Custom Parts - Industrial 3D Printing Servers
China Top Rated Services
DTG 3D provides industrial 3D printing services in China, using advanced technologies powered by proprietary software and automated hardware. We produce high-quality parts in multiple materials and automotive-grade finishes, ensuring precision and durability.
Our expertise supports scalable on-demand production, from a single prototype to thousands of parts within days, helping clients accelerate product development and respond quickly to market needs.
By combining digital workflows, innovative design, and precision engineering, DTG 3D enables fast, reliable, and cost-effective manufacturing across industries including automotive, electronics, medical devices, and consumer products.
Certifications: ISO 9001:2015 | AS9100D | ITAR Registered
On-Demand Industrial 3D Printing Services
Our online 3D printing service allows you to produce custom parts on demand using six advanced 3D printing technologies. We can transform your 3D files into high-quality plastic, metal, and elastomeric parts. With over 120 3D printers, we offer unmatched capacity to reliably deliver parts within days.
We provide a wide selection of materials and multiple post-processing options to enhance both appearance and mechanical performance.
No mold is required and there is no minimum order quantity. Skip expensive tooling and setup costs, and manufacture from 1 to 1,000 functional parts on demand. Larger quantities can save up to 70% when 3D printing with us.
Direct metal laser sintering (DMLS) uses a fiber laser system that draws onto a surface of atomized metal powder, welding the powder into fully dense metal parts.
The most common 3D printing materials are ABS, PLA, and their various blends. More advanced FDM printers can also print with other specialized materials that offer properties like higher heat resistance, impact resistance, chemical resistance, and rigidity.
World Class 3D Printing Services
Commitment to quality is important to us. We ensure that our manufactured parts are consistently top class, genuine and certified for the most demanding end use applications by collaborating with the best in class original equipment manufacturers and utilising only oem certified materials. Our 3D Printing services passed stringent quality management systems and are accredited with ISO 9001: 2015 certified by TÜV Rheinland.
EOS SLS PERFORMANCE
HP MJF 5200
3D ZELTAPrinting
3D Printing Materials
Plastic 3D Printing Materials
ABS is an all-purpose material that offers smooth surface finishes, impact resistance, and durability. We offer a variety of ABS-like plastics:
- Accura Xtreme White 200
- Accura Xtreme Gray
- Accura 7820
- WaterShed XC 11122
- MicroFine
- Carbon RPU 70
We offer multiple grades of nylons through our selective laser sintering (SLS) and Multi Jet Fusion (MJF) 3D printing processes. These powdered thermoplastic materials build durable parts with mechanical properties suitable for functional prototyping and end-use:
- PA 12 White
- PA 11 Black
- PA 12 Black
- PA 12 Mineral-Filled
- PA 12 40% Glass-Filled
- PA 12 40% Glass-Filled Black
Polycarbonate is a versatile material choice that stiff parts with excellent heat deflection. Multiple polycarbonate-like materials are available through our stereolithography (SLA) process:
- Accura 60
- Accura 5530
- PerFORM (Ceramic-like Advanced High Temp)
3D-printed polypropylene is a lightweight material with flexibility, durability, and chemical resistance.
- Polypropylene Natural
- Somos 9120 (PP-like Translucent White)
- Carbon FPU 50
Silicone is a flexible, biocompatible, and heat-resistant material ideal for applications requiring elasticity and precision. It’s commonly used for seals, gaskets, medical prototypes, and parts exposed to temperature fluctuations.We provide a range of silicone and silicone-like materials through advanced additive manufacturing and molding processes:
- True Silicone Rubber (LSR)
- Silicone-Like Translucent
- Elastomeric Polyurethane (Flexible 80A)
- Biocompatible Silicone for Medical Prototypes
TPU (Thermoplastic Polyurethane) combines the flexibility of rubber with the strength and durability of plastic. It delivers exceptional wear resistance, impact absorption, and elasticity, making it suitable for flexible joints, enclosures, and consumer products.
Available TPU materials include:
- Ultrasint TPU 01 (Flexible MJF Powder)
- BASF Ultrasint TPU 88A
- Carbon EPU 40
- EPU 41 (Elastomeric Polyurethane)
Digital Photopolymers are UV-cured resin materials designed for high-precision and high-detail parts. They provide a broad range of mechanical and optical properties, suitable for visual models, functional prototypes, and master patterns for molding.
We offer multiple photopolymer options for SLA and DLP printing:
- Accura ClearVue (Transparent, High Clarity)
- Accura Bluestone (High Temperature Resistance)
- Somos EvoLVe 128 (Durable, ABS-like Performance)
- Rigid Resin (Stiff and Smooth Surface Finish)
- Tough 2000 Resin (Impact Resistant)
Metal 3D Printing Materials
Known as a “workhorse” alloy, titanium is a lightweight metal with high strength and excellent corrosion resistance. All final titanium parts receive vacuum stress relief application.
3D-printed cobalt chrome offers a high strength-to-weight ratio and excellent creep and corrosion resistance.
A high strength, corrosion resistant nickel chromium superalloy. Inconel 718 comes in different three resolutions and can receive different post-processing treatments.
3D-printed stainless steel is a corrosion resistant metal with high hardness and strength. We offer two grades of stainless steel for 3D printing:
- Stainless Steel 17-4 PH
- Stainless Steel 316L
Known as a “workhorse” alloy, titanium is a lightweight metal with high strength and excellent corrosion resistance. All final titanium parts receive vacuum stress relief application.
Why Choose DTG Injection Molding Services ?
ISO Certified
ISO Certified
Expertise
Advanced Equipment
Fast delivery
Customer Focus
Our Mold Design Process
For simple parts, product lead times can be reduced to as little as 3 days.Upload your part to see if it qualifies.
01
Requirement Analysis
We start by thoroughly understanding the project requirements, including the part geometry, material properties, production volume, and budget constraints. This initial phase involves close collaboration with the client to gather all necessary information and establish clear design objectives.
02
Conceptual Design
Our team of skilled designers and engineers utilizes advanced CAD software to create conceptual designs based on the project requirements. This phase involves brainstorming innovative solutions and exploring various design options to achieve the desired functionality and manufacturability.
03
Detailed Design
Once the conceptual design is approved, we proceed to the detailed design phase. This stage involves refining the 3D model to incorporate all essential features, such as parting lines, gating systems, cooling channels, and ejection mechanisms. Our designers pay meticulous attention to detail to optimize the mold design for efficiency and performance.
04
Simulation & Analysis
Once the conceptual design is approved, we proceed to the detailed design phase. This stage involves refining the 3D model to incorporate all essential features, such as parting lines, gating systems, cooling channels, and ejection mechanisms. Our designers pay meticulous attention to detail to optimize the mold design for efficiency and performance.
05
Design Review & Optimization
The design undergoes thorough review by our team of experts, where potential issues or areas for improvement are identified and addressed. We collaborate closely with the client to incorporate feedback and make any necessary adjustments to optimize the mold design for manufacturability and functionality.
06
Prototype Development
Upon finalizing the design, we proceed to prototype development to validate the mold’s functionality and performance. This stage involves manufacturing prototype molds and conducting rigorous testing to ensure they meet the client’s requirements and quality standards.
07
Finalization & Production Release
Once the prototypes are successfully tested and approved by the client, we finalize the mold design and release it for full-scale production. Our team closely monitors the manufacturing process to ensure the molds are fabricated to the highest standards and deliver consistent, high-quality parts.
08
Continuous Improvement
At Omni, we are committed to continuous improvement and innovation. We regularly evaluate our mold design process to incorporate the latest technologies, best practices, and customer feedback, ensuring we deliver exceptional results with every project.