Custom Precision 3D Printing Service

At XMAKE, we provide exceptional 3D printing services with instant quotes, competitive pricing, and swift delivery. Upload your designs for immediate pricing and catering to any project phase.

  • Tolerance of ±0.2mm
  • 3d Printing of Metal and Plastic
  • A Design Guide and Technical Support
  • 24-Hour Rapid Parts Delivery
  • Competitive 3D Printing Prices
  • Uncompromising Quality Assurance

3D Printing Processes at XMAKE

3D Printing Materials Selection

Metal Materials

XMAKE_3D Printing_Metal Materials_Aluminum Alloy

Aluminum Alloy

Known for its lightweight and high strength-to-weight ratio, aluminum alloy is widely used in the aerospace industry, automotive parts, and structural components where durability and corrosion resistance are required.

XMAKE_3D Printing_Metal Materials_Inconel 718

Titanium

A family of austenitic nickel-chromium-based superalloys, Inconel 718 is prized for its excellent strength, corrosion resistance, and ability to withstand extreme temperatures, making it ideal for gas turbines, aircraft engines, and nuclear reactors.

Tool Steel

With high hardness and wear resistance, tool steel is specifically designed for the manufacturing of cutting tools, dies, and molds that require precision and durability under repeated stress.

Titanium

Recognized for its strength and lightweight properties, titanium is used in various applications, including aerospace, medical implants, and high-performance sports equipment due to its biocompatibility and corrosion resistance.

XMAKE_3D Printing_Metal Materials_Stainless Steel 17-4PH

Cobalt-Chromium Alloy

These alloys offer a unique combination of high temperature strength, corrosion resistance, and biocompatibility, commonly used in the aerospace industry, dental prosthetics, and high-stress engine components.

XMAKE_3D Printing_Metal Materials_Stainless Steel 316L

Stainless Steel 316L

A low carbon version of stainless steel, 316L is highly resistant to corrosion, especially in marine environments. It's used in surgical instruments, food processing equipment, and chemical processing plants.

XMAKE_3D Printing_Metal Materials_Nickel-Based Superalloys_

Nickel-Based Superalloys

Known for their exceptional mechanical strength and resistance to high temperatures and corrosive environments, nickel-based superalloys are used in jet engines, rockets, and other high-performance applications.

XMAKE_3D Printing_Metal Materials_Cobalt-Chromium Alloy

Stainless Steel 17-4PH

This martensitic precipitation-hardening stainless steel offers a balance of high strength, hardness, and corrosion resistance. It's used in aerospace fasteners, chemical industry valves, and various high-strength components.

XMAKE_3D Printing_Metal Materials_Copper-based Alloy

Copper-based Alloy

Copper alloys, such as brass and bronze, are valued for their excellent electrical and thermal conductivity, making them ideal for electrical wiring, radiators, and various marine applications due to their resistance to corrosion.

XMAKE_3D Printing_Metal Materials_High-entropy alloy

Copper-based Alloy

A new class of materials with multiple principal elements, high-entropy alloys exhibit unique properties like superior strength and multifaceted resistance to wear, corrosion, and radiation, suitable for advanced manufacturing, aerospace, and nuclear industries.

Plastic & Resin Materials

XMAKE_3D Printing_Plastic Materials_Polycarbonate (PC)

Polycarbonate (PC)

Polycarbonate's blend of clarity, strength, and shatter-resistance excels in applications from unbreakable eyewear to tough riot gear and automotive parts, offering both safety and lightweight performance.

XMAKE_3D Printing_Polypropylene (PP)

Polypropylene (PP)

Lightweight and chemically resistant, PP is commonly used for food containers, medical equipment, and automotive parts for its durability and recyclability.

XMAKE_3D Printing_Polyethylene (PE)

Polyethylene (PE)

With excellent chemical resistance and electrical insulation, PE is ideal for plastic bags, bottles, and piping systems due to its flexibility and low-density.

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ABS

ABS is a robust and enduring plastic known for its impact resistance. It is extensively utilized for manufacturing functional prototypes, consumer products, and components that necessitate rigidity and heat resistance.

PLA (Polylactic Acid)

Biodegradable and easy to print, PLA is popular for 3D printing and is used in packaging, disposable cutlery, and textile fibers.

XMAKE_3D Printing_Nylon

Nylon

Known for its high melting point, nylon is used in textiles, automotive parts, and mechanical components for its strength and wear resistance.

XMAKE_3D Printing_TPE_TPU Flexible

TPE/TPU Flexible Materials

These thermoplastic elastomers offer flexibility and resilience, used in shoe soles, gaskets, and flexible plastic products.

XMAKE_3D Printing_PETG

PETG

A strong and transparent thermoplastic, PETG is used for food-safe containers, automotive components, and 3D printing applications.

XMAKE_3D Printing_Casting Resin

Casting Resin

Designed for casting applications, this resin is used for creating intricate, detailed parts and models with high-resolution detail.

XMAKE_3D Printing_Dental Resin

Dental Resin

Specifically formulated for dental applications, dental resin is used for creating accurate models, crowns, and bridges with biocompatibility and precision.

  • We can source any other material on request, but quotes take up to 48 hours.

3D Printing Tolerances

Layer Height

Dimension Tolerance

Max. Build Size

Typical Applications

Delivery Time

FDM

0.1 – 0.5 mm

±0.5%, minimum to one mm

up to 300x300x600 mm

Rapid prototyping, education, consumer products

A few days

SLA

0.025 – 1 mm

±0.05-0.1 mm

up to 200x200x300 mm

Precision prototyping, jewelry, dental models

A few days

SLS

0.06 – 0.2 mm

±0.3%, minimum ±0.3 mm

up to 300x300x300 mm

Functional prototyping, aerospace parts, automotive parts

Around a week

DMLS

0.02 – 0.1 mm

±0.1 – 0.3 mm

up to 250x250x325 mm

Metal part manufacturing, aerospace parts, molds

Around a week

PolyJet

0.016 – 0.34 mm

±0.05 – 0.1 mm

up to 500x300x200 mm

Fine prototyping, dental models, consumer products

A few days

MJF

0.08 – 0.1 mm

±0.3%, minimum ±0.3 mm

up to 380x284x380 mm

Functional prototyping, short-term production, industrial parts

Around a week

*Note: Table values are indicative. Actual specs can differ based on printer model, material, and settings. Delivery times depend on order volume and processing needs. Contact us for tailored recommendations on printing processes and parameters.

Surface Finish Options for 3D Prints

Description

Applicable Materials

Suitable Applications

Unfinished

No additional processing after print completion, retains original print texture and color.

FDM: PLA, ABS, PETG, etc.
SLA: Photo-curable Resin
SLS: Nylon
DMLS: Various Metals
PolyJet: Various Resins

Rapid prototyping, concept validation, educational purposes, internal use.

Natural

Prints are completed in the printer, support structures are removed but no other processing is done; the surface may retain slight layer lines.

FDM: PLA, ABS, PETG, etc.
SLA: Photo-curable Resin
SLS: Nylon
DMLS: Various Metals

Functional prototypes, testing molds, applications not requiring high surface quality.

Standard

Printed parts undergo basic sanding and smoothing to reduce visible layer lines and imperfections, providing a moderate appearance.

FDM: PLA, ABS, PETG, etc.
SLA: Photo-curable Resin
SLS: Nylon

Presentation models, commercial use with medium appearance requirements.

Custom

Special surface treatment according to customer requirements, may include painting, plating, anodizing, screen printing, etc.

FDM: PLA, ABS, PETG, etc.
SLA: Photo-curable Resin
SLS: Nylon
DMLS: Various Metals
PolyJet: Various Resins

Final-use parts, high-end presentation models, products with extremely high appearance requirements.

*Note: This table outlines general 3D printing surface finish options. Actual preparation methods vary and may necessitate specific technical expertise and equipment. For personalized advice on the optimal surface finish for your project, please get in touch.

3D Printing Steps at XMAKE

XMKAE-Manufacturing Process-Upload File

Upload File

Start by uploading your CAD files securely to our platform.

XMKAE-Manufacturing Process-Design Feedback

Design Feedback

Receive expert feedback to optimize your designs for manufacturing.

XMKAE-Manufacturing Process-Rapid Prototype

Rapid Prototype

Quickly turn designs into prototypes with state-of-the-art technology.

XMKAE-Manufacturing Process-Premium Quality

Premium Quality

Guaranteed high-quality production, ISO 9001:2018 certified for excellence.

XMKAE-Manufacturing Process-24_7 Supported

24/7 Supported Guidance

Experience continuous support and guidance throughout the manufacturing process.

Efficient 3D Printing for Streamlined Production

Achieve efficient 3D printing with high-volume production capabilities, backed by our team of expert production specialists. Benefit from competitive unit pricing that leverages economies of scale, along with the necessary quality certifications to ensure your products are customer-ready.

XMAKE_Efficient 3D Printing for Streamlined Production-01

Efficient 3D Printing for Diverse Industries

Robotics

Aerospace

Automotive

Consumer Products

Medical Devices

Why Choose XMAKE’s Custom 3D Printing Service

3D Printing ICON

Advanced Technology

XMAKE utilizes top-tier 3D printing technology for precision and detail, ensuring products meet rigorous industry standards with reliable results.

3D Printing ICON

Rapid Prototyping

Accelerates the product development cycle with fast prototyping, enabling clients to market their innovations more swiftly.

3D Printing ICON

Customization and Flexibility

Offers extensive customization, allowing unique part design to meet specific project needs, surpassing limitations of traditional manufacturing.

3D Printing ICON

Scalability and Cost-Effectiveness

Whether a client needs a single prototype or a large batch of parts, our digital manufacturing platform can scale to meet demand without incurring excessive costs.

High-Quality 3D Printed Parts Made By XMAKE

XMAKE Customer Success: Solving Challenges Together

XMAKE_3D Printing_Review_Ethan Hunter

Reliability in Precision and Aesthetics

XMAKE’s 3D printing has been indispensable for our product development. The level of precision is remarkable, and the aesthetic quality of the prints is consistently top-notch. It’s a perfect blend of form and function that has elevated our product line. The reliability of their service is something we can depend on for our most intricate designs.

Ethan Hunter

Product Design Manager at InnovTechSolutions

XMAKE_3D Printing_Review_Alex Johnson

Accelerating Innovation Through Speed

XMAKE’s 3D printing services have completely transformed our approach to prototyping. The speed at which we can go from concept to physical model is astounding. This efficiency has not only accelerated our innovation cycle but also improved our ability to respond to market demands quickly. It’s a true testament to how technology can drive business agility.

Alex Johnson

Project Lead at FastForward Prototypes

XMAKE_3D Printing_Review_Maria Garcia

Personalized Service for Bespoke Results

Working with XMAKE has been a game-changer for Custom Creations Inc. Their 3D printing service offers a level of customization that allows us to bring our most complex and unique designs to life. The personalized service and support we receive are unmatched. XMAKE’s team is always ready with solutions that cater to our specific needs, making them a valuable partner in our quest for innovation and excellence.

Maria Garcia

CEO of Custom Creations Inc.

3D Printing FAQs

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1. How do I prepare my 3d model for printing?

Preparing a 3D model for printing involves ensuring the model is watertight and free of errors, scaling it to the desired size, and orienting it properly to minimize support structures and optimize print time. Software tools can be used to slice the model into layers and generate the necessary code for the 3D printer.

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2. What factors should I consider when choosing a 3d printing service provider?

When selecting a 3D printing service provider, consider factors such as the range of materials offered, the quality of the prints, the turnaround time, the cost, the provider's expertise, and their ability to handle the complexity and volume of your project.

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3. How do I ensure the quality and accuracy of my 3d printed parts?

At XMAKE, we guarantee quality and accuracy through state-of-the-art 3D printing technology and strict quality control measures. We utilize precise machinery and offer post-processing services such as surface finishing and polishing to ensure dimensional accuracy and surface quality.

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4. What are the typical lead times for 3d printed orders?

Lead times for 3D printed orders at XMAKE can vary based on the complexity and volume of the parts. For standard orders, we aim to deliver within one to two weeks. However, we also offer expedited services for urgent needs and can provide a more accurate timeline upon review of your specific project requirements.

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5. How do you maintain the confidentiality of my design files and intellectual property?

Protecting our customers' intellectual property is of utmost importance at XMAKE. We have robust security measures in place, including encrypted file transfers, secure cloud storage, and strict confidentiality agreements with all our staff. Additionally, we are happy to sign non-disclosure agreements (NDAs) with clients to ensure their designs remain confidential.

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