MakerPi 3d printer

MakerPi 3d printer Contact information, map and directions, contact form, opening hours, services, ratings, photos, videos and announcements from MakerPi 3d printer, Commercial and industrial equipment supplier, 601, No. 12, Phase 1, Zone 3, Xinhe Community Xinxing Industrial Park, Fuhai Street, Bao'An District, Shenzhen.

Expert Manufacturer of 3D Printing Equipment, Services, and Solutions for Science&Research|Biomedical|Tissue|Mechanical Engineering|4D Materials|Material Extrusion|Direct Ink Writing|Ceramic|Drug Delivery

23/04/2026

High-Precision Multi-Printheads DIW 3D Printer for Pharmacology Research & Small-Batch Tablets

Soongon Tech AutoBio 2000 Direct Ink Writing (DIW) 3D Printer for Institute University Research Labs

1. Designed for research applications, with full support for experimental parameter visualization and control.

2. Wide material compatibility, suitable for multi-disciplinary and multi-field research materials.

3. Supports user-formulated/custom materials, enabling flexible adaptation to experimental requirements.

4. Enables low-material-consumption printing for rapid testing, improving efficiency and reducing experimental costs.

5. Supports multi-nozzle, multi-channel, multi-material, and multi-mode printing.

6. Compatible with various external-field-assisted functions and supports customization and expansion.

16/04/2026

Simulated Energetic Material Printing Test

Soongon Tech AutoBio 2000 Direct Ink Writing (DIW) 3D Printer for Institute University Research Labs

13/04/2026

Pneumatic Based Extrusion Research 3D Printer Two-component Silicone Fixed Proportion Printing

Soongon Tech AutoBio 2000 Direct Ink Writing (DIW) 3D Printer for Institute University Research Labs

We are proud to highlight that the AutoBio 2000 DIW 3D printer has been successfully used in cutting-edge research at Sh...
08/04/2026

We are proud to highlight that the AutoBio 2000 DIW 3D printer has been successfully used in cutting-edge research at Shenzhen University, published in the Journal of Food Engineering.

In this study, researchers developed innovative 3D-printed emulsion carriers to stabilize polyunsaturated fatty acids (PUFAs) in krill oil. Using the AutoBio 2000, they achieved high-precision, reproducible structures that significantly improved thermal, light, and oxidative stability of PUFAs.

This work demonstrates the versatility and reliability of AutoBio 2000 DIW technology in advanced research, functional food development, and biomaterials studies.

This research was published in Journal of Food Engineering (2026) under the title Structure design of an innovative 3‑dimensional‑printed emulsion carrier for stabilizing polyunsaturated fatty acids in krill oil (DOI: 10.1016/j.jfoodeng.2026.113087). Link: https://lnkd.in/gCUJF7Kr

&DInnovation

07/04/2026

Alginate Gel Printing Test

Soongon Tech AutoBio 2000 Direct Ink Writing (DIW) 3D Printer for Institute University Research Labs

31/03/2026

DIW 3D Printer for Modified Polyurethane Material Formulation Optimization and Printability Verification

Soongon Tech AutoBio 2000 Direct Ink Writing (DIW) 3D Printer for Institute University Research Labs

24/03/2026

Customized 3D Printing System for Energetic Materials Research

Soongon Tech AutoBio 2000 Direct Ink Writing (DIW) 3D Printer for Institute University Research Labs







12/03/2026

Gradient Material Online Mixing Module + Rotary-Axis Module

Soongon Tech AutoBio 2000 Direct Ink Writing (DIW) 3D Printer for Institute University Research Next Big Innovation Labs

Application of Material-Mixing and Rotary-Axis Modules

1. Technical Description

Dual- or multi-component materials can be mixed and dynamically proportioned in real time via module settings, enabling the fabrication of gradient functional materials and continuous gradient structures. Combined with the rotary-axis module, three-dimensional spatial gradients—such as longitudinal and radial gradients—can be achieved.

2. Application Scenarios

Biomimetic gradient materials (e.g., bone–cartilage, skin, blood vessels)

Functional gradient devices (e.g., stiffness gradients, conductivity gradients, dielectric gradients)

High-throughput screening of new materials and composition–performance mapping studies

Flexible electronics, soft robotics, and smart structures

🚀 Research Highlight | DIW 3D Printing for Personalized Drug DeliveryWe are excited to share that the AutoBio 2000 Direc...
05/03/2026

🚀 Research Highlight | DIW 3D Printing for Personalized Drug Delivery

We are excited to share that the AutoBio 2000 Direct Ink Writing (DIW) 3D Printer from Soongon Tech supported researchers at China Pharmaceutical University in publishing a new paper in Advanced Functional Materials (Impact Factor: 19).

📄 Paper Title
Kinetics-By-Design: On-Demand Fabrication of Personalized Drug-Release Profiles Using Multi-Material 3D Printing

This work demonstrates how multi-material 3D printing can be used to precisely design and fabricate drug delivery systems with customizable release kinetics, opening new possibilities for personalized medicine and pharmaceutical manufacturing.

🔬 Key Technology
AutoBio 2000 Direct Ink Writing (DIW) 3D Printer
Enabling precise deposition of functional materials for advanced pharmaceutical research.

📚 Publication Details

https://advanced.onlinelibrary.wiley.com/doi/abs/10.1002/adfm.202527954

First Author
Peihong Chen (陈培鸿)

Corresponding Authors
Jianping Zhou (周建平)
Yang Ding (丁杨)

🏢 Supported by
Shenzhen YuanYi Intelligent Pharmaceutical Technology Co., Ltd, China

We are proud to support cutting-edge research in 3D printed pharmaceuticals, biomaterials, and advanced drug delivery systems.

04/03/2026

Heat-Responsive Liquid Crystal Elastomer (LCE), Scientific Materials Development

Soongon Tech AutoBio 2000 Direct Ink Writing (DIW) 3D Printer for Institute University Research Labs














27/01/2026

Pcl + Calcium Phosphate Bone Defect Repair Experimental Model

Soongon Tech AutoBio 2000 Direct Ink Writing (DIW) 3D Printer for Institute University Research Labs

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601, No. 12, Phase 1, Zone 3, Xinhe Community Xinxing Industrial Park, Fuhai Street, Bao'An District
Shenzhen
518103

Telephone

+8619157425784

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