XCD | 3D Printing 3D Printing – 星诚达

Custom Online 3D Printing Services

Get instant online 3D printing quotes for plastic and metal parts.

Rapid 3D printing services from prototype to production with fast lead times.

Tolerances as fine as ±0.2 mm ISO 9001:2015, ISO 13485, ISO14001:2015, IATF 16949:2016 certified Lead time as fast as 1 day

3D Printing Services for Custom Prints

Different 3D printing technologies solve different manufacturing problems. We also support DLP, FDM, and BJ 3D printing technologies to meet diverse material and production needs.

SLA 3D Printing Service

High-resolution resin printing for visual and precision prototypes.

Best for: appearance models, fine details, smooth surfaces

Materials: engineering resins

Tolerance: ±0.1–0.2 mm

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MJF 3D Printing Service

HP MJF uses a fusing agent and heat to create strong, functional parts with fine details and excellent mechanical properties.

Tolerance for nylon parts: ISO 2768-CL

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SLS 3D Printing Service

SLS fuses powdered material layer by layer using a laser, producing robust and durable parts. It's excellent for complex geometries and end-use applications.

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Metal 3D Printing Service (SLM)

SLM melts metal powders with a laser to create high-strength, intricate metal parts. This process is ideal for aerospace, medical, and industrial applications.

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Global Manufacturing Network for 3D Printing

XCD provides industrial-grade on demand 3D printing services supported by a global manufacturing network. Our production 3D printing capacity enables us to handle everything from rapid 3D printing prototypes to large-volume production parts with consistent quality.

300+
Machines Set
120+
Countries Shipped
20,000+
Customers Served

Materials for Rapid 3D Printing Services

Our material selection includes plastic and metal options like ABS, PA (Nylon), Aluminum, and Stainless Steel, suitable for various industrial custom 3D printing projects.

METALS

Aluminium

Lightweight, strong, and naturally resistant to corrosion, aluminum is ideal for 3D printing in aerospace and automotive applications.

  • Color: Silver
  • Subtypes: Stainless Steel 316L Silver Grey
  • Price: $$$
  • Lead Time: About 6 business days

Stainless Steel

Highly durable, corrosion-resistant, and heat-tolerant, stainless steel is great for both functional parts and intricate, high-strength components.

  • Color: Silver
  • Subtypes: Stainless Steel 316L Silver Grey
  • Price: $$$
  • Lead Time: About 6 business days

PLASTICS

ABS

Known for its strength, durability, and resistance to heat and impact, ABS is a popular choice for 3D printing functional prototypes and end-use parts.

  • Color: Yellow, Black, Creamy White
  • Subtypes: ABS-Like Resin Black, ABS-Like Resin Creamy White
  • Price: $
  • Lead Time: About 4 business days

PA (Nylon)

Flexible, tough, and resistant to wear and abrasion, nylon is perfect for parts that need to withstand heavy use.

  • Color: Black, White
  • Subtypes: Nylon Black (High Temp), Nylon PA12 White, Nylon PA12-Black
  • Price: $$
  • Lead Time: About 5 business days

3D Printing Finishing Services

3D printing post processing improves the surface quality, appearance, and performance of 3D printed parts. Our 3D printing finishing services support both plastic and metal 3D printed components.

As-machined

Ideal for functional prototypes or internal components requiring tight assembly tolerances and precision fit.

Painting

Enhances visual appeal and durability. Supports multiple finishes including Spray Paint and Powder Coating.

Polishing

Ideal for metal parts (SS/SLM/MGF). Reduces surface roughness (Ra 1.6μm-3.2μm) for a smoother finish.

Electroplating

Customized metal coating solutions: Vacuum Plating, Water Plating, and specialty finishes.

XCD Online 3D Printing Service Solutions

PROTOTYPING

3D Printing

Start your project with our rapid 3D printing service. Ideal for creating detailed prototypes and custom parts quickly, we use advanced technologies to deliver high-quality, high-resolution prints with precise tolerances.

  • Iterate and refine your designs rapidly to ensure perfect results

Low Volume Production

Vacuum Casting

Our urethane casting service bridges the gap between prototyping and mass production. Perfect for low to medium-volume production, creating durable, high-quality parts with excellent surface finish and detail.

  • For market testing and initial product launches

High Volume Production

Injection Molding

For large-scale production needs, our injection molding service is the optimal choice. It is capable of producing high volumes of parts efficiently, maintaining consistent quality and precision.

  • Cost-effective process for mass production

XCD 3D Printing Capabilities

We provide a comprehensive overview of each rapid 3D printing process's unique standards, aiding in informed decisions for your printing needs.

SLA MJF SLS SLM
Min. Wall Thickness 0.6mm for unsupported walls, 0.4mm for supported walls on both sides At least 1mm thick; avoid overly thick walls From 0.7mm (PA 12) to 2.0mm (carbon-filled polyamide) 0.8 mm
Layer Height 25 µm to 100µm Around 80µm 100–120 microns 30 – 50μm
Max. Build Size 1400x700x500mm 264x343x348mm 380x280x380mm 320x320x400mm
Dimension Tolerance ±0.2mm (For >100mm, apply 0.15%) ±0.2mm (For >100mm, apply 0.25%) ± 0.3mm (For >100mm, apply 0.35%) ±0.2mm (For >100mm, apply 0.25%)
Standard Lead Time 4 business days 5 business days 6 business days 6 business days
Surface Finish (Ra) Normal: 3.2μm
After polishing: 1.6μm
3.2–6.3μm
(No secondary processing for nylon)
3.2–6.3μm
(Polishing/grinding available)
3.2–6.3μm
(Polishing/grinding available)

Get an Instant 3D Printing Quote Online

Upload your CAD files to get an instant 3D printing quote online. Our automated quoting system analyzes your design, material selection, and production requirements in seconds.

As a professional online 3D printing service company, we support plastic and metal 3D printing for prototypes and production parts.

3D Printing Service for Various Industries

Why Choose Us

XCD is a trusted provider of industrial 3D printing services, helping engineers and manufacturers produce high-quality parts with precision, speed, and reliability.

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High Resolution 3D Prints

Advanced materials, cutting-edge technology, and stringent quality control processes. This commitment results in quality product durability and precision, minimizing rework and enhancing your project's success.

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Fast Turnaround 3D Printing

Streamlined processes and state-of-the-art equipment, addressing your urgent needs by delivering high-quality 3D printed items quickly. This efficiency reduces wait times, enhancing your project's pace and productivity.

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Experienced 3D Printing Experts

We have team of experienced engineering experts providing personalized guidance for every project. Resolve complex design challenges, enhancing print success and customer satisfaction.

Ultimate Guide to 3D Printing

What's 3D Printing?

3D printing, also known as additive manufacturing, is a manufacturing process that creates physical parts directly from digital design files by building material layer by layer.

As one of the most widely used modern manufacturing technologies, custom 3D printing services are commonly applied in prototyping, product development, and volume production.

Compared with traditional subtractive manufacturing, 3D printing for manufacturing enables complex geometries, reduced material waste, and faster turnaround times.

Advantages of 3D Printing

  • Custom 3D Printing: Produce custom parts without tooling or molds, enabling flexible design changes and faster iteration.
  • Complex Geometries: 3D printing allows the creation of complex internal structures and lightweight designs that are difficult to achieve.
  • Reduced Waste: Only the material needed is used, cutting down waste compared to subtractive methods.
  • Rapid Prototyping: Quickly create prototypes to test design, fit, and function, speeding up development.
  • Cost-Effective for Small Batches: Low-volume production eliminates tooling costs, making it ideal for short runs.
  • Speed to Market: Shorter lead times and on-demand production help products reach the market faster.

Rapid 3D Printing Applications

  • Prototype 3D Printing: Quickly turn design concepts into functional and visual prototypes.
  • Custom Tools & Fixtures: Make production-specific tools and jigs that boost efficiency.
  • Medical Implants & Prosthetics: Customized implants and prosthetics with precise fit and performance.
  • End-Use Parts: Manufacture durable 3D printed end-use parts for industrial applications.
  • Architectural Models: Build detailed models for design and planning.
  • Customized Consumer Goods: Create one-of-a-kind items like jewelry, phone cases, and home products.
  • Educational Models: Make accurate models for research and teaching.
  • Replacement Parts: On-demand 3D printing reduces downtime and inventory costs.

3D Printing FAQs

At XCD, every product goes through strict verification—from trial production and inspection testing to customer confirmation—before shipment. Our quality assurance process ensures that all parts meet the agreed specifications before delivery, minimizing the risk of nonconformities. We take pride in our precision and reliability, and every shipment is the result of a joint confirmation between our engineers and customers.
At XCD, we understand the diverse needs of our customers, ranging from single prototypes to large-scale production runs. Consequently, we do not enforce a strict minimum order quantity (MOQ). Whether you require just one machined part or thousands, we are equipped and ready to provide tailored solutions that meet your specific requirements. Our flexible approach ensures that all clients, regardless of order size, receive the highest level of service and quality.
Advantages of CNC Machining Precision and Repeatability: CNC machining ensures high precision and consistent replication of parts, crucial for complex designs with tight tolerances. Reduced Human Error: The automated nature of CNC machining minimizes human error, enhancing the overall quality of production. Efficiency and Speed: Automation allows for faster production cycles, enabling quicker turnaround times than manual processes. Material Flexibility: CNC machines can work with a diverse range of materials, including metals, plastics, and composites, offering versatility across various applications. Software Integration: Advanced CNC software supports quick design changes and updates, facilitating rapid prototyping and easy customization. Cost-Effective for Large Runs: While setup costs are higher, per-unit costs decrease significantly with larger production volumes, making it cost-effective for mass production. Disadvantages of CNC Machining High Initial Costs: CNC machinery and its maintenance represent significant investments, making initial setup expensive, especially for small-scale operations. Skill Requirements: Operating CNC machines requires highly skilled personnel, which can increase training costs and limit accessibility. Less Cost-Effective for Small Runs: Due to setup and programming time, CNC machining may not be economical for producing small quantities of parts. Material Waste: CNC machining often involves subtractive processes, leading to more material waste compared to additive manufacturing. Limited to Material Hardness: Extremely hard materials can wear out CNC tools quickly, potentially increasing operational costs and downtime.
CNC machining has a wide range of applications across industries. In the automotive and aerospace sectors, it is used to fabricate precise engine components, structural parts, and other intricate elements. The medical industry leverages CNC for manufacturing devices, implants, and surgical instruments. CNC is also crucial in electronics, enabling the production of electronic housings, circuit boards, and connectors. Machine tool makers rely on CNC to create complex molds, dies, and machine components. Additionally, CNC is valuable for general custom part production, prototyping, woodworking, and more, allowing for consistent quality and high precision.