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3D printer(3D CAD) - List of Manufacturers, Suppliers, Companies and Products

Last Updated: Aggregation Period:Oct 22, 2025~Nov 18, 2025
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3D printer Product List

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NXE400xABS (Black) PP-like (translucent) material added

NXE400xABS (Black) PP-like (translucent) material added

Delivery in as little as 2 days! Achieve ultra-fast modeling at a reasonable price.

The NXE400, which achieves ultra-fast molding at a reasonable price through LSPc technology, operates at six times the speed and 2.5 times the volume of other comparable stereolithography 3D printers on the market. It can continuously print parts of up to 16 liters at a maximum speed of 1 Z centimeter per minute. In addition to xGPP material (gray), the DMM.make 3D printing service has added xABS (black) and PP-like material (translucent). The molded products can be utilized for industrial applications and are also suitable for products and mock-ups, making them useful as marketing tools. Due to the fast molding speed, we can deliver relatively quickly compared to other materials we handle. The parts are molded with a layer pitch of 0.1mm. When placing an order, you can choose between standard processing (with support) and support removal. The NXE400 provides physical support, so it cannot create interlinked parts. ■ Use Cases It is widely used for extrusion molding, casting, machining, as an alternative method for injection molding, molds, and formwork, as well as for molding small parts of IoT products and finished products using 3D CAD data.

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Inkjet-type sand mold additive manufacturing device 'SCM-800II'

Inkjet-type sand mold additive manufacturing device 'SCM-800II'

Direct molding of sand molds from 3D CAD data! No wooden patterns needed, resulting in higher quality and shorter delivery times compared to traditional methods.

The "SCM-800II" is an inkjet-based sand mold additive manufacturing device that can accommodate complex shapes with undercuts. It achieves stable dimensional quality through high-precision molding and dramatically shortens construction time through high-speed molding. Additionally, the recoat sand used in this product is dry sand, which can be reused as is without hardening, known as "Catalyst Coated Sand (CCS)." 【Features】 ■ Free design that integrates complex shapes without the need for division ■ No need for mold division and high precision in thin walls ■ Reduces the number of cores and shortens the time required for prototyping ■ Binder jetting method using an inkjet head ■ Proposes improved productivity and reduced running costs with the new technology sand for sand mold 3D printers, "CCS."

  • Other processing machines

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[Case Study] Using a 3D printer to iterate prototypes and create the final product.

[Case Study] Using a 3D printer to iterate prototypes and create the final product.

During the prototyping stage, we used a 3D printer to verify the shape and strength while fabricating the final product with PA12 material.

We spoke with Mr. Kishi, the representative director of Kishitec Co., Ltd., which has been specializing in mechanical design using 3D CAD since its establishment. They are capable of creating 3D data from clay models and similar shapes, as well as reverse engineering, and they produce high-precision models, jigs, measuring instruments, and industrial products from 3D data. They consulted DMM.make for manufacturing using Jet Fusion during the prototyping stage of bicycle accessories. ■ Use Cases 3D CAD data is utilized for a wide range of applications, including as alternative methods for extrusion molding, casting, machining, injection molding, molds, and formwork, as well as for molding small parts of IoT products and finished goods.

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[Case Study of Corporate Implementation] Abundant operational experience with 3D printers up to the final product.

[Case Study of Corporate Implementation] Abundant operational experience with 3D printers up to the final product.

Insoles with complex shapes that could not have been created without craftsmen and engineers, in order to solve product development challenges.

We spoke with Mr. Yamakawa from Japan Healthcare Co., Ltd., which sells custom-made insoles produced by a 3D printer using the country's first smartphone! Insoles with complex shapes that could not have been created without artisans or engineers have been developed, and we consulted DMM.make to solve the challenges in product development. ■ Use Cases We are utilizing 3D CAD data for a wide range of applications, including extrusion molding, casting, machining, and as alternative methods for injection molding, molds, and formwork, as well as for molding small parts of IoT products and finished goods.

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3D Scanner × 3D Printer | Expressing 3D Shapes in 10 Million Colors

3D Scanner × 3D Printer | Expressing 3D Shapes in 10 Million Colors

No need for 3DCAD or 3DCG software. Easily create full-color, richly colored 3D models using a high-precision 3D scanning system!

Mimaki's "3D Scanner + 3D Printer System" allows anyone to easily create full-color 3D models by capturing three-dimensional objects with a 3D scanner and converting them into 3D data using dedicated software. 【Here’s where it shines!】 Mockup design and prototyping / Figures and models / 3D modeling to preserve children's growth and memories / 3D modeling of pets and animals / Creating replicas of cultural heritage / Arts and crafts / Medical applications / Bridge construction / Others ⇒ Thanks to the 3D scanner's imaging, there's no need for complex 3D CAD or 3DCG production! 【What’s amazing about Mimaki's full-color 3D printing】 1. Reduces product commercialization time (shortens the period from planning to sales without the need for molds) 2. Eliminates the need for manual painting work, contributing to labor cost reduction 3. Capable of mass production of various types and different lots, accommodating short delivery times 4. On-demand production without the need for inventory, responding to demand 5. Supports delicate color expression and gradation in mass production *Please contact us for information regarding the system and related services. We also provide a simple introduction in the video below. *Specifications for our scanners and printers can be found in the catalog.

  • 3D measuring device

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Direct sand casting from 3D CAD data

Direct sand casting from 3D CAD data

Rapid production of prototype development products with short lead times and low costs! Sand mold production using a rapid sand mold printing and layering device.

Tomco partners with cooperating companies to provide a consistent process from material production to processing completion, and we also assist in the production of prototypes. In traditional methods, a wooden mold was required before creating a sand mold. However, Tomco and its partner companies have made it possible to directly create sand molds from 3D data using RP sand mold printing and layered manufacturing equipment. We have reduced manufacturing costs to half of the traditional methods and significantly shortened manufacturing days. Since wooden molds are not needed, we have established a system that can flexibly respond to design changes and other needs. 【Features of RP Sand Mold Printing and Layered Manufacturing】 ■ No wooden molds required; sand molds can be created directly from 3D data ■ Shortened manufacturing days, leading to cost reduction ■ Flexible response to design changes *For more details, please refer to the PDF materials or feel free to contact us.

  • Prototype Services
  • Contract manufacturing
  • Processing Contract

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Large model creation using one of the world's largest 3D printers.

Large model creation using one of the world's largest 3D printers.

High-speed modeling of large-scale models with "MASSIVit 1800"! Scan the actual object with a 3D scanner and convert it into 3D CAD data. *Case study materials available.

Our company possesses one of the world's largest 3D printers, the "MASSIVit 1800," which can produce three-dimensional objects with maximum dimensions of 1170mm (width) × 1500mm (depth) × 1800mm (height). Utilizing our extensive know-how in 3D modeling, we create 3D data. Experienced engineers digitize the data using 2D drawings with known dimensions and 3D scanning. This document includes features of the "MASSIVit 1800," one of the world's largest 3D printers for large-scale modeling, as well as the modeling flow and examples of production. [Contents] ■ Main Features ■ ANAORI CARBON 3D Printing Modeling Flow ■ Production Examples ■ Reference Materials: Available Models ■ Dimengel Material Properties Table *For more details, please refer to the PDF document or feel free to contact us.

  • Contract manufacturing
  • Prototype Services
  • 3D Printer

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Digital Metal: Its Process and Components of Manufacturing Costs

Digital Metal: Its Process and Components of Manufacturing Costs

Metal 3D printing creates products by layering materials from CAD data. This document introduces the elements of each process and the cost factors for part manufacturing.

Metal 3D printing, unlike traditional methods that use molds or cutting tools to carve out material from a solid block, directly shapes products by adding layers of material from CAD data. Additionally, Digital Metal's binder jetting (BJT) method differs from other methods such as laser techniques, as it does not melt the material during the entire process. Instead, it imparts the necessary characteristics of the final product during the sintering process, which occurs below the melting point of the material after shaping. This document introduces each step of the process and the factors affecting the cost of component manufacturing. The greatest benefits can be obtained by not viewing metal 3D printing as an extension of traditional methods, but by discovering products that can only be realized through metal 3D printing.

  • Other machine tools

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3D printer

3D printer

Reforming the manufacturing site! Overwhelming speed-up and cost reduction in prototyping and development.

Our company provides services that connect 3D printers with the manufacturing industry. We carefully listen to your needs and select the most suitable 3D printer. During the implementation phase, we offer support that includes design assistance, maintenance, and training in 3D CAD. Additionally, for metal printing, we collaborate with partner factories to accommodate materials such as stainless steel, aluminum, titanium, and die steel. 【Main Services】 ■ Selection of 3D printers ■ 3D printing services ■ On-site 3D printers *For more details, please refer to the PDF document or feel free to contact us.

  • 3D Printer
  • Rental/lease

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3D Printer Prototyping and Processing

3D Printer Prototyping and Processing

Mold production from actual parts is also possible! High quality and short delivery times are achieved with 3D digital tools!

Mtopia Co., Ltd. provides consistent support and services from the manufacturing of prototypes in various fields to face-up. We support development using three types of modeling methods: inkjet method capable of creating high-resolution and large models, fused deposition modeling with real materials that can achieve high strength and high heat resistance, and photopolymerization using ultraviolet-curable liquids. We respond to various requests, such as digitizing shapes that have been difficult to data until now and reproducing without drawings or data. 【Features】 ■ High precision and large models ■ Modeling with production materials ■ Bulk modeling of a wide variety of small lots ■ Development support with three types of modeling methods *For more details, please refer to the catalog or feel free to contact us.

  • 3D Printer
  • Prototype Services

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Molding process 3D printer

Molding process 3D printer

No molds required, created in a short period and at low cost! This leads to a reduction in product development lead time.

A "3D printer" refers to a machine that creates three-dimensional models by stacking sliced two-dimensional layers based on 3D CAD design data (STL data). Our company utilizes it for jigs for additional processing, contributing to increased productivity. In the case of prototypes, they can be created and evaluated in a short period and at low cost without the need for molds, leading to a reduction in product development lead time. 【Features】 ■ Prototypes - Can be created and evaluated in a short period and at low cost without the need for molds - Leads to a reduction in product development lead time ■ Jigs - Utilized for jigs for additional processing, improving productivity *For more details, please refer to the PDF materials or feel free to contact us.

  • 3D Printer

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ADDITIVE INDUSTRIES / Large Metal 3D Printer

ADDITIVE INDUSTRIES / Large Metal 3D Printer

Dutch-made large metal 3D printer capable of everything from prototyping to mass production.

Additive Industries is a high-end metal 3D printer manufacturer based in Eindhoven, Netherlands, established in 2012. With the slogan "Bigger, Better, Faster," we assist customers in various fields, including aerospace, automotive, high-tech, and energy industries, in achieving sustainable and profitable growth. The MetalFABG2 series from Additive Industries in the Netherlands excels in reproducibility, productivity, and flexibility, capable of handling everything from prototyping and development to mass production. Anytime, anywhere, on demand. We propose a new world of industrial metal 3D printing.

  • METALFAB_G2_Automation.png
  • MetalFABG2-Continuous-Production-v2.png
  • METALFAB2_OPEN_MACHINES-Bigger-Better-Faster_resized-1024x724.png
  • 3D Printer

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Ultra-high-speed optical shaping 3D printer, LC Magna

Ultra-high-speed optical shaping 3D printer, LC Magna

Ultra-high-speed optical molding method, a 3D printer that can also be used for mass production.

Liquid Crystal Magna enables a maximum build height of 16 mm per hour and features a patented technology called "Bloat Peel," which allows for easy removal of finished products from the vat without damaging them. Additionally, its patented LCD screen technology serves as a light source, uniformly irradiating a large area at high resolution, allowing for rapid prototyping. It is ideal for custom manufacturing of prosthetics and large-sized parts such as injection molding molds, facilitating rapid prototyping and mass production. Our factory offers a valuable opportunity to experience actual machine demonstrations and handle parts that have been produced. Please apply here: https://www.3dpc.co.jp/factory-tour

  • Other processing machines

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[Explanation] Electron Beam Powder Bed Melting Method Metal 3D Printer

[Explanation] Electron Beam Powder Bed Melting Method Metal 3D Printer

What is the electron beam powder bed fusion method (powder bed fusion)? What is EB-PBF? Let me explain it briefly!

"What is Electron Beam Powder Bed Fusion (EB-PBF)?" "What is EB-PBF?" Let me explain briefly! We provide a schematic diagram explaining Electron Beam Powder Bed Fusion (EB-PBF) for those in charge who have started gathering information on metal 3D printers! The process involves powder supply by a powder dispenser, powder deposition by a recoater (forward motion), vertical movement of the build stage and the recoater's excess powder passage, melting and solidification of the powder by electron beam irradiation, and powder deposition by the recoater (return motion), repeating this series of actions for layered manufacturing. The vertical movement of the build stage and the recoater's excess powder passage help save powder and reduce waste. *The schematic diagram is based on equipment from Wayland Additive and may not necessarily apply to all electron beam powder bed fusion (EB-PBF) metal 3D printers currently sold by various manufacturers.

  • 3D Printer

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3D printer compatible with carbon fiber

3D printer compatible with carbon fiber

Precision design, compatible with carbon fiber, fiberglass, and Kevlar! ONYX and fiberglass can also be used!

"The Mark Two" is an excellent 3D printer capable of producing highly durable and versatile parts. It can turn CAD designs into beautiful finished products in just a few hours. Start 3D printing by selecting reinforced materials and plastics tailored to your application. This reduces time and effort, minimizes repetitive tasks in design, and allows you to start using the parts immediately after the printing is completed. 【Features】 ■ Precise design ■ 3D printer compatible with carbon fiber ■ Touch panel interface ■ Includes Eiger/software *For more details, please download the PDF or feel free to contact us.

  • 3D Printer

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