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Industrial

Innovating Industrial Models with 3D Printing Technology

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Unleash Your Industrial Models Potential with PCBWay

3D Printing Solutions for All Your Industrial Models Needs at PCBWAY

Whether you're developing a new industrial model or validating a new concept, PCBWay's prototyping services can help

Prototypes and Testing

Conceptual Designs

Parts customization

Mass Production

Design verification and analysis
Complete design iterations in a short time and accelerate product development
Design repeatability and optimization
Conduct more tests in a short period of time to identify potential problems
Structure/assembly and functional verification
Verification of prototypes can be faster and more accurate
Rapidly develop design iterations
Reduce time and cost investment, manufacturing is more in line with consumer needs
PCBWay Brings Precision and Professionalism to Your Industrial Models Manufacturing

We deliver the technology, engineering and product manufacturing expertise that helps your industrial models get to market more quickly and efficiently.

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PCBWay Core Advantages Support Industrial Models Manufacturing

Flexible solutions and advanced production capabilities allow you to easily manufacture and deliver industrial models prototypes and mass production

High flexibility in production

Three-dimensional solids of any complex shape can be manufactured. If you want to produce part models of different shapes, you only need to adjust the model file, readjust and set the parameters.

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Highly integrated design and manufacturing

The production process of 3D printing is directly driven by the three-dimensional model, realizing the seamless connection from the model to the actual object, and truly realizing the integration of design and manufacturing. It is a typical embodiment of digital design and manufacturing technology.

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Production constancy

The cost of a product has almost nothing to do with the batch size, complexity of the product, and production cycle.

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Highly automated

The process is fully automatic without manual intervention, and can basically achieve unattended production.

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Application of 3D printing in the Industrial Models

Material performance parameters for the Industrial industry

We have 30+ 3D printing special materials for you to choose from

Material UTR8220 Somos ® Ledo Somos ® Taurus UTR8100 PA12 PA12+35% GF Stainless steel 316L AlSi10Mg
Color Yellow-green White Gray-black Colorless and transparent White/black Off-white Stainless steel color Aluminum alloy gold
Performance High toughness, suitable for industrial model parts High toughness and strength, suitable for industrial parts models and industrial modification accessories Industrial product accessories customization Transparent material parts trial production and visual model production HP nylon material, nylon 12 material, tooling fixture Nylon fiberglass material, high temperature resistance, high strength parts stainless steel material Aluminum alloy material
Heat Distortion Temperature 58℃ 58℃ 90℃ 46℃ 146.2℃ 152.4℃ N/A N/A
Tensile Strength 51.2MPa 52.3MPa 49MPa 42-50MPa 46MPa 44MPa 600MPa 300MPa
Tensile Modulus 2136MPa 2600MPa 22065MPa - 1206MPa 2644MPa N/A N/A
Elongation at Break 16% 11% 17% 4-9% 36% 9.3% 30% 8%
Bending Strength 93.5MPa N/A 62.7MPa 80-90MPa 46.3MPa 60.3MPa 400 yield strength 180 yield strength
Flexural Modulus 2355MPa N/A 1724MPa 2300-2600MPa 1300MPa 2210MPa N/A N/A
Shore Hardness 86D N/A 83D 82D N/A N/A 28HRC 120HBW
Print Layer Thickness 0.1mm 0.1mm 0.1mm 0.1mm N/A N/A N/A N/A
Maximum Molding Range Performance Somos ® Ledo Somos ® Taurus UTR8100 PA12 PA12+35% GF Stainless steel 316L AlSi10Mg

Common Industrial Surface Treatments

At PCBWay, we offer a variety of common surface treatments that help improve functionality and aesthetics.

Spray painting High gloss paint
Spray painting - High gloss paint

Spray painting: Using spray guns with air pressure to disperse into uniform and fine droplets and apply the painting to the surface of the object. Application: generally used in the appearance of smart hardware, home appliances, and plastic parts.

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Spray painting Matt paint
Spray painting - Matt paint

Spray painting: Using spray guns with air pressure to disperse into uniform and fine droplets and apply the painting to the surface of the object. Application: generally used in the appearance of smart hardware, home appliances, and plastic parts.

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Vacuum plating High gloss paint
Vacuum plating - High gloss paint

Vacuum plating mainly includes vacuum evaporation, sputtering and ion plating. They are all used to deposit various metal and non-metal films on the surface of plastic parts through distillation or sputtering under vacuum conditions. It can get very thin surface coating. Detail sanding would proceed for these parts in order to achieve the best surface effect after plating.Features: fast speed and good adhesion.
Application: functional coatings for higher-end products, household appliances, and cosmetic packaging.

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Vacuum plating Matt paint
Vacuum plating - Matt paint

Vacuum plating mainly includes vacuum evaporation, sputtering and ion plating. They are all used to deposit various metal and non-metal films on the surface of plastic parts through distillation or sputtering under vacuum conditions. It can get very thin surface coating. Detail sanding would proceed for these parts in order to achieve the best surface effect after plating.Features: fast speed and good adhesion.
Application: functional coatings for higher-end products, household appliances, and cosmetic packaging.

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1000 sanding
#1000 sanding

Sanding is the use of fine abrasive sand particles to rub the surface of the product to produce a diffuse, non-linear texture effect. Adhere different abrasive grit to the backing paper or the back of the board, and the abrasive grit can be distinguished by different granularities according to the size: the higher the particle size, the finer the abrasive grit, so the surface effect is better.

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Dyeing
Dyeing

Dyeing is done in a special solution containing dyes and particular chemical material. Dye molecules are fixed to the fiber by absorption, diffusion, or bonding with temperature and time being key controlling factors. Usually the result of dyeing will have a certain color difference.

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Silkscreen
Silkscreen

Silkscreen generally refers to screen printing, which is the process of pressing ink through a stencilled mesh screen to create a printed design, graphics and text.
Kindly note that silkscreens can be made only on flat surfaces. ONLY Ai and svg formats are acceptable and meanwhile mark the dimension and placement on the 2D technical drawings.

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Laser engraving
Laser engraving

Laser engraving is the use of laser technology to engrave text and pattern on objects. The characters engraved by this technology have no nicks, the surface of the object is smooth, and the text and pattern will not wear out.
Kindly note that laser engraving can be made only on flat surfaces. ONLY Ai and svg formats are acceptable and meanwhile mark the dimension and placement on the 2D technical drawings.

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Custom Parts for Industrial Models

We are committed to manufacturing parts that meet industry performance and safety standards, whether
prototyping or low-volume production

Resin UTR8100 for Industrial Model of Automotive Engine Enclosure
Industrial Model of Automotive Engine Enclosure
Resin UTR8100
Resin UTR Therm for Industrial Model of Turbine Part
Industrial Model of Automotive Engine Part
Resin UTR3000
Resin UTR Therm for Industrial Model of Turbine Part
Industrial Model of Turbine Part
Resin UTR Therm
Nylon PA12 for Industrial Model of Engine Casing
Industrial Model of Engine Casing
Nylon PA12
Resin UTR8360 for Industrial Model of Gear Part
Industrial Model of Gear Part
Resin UTR8360
Resin UTR8360 for Industrial Model of Audio Panel Part
Industrial Model of Audio Panel Part
Resin UTR8360
Glass Fiber Nylon for Industrial Model of Turbine Protection Cover
Industrial Model of Turbine Protection Cover
Glass Fiber Nylon
Resin Somos Ledo for Industrial Model of Turbine Part
Industrial Model of Turbine Part
Resin Somos Ledo
Resin Imagine Black for Industrial Model of Device Enclosure
Industrial Model of Device Enclosure
Resin Imagine Black
Nylon MJF HP12 for Industrial Model of Device Adapter
Industrial Model of Device Adapter
Nylon MJF HP12

The One-Stop Electronics Manufacturer

Unleashing Our Company's Strengths

PCBWay is a one-stop solution platform from prototyping, R&D to mass production. Utilizing our instant quoting platform and comprehensive supplier network, you can quickly obtain design validation and accelerate your product launch.

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    Parts & Prototypes Produced
  • 52 & 4
    Partner Network & Industrial Base
  • 256000
    Engineers Served
  • 100
    Materials and Finishings
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FAQ's

What are the material options for 3D printing industrial models?

3D printing industrial models can use a variety of materials, including plastics (such as ABS, nylon, polycarbonate), resins (such as light-curing resin), metals (such as titanium alloys, aluminum alloys), etc. The choice of material depends on the performance requirements of the desired model and the application scenario.


What industries and application fields are 3D printed industrial models suitable for?

Automotive industry: used for design verification and assembly testing of automotive parts.

Aerospace: Used for the design and testing of aircraft components, such as engine components, cabin structures, etc.

Medical Devices: Used for the production and testing of medical equipment and human anatomy models.

Architecture and architectural design: For the production and presentation of architectural models.

Industrial Equipment: For design verification and functional testing of industrial machinery and equipment.


What are the advantages of 3D printed industrial models compared to traditional model making methods?

Rapid production: 3D printing can quickly produce complex geometric shapes and details, greatly shortening the production cycle.

Customizability: Customization can be carried out according to design requirements, and model size, shape and material can be flexibly adjusted.

Cost-Effectiveness: 3D printing can reduce the labor and material costs of making models.

Iterability: Easily carry out design iterations and modifications, speeding up product development and improvement.



What is the role of 3D printed industrial models in industrial design?

3D printed industrial models play an important role in industrial design. They help designers and engineers better visualize and understand product designs, conduct design verification and functional testing, and conduct marketing and customer demonstrations.


Automotive

Automotive

Consumer Electronics

Consumer Electronics

Medical and Dental

Medical and Dental

Industrial Machinery

Industrial Machinery

Aerospace Aviation

Aerospace & Aviation

Robotics

Robotics

3DP Automotive

3D Printing for Automotive

3DP Medical and Dental

3D Printing for Medical and Dental

3DP Cultural Creativity

3D Printing for Cultural Creativity

3DP Industrial

3D Printing for Industrial