective car wheel nut cap, substantially reducing production costs and offering the final product at a fraction of the commercial price. This versatile design, customizable for different nut sizes and colors, showcases our commitment to affordability and client satisfaction.

  • Material: PETG-CF
  • Precision: 0.2 mm
  • Use: Screw cover
Reasearch

Desktop bioreactor prototype (Reocto)

Responding to the request from Reocto, we adeptly undertook the project to 3D print a three-part housing for a desktop bioreactor prototype. This prototype, crucial for ensuring compatibility with all designated devices, served as a vital intermediate phase before the final all-metal construction. The PLA-based prototype was instrumental in validating the design specifications, paving the way for the end product aimed at monitoring small-scale bacterial growth reactions. This innovation allows for precise control over mixing speeds and the measurement of various parameters such as pH and temperature, laying the groundwork for scaling biomass production to larger bioreactors.
For more information visit: www.reocto.com

  • Material: PLA
  • Precision: 0.16 mm
  • Use: Bioreactor housing
Reocto Bioreactor Front Reocto Bioreactor Side Reocto Bioreactor Bottom
3D-printed decorative vase
Home decor

Decorative vase

Designed and printed organic vase for customer's interior decor.

  • Material:PLA
  • Print Type: FDM
  • Use: Interior decor
Reasearch

Bioprinter Component Prototype

This prototype represents a functional end-effector print head designed for an in-house developed 3D bioprinter. The component mounts directly to the printer’s X-axis assembly, enabling precise and stable operation. Printed in PETG, it offers the mechanical resilience and stress tolerance required for high-pressure extrusion. The design accommodates two syringes used to hold and dispense biomaterials with accuracy. Its robust construction ensures precise biomaterial deposition, supporting consistent flow and repeatable performance. The part’s rigidity and dimensional stability make it a critical step toward refining bioprinting mechanics for research and development use.

  • Material: PETG
  • Precision: 0.2 mm
  • Use: Bioprinting
3D-printed Bioprinter Component Close-up 3D-printed Bioprinter Component Front 3D-printed Bioprinter Component Side 3D-printed Bioprinter Component Installed
3D-printed Smart Planter Components 3D-printed Smart Planter Compartment 3D-printed Smart Planter Whole 3D-printed Smart Planter Close-up
Home Decor

Smart Planter

A modern planter designed for small to medium-large plants features a sleek form with a built-in slot for a round digital hygrometer and thermometer. Its unique design includes intermediate compartment, allowing soil to be placed directly into the planter without coming into contact with the sensor, ensuring accurate readings and a clean, low-maintenance setup. Perfect for plant enthusiasts who value both style and functionality!

  • Material: PETG
  • Print Type: FDM
  • Use: Interior Decor
Series production

Mount Adapters

These custom mount adapters were produced through series 3D printing for efficient small-batch manufacturing. The grey adapter, printed in tough resin using SLA, serves as a durable interface that attaches organizers to a Skådis wall board system. Its rigidity and fine surface finish allow for secure mounting and repeated use. The blue spacers, printed in PETG using FDM, provide precise alignment between the wall and board, improving installation stability. Both materials were selected for their mechanical strength and long-term reliability, balancing precision and functionality. This project demonstrates how additive manufacturing enables fast, cost-effective production of custom functional hardware.

  • Material: Tough Resin/ PETG
  • Print Type: SLA/FDM
  • Precision: 0.05/0.2 mm
  • Use: Mount Adapters
Resin 3D-printed Mount Adapter FDM 3D-printed Mount adapter

Design. 3D Print. Evolve.

Every project starts with an idea — we help you turn it into a tangible, functional reality. Whether you’re designing for efficiency, art, or experimentation, microna3D ensures every detail counts.

Have an idea in mind? Let’s bring it to life with tailored design and material recommendations.

Start Your Project