FDM 3D Printing Service

Upload your CAD files, receive an instant FDM 3D printing quote and get your parts into production in less than 12 hours.

  • Free quotation with DFM review in 12 hours

  • Lead time as fast as 3 days

  • Сертифицировано по ISO 9001:2015

Сертификаты
Зарегистрирован по стандарту ISO 9001:2015 | IATF 16949

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FOur FDM 3D printing service

Our FDM 3D Printing Services

Our global network of certified FDM 3D printing manufacturing partners will help you make low-cost prototypes quickly so you can test your designs. Just upload your parts, get a quote, and in less than 12 hours you can start making them.

What is FDM 3D Printing?

In FDM, the raw material filament is continuously fed into the extrusion head of the heating nozzle to melt it and extrude it evenly. The printer moves the extrusion head according to the movement track formed by the three-dimensional model slice, and places the molten material at the precise position. and cool and solidify there. When a layer is complete, the build platform moves down and the process repeats until the part is complete.

After printing, parts are usually ready to use, but may require some post-processing, such as removal of support structures or surface smoothing.

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Advantages of FDM 3D Printing

Fused deposition modeling can create complex parts from plastic stock. However, they are anisotropic in the z-direction (vertical direction) and have a stepped structure on the surface. Fused deposition modeling works with standard materials such as ABS/PA/PC. Therefore, the parts have good mechanical properties and are durable. Parts can be post-processed like any plastic part produced by conventional manufacturing.

Fused Deposition Modeling (FDM) is a 3D printing technology known for its speed, precision and competitive cost. FDM machines precisely extrude molten plastic filaments to create parts. FDM parts can be manufactured in as little as a day.

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Ultimate Guide to 3D Printing Parts Fabrication

To help you make the most of 3D printing parts fabrication, we put together this comprehensive guide to the fundamentals of this technique that could help you decide if it is the best option for your project and create perfect parts.

Why Choose FDM 3D Printing Service

Выбор материала

FDM printers support virtually all mainframe thermoplastics in a wide variety of materials and colors

Strength & Durability

FDM printed parts can be made of high-performance plastics such as PA/PC/ULTEM for applications requiring resistance to harsh environments.

Точность

We use the most advanced industrial FDM 3D printers with tolerances of +/- 0.004” or +/- 0.002” per inch, whichever is greater.

Turnaround

FDM parts do not require tooling which reduces the manufacturing lead time from weeks to days, allowing for faster innovation and speed to market.

Large Build

FDM can produce FDM parts with large build volumes up to 24″ x 36″ x 36″

End Production

FDM parts do not require molds and can be manufactured quickly, whether prototypes or mass production

Gallery of FDM 3D Printed Parts

Посмотрите нашу обширную галерею, в которой представлены прецизионно обработанные прототипы и детали от наших уважаемых клиентов.

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FDM 3D Printing Capabilities

Для обеспечения технологичности и точности изготавливаемых прототипов и деталей мы FDM 3D printing parts fabrication services соответствуют стандарту ISO 2768-m.

RequirementDesktop FDMIndustrial FDM
Maximum build size500 x 500 x 500 mm (19.68″ x 19.68″ x 19.68″)406 x 355 x 406 mm* (15.98 x 13.97 x 15.98″)
Standard lead time2 business days3 business days
Dimensional accuracy± 0.5% with a lower limit on ± 0.5 mm (0.0196″)± 0.25% with a lower limit: ± 0.25 mm (0.01″)
Layer height100-300 μm100-300 μm
Infill20-100%Ultra-light, Light, Solid

The maximum build size for Carbon-filled Nylon (Onyx) is 320 mm x 132 mm x 154 mm

Get your parts quickly with our Online 3D Printing Service

Use our online 3D printing service to improve your business strategy and come up with new ideas faster. With our cutting-edge 3D printing technologies, you can use the knowledge of 3D printing experts to start making high-quality products.

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You design it

You can use any CAD software you want to make your 3D design. We can print files in more than 40 different formats, so we can handle all of your 3D printing needs.

We 3D print it

The operators of our industrial 3D printers pay close attention to the quality of your prototypes and finished parts.

You receive it

Rapid Protos’ 3D printing service ships your 3D printed parts anywhere in the world from our 3D printing factories in China. As fast as 5 days.

Sheet Metal Instant Quote

Our FDM Manufacturing Standards

We make your parts by following strict rules for making things. In our inspection report, which is sent with every order, we check that these requirements are met.

  • Desktop FDM: A dimensional accuracy of ± 0.5% with a lower limit of ± 0.5 mm (± 0.020″).

  • Industrial FDM: A dimensional accuracy of ± 0.25% with a lower limit: ± 0.25 mm (± 0.010″).

  • Consistent surface finish with no bumps or delamination. Marks left by retraction and layer changing are acceptable.

  • All support material is removed such that the supported surface has a consistent finish.

  • All parts are printed with 3 outline / perimeter shells or a wall thickness of 1.2 mm.

Available Materials for FDM 3D Printing

Below is a list of our standard materials for industrial and desktop FDM 3D printing. To instantly compare material prices, upload your parts to our online platform.

FDM Materials
МатериалТочность (мм)Мин. Толщина стенкиПлотность (г/см³)Температура теплового отклонения (°C)Температура плавления (°C)Жесткость (ударная вязкость XY)Прочность (прочность на изгиб XY)
НОАК±0.31 мм1.2457155-17041,7 кДж/㎡91 МПа
PLA-CF±0.31 мм1.2857~190-21032 кДж/㎡93 МПа
АБС±0.31 мм1.0399~22050,5 кДж/㎡58 МПа
ПЭТГ±0.31 мм1.2870190-20078,2 кДж/㎡80 МПа
PETG-CF±0.31 мм1.2970190-20058,3 кДж/㎡83 МПа
PETG-GF±0.31 мм1.3070190-20023 кДж/㎡76 МПа
ТПУ±0.31 мм1.21Н/Д~180130.5 J/㎡Н/Д
АСА±0.31 мм1.0795~21047 кДж/㎡57,5 МПа
ПК±0.31 мм1.20110-120~260~16-20 кДж/㎡90-95 МПа
PA6-CF±0.31 мм1.06200~250-26045 кДж/㎡160 МПа

Surface Finishing Options For 3D Printing

Отделка поверхности важна, если вы хотите сделать 3D-печатные прототипы или серийные детали прочнее, долговечнее, лучше выглядеть или даже лучше работать. Ознакомьтесь с этими различными способами отделки, и вы обязательно найдете тот, который подойдет именно вам.

ИзображениеИмяОписаниеЦветДеталь
шлифовка и полировка 300x200Шлифовка и полировкаЭтот процесс включает в себя шлифовку поверхности 3D-печатной детали наждачной бумагой все более мелкой зернистости, а затем полировку полировочным составом для достижения гладкой поверхности.н/аПодробнее >>
обработка красок 300x200РисованиеПокраска поверхности 3D-печатной детали - простой и эффективный способ улучшить ее внешний вид и защитить от воздействия внешних факторов. Можно использовать различные виды красок и покрытий, включая аэрозольные краски, аэрографию и порошковую окраску.любые цвета по вашему желаниюПодробнее >>
Химическая обработка 300x200Химическая обработкаХимическая обработка, такая как выравнивание паром ацетона, может использоваться для растворения и выравнивания поверхности 3D-печатных деталей, изготовленных из ABS или аналогичных материалов. Другие виды химической обработки могут использоваться для нанесения на поверхность деталей защитного слоя или изменения их свойств.н/аПодробнее >>
Гальваническая обработка 300x200ГальваникаГальваника позволяет покрывать поверхность 3D-печатных деталей тонким слоем металла, улучшая их прочность, проводимость и внешний вид. Обычно для гальванического покрытия используются такие металлы, как золото, серебро и медь.Алюминий, сталь, нержавеющая стальн/а
Термообработка 300x200Термическая обработкаТермообработка подразумевает воздействие на 3D-печатные детали высоких температур, что позволяет повысить их прочность, твердость и износостойкость.н/аПодробнее >>
Обработка лазерного травления 300x200Лазерное травлениеЛазерное травление можно использовать для создания сложных рисунков и маркировки на поверхности 3D-печатных деталей, что может быть полезно для маркировки, брендирования или создания пользовательских текстур.н/аПодробнее >>

Let’s Start A FDM 3D Printing Project Today

Часто задаваемые вопросы

FDM and SLA 3D printing are commonly used to create manufacturing jigs, jigs, and other tooling. FDM is better for large, simple parts, while SLA is better for complex jigs, high-precision tools, and molds.

The main disadvantage of fused deposition modeling (FDM) 3D printing is the limited resolution and surface quality of printed objects. Layer heights are typically hundreds of microns, which results in visible layer lines and a rough surface finish.
Nozzle size limits the smallest feature size that can be printed, so FDM 3D printing may not be able to achieve fine details and complex geometries.
Overall, while FDM 3D printing is a popular and easy-to-use method of making 3D objects, it may not be the best choice for applications that require high resolution, fine detail, or a smooth surface finish.

Приложение

FDM 3D printing is a rapid additive manufacturing technology that is widely used in various industries. Generally, your products are used in the following situations;

  • Concept
  • Engineering models
  • Functional testing
  • Consumer products
  • High-heat applications
  • Initial prototypes
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