We have compiled a list of manufacturers, distributors, product information, reference prices, and rankings for 3D printer.
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3D printer Product List and Ranking from 284 Manufacturers, Suppliers and Companies | IPROS GMS

Last Updated: Aggregation Period:May 27, 2026~Jun 23, 2026
This ranking is based on the number of page views on our site.

3D printer Manufacturer, Suppliers and Company Rankings

Last Updated: Aggregation Period:May 27, 2026~Jun 23, 2026
This ranking is based on the number of page views on our site.

  1. システムクリエイト Osaka//Industrial Machinery
  2. グーテンベルク Tokyo//Industrial Machinery
  3. null/null
  4. 4 AMX Tokyo//Information and Communications
  5. 5 DMM.com DMM.make 3Dプリント事業部 Tokyo//Manufacturing and processing contract
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3D printer Product ranking

Last Updated: Aggregation Period:May 27, 2026~Jun 23, 2026
This ranking is based on the number of page views on our site.

  1. Efforts of Light Stereolithography 3D Printers, Resin, and AMX AMX
  2. 3D Printer for Manufacturing Sites 'GX-1000 Series'
  3. Compact 3D printer "G-ZERO" that can be placed on a desk. グーテンベルク
  4. 4 Automatic correction function for X and Y axes to eliminate misalignment during dual molding. システムクリエイト
  5. 5 FDM method large 3D printer D600 Pro2 HS システムクリエイト

3D printer Product List

811~840 item / All 842 items

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Web Seminar Held ★ Learn about 3D Printers and Design Final Products

Web Seminar Held ★ Learn about 3D Printers and Design Final Products

Achieves effectiveness during mass production with a design that has low anisotropy! In addition to PA12 and PA12 with glass beads, we have started accepting orders for PP molding.

【 Theme 】 "Understanding 3D Printers and Designing Final Products - Mass Production with HP MJF Technology" HP Japan "Features of HP MJF (Multi Jet Fusion) 3D Printers" 15 minutes BASF Japan "Characteristics of PP for Molding Materials and Adoption Cases Overseas" 15 minutes Yasojima Proceed "Initiatives for Utilizing Final Products with HP MJF" 15 minutes 【 Date 】 July 12 (Tuesday) [1] 11:00 AM - 12:00 PM [2] 4:00 PM - 5:00 PM *Both [1] and [2] have the same presentation content 【 Method of Holding 】 Online *Teams Webinar 【 Participation Fee 】 Free (Pre-registration required) 【 Application 】 Please apply via the URL below. [1] 11:00 AM - 12:00 PM https://onl.bz/s1xUVC3 [2] 4:00 PM - 5:00 PM https://onl.bz/h6KeKSZ 【 Recommended for 】 - Those who want to create final products with 3D printers - Those who want to eliminate mold and product inventory management - Those who want to learn about mass production cases using 3D printers - Those who want to know how to utilize 3D printers according to their characteristics

  • 3D Printer
  • Contract manufacturing
  • 3D printer

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Nano crystal plating

Nano crystal plating

The durability of the plating film improves without adversely affecting the electrical properties of the plating film!

Our company offers "Nano-Crystal Plating" technology, which achieves the refinement of crystal grains and enhances the durability of coatings without relying on alloying with dissimilar metals or organic additives. The surface's nano-diamonds improve the sliding properties of contact surfaces. Additionally, the increased viscosity of the plating film makes it less likely for the film to chip due to friction, allowing the plated metal to remain on the substrate surface during sliding, thereby reducing the increase in electrical contact resistance. 【Features】 ■ Improved sliding properties ■ Enhanced stability of electrical contacts ■ Increased electrical wear resistance *For more details, please download the PDF or feel free to contact us.

  • Surface treatment contract service
  • 3D printer

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[Problem-Solving Case] Treatment with good release properties and high wear resistance.

[Problem-Solving Case] Treatment with good release properties and high wear resistance.

Ceramic plating is a special coating that excels in wear resistance! It improves hardness from around Hv400 to Hv900!

We would like to introduce a case where a sealer used in the sealing section of packaging machinery was required to ensure non-stick properties while also demanding high wear resistance and durability. Although a non-stick PTFE coating was used, its hardness was only around Hv400, which posed durability issues. Therefore, we adopted our "Ceramic Coating." This increased the hardness to Hv900, enhancing wear resistance. Additionally, the non-stick performance was secured by reducing the contact area through the action of fine boron nitride particles. [Key Points for Problem Solving] - Even if the counterpart is a film, the hard fillers contained in that film can wear down the counterpart metal. - PTFE coating is relatively hard at around Hv400, but wear still progresses. - The boron nitride contained in the ceramic coating is extremely hard. - Reducing the contact area also excels in wear resistance. *For more details, please refer to the PDF document or feel free to contact us.

  • Other surface treatment equipment
  • 3D printer

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Mitarepo [44] How much high temperature can powdered nylon 11 withstand?

Mitarepo [44] How much high temperature can powdered nylon 11 withstand?

I tested how much high temperature the nylon 11 of the powder sintering 3D printer "Fuse1" can withstand!

"Mitarepo" is a series that introduces what can be done using various products with the concept of "I tried doing this!" From the wide range of product categories handled by System Create, we deliver useful information each time. The theme of Vol. 44 is "How much heat can Nylon 11 from a powder sintering 3D printer withstand?" In the materials, we will create three types of test pieces with different thicknesses using the powder material "Nylon 11" from the powder sintering 3D printer "Fuse 1," and heat them at a constant temperature for a certain period to determine at what temperature they become soft. We will also verify whether deformation occurs when bending them. "Will they deform with just a little heat?" "It's hard to understand the actual heat resistance just by looking at the material properties table!" We will explain points of concern and verification processes related to using 3D printers, along with comments from the technical staff. *You can download the materials from the button above.

  • 3D Printer
  • Resin processing machine
  • plastic
  • 3D printer

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Reduce lead time and costs for sand casting with a 3D printer for casting.

Reduce lead time and costs for sand casting with a 3D printer for casting.

There is not much difference between 3D printers for casting and traditional casting methods using basic wooden patterns. Would you like to take the first step in utilizing this together with our company?

A 3D printer for casting is a modeling method that imports 3D data created using CAD and directly shapes sand molds (such as cores and main molds). It is often referred to as a mold 3D printer or core molding machine, and it can shorten the lead time for producing wooden or resin molds needed for complex shapes, as well as for sand preparation and mold assembly before casting. Rather than relying solely on 3D printers, we recommend a hybrid operation that leverages the advantages of existing methods, the benefits of 3D printing, and your company's strengths and weaknesses. **Features of Utilizing 3D Data and 3D Printers:** - It is possible to create casting 3D data by 3D scanning the product shape even without wooden molds. - For complex-shaped cores, many wooden molds are unnecessary, leading to reduced manufacturing lead times, lower management and storage costs, and shortened assembly time and labor for cores. - Since 3D data is output, there is less variation, and the imbalance in cast products is also reduced. - 3D data can be used not only for modeling but also for verifying products against drawings. - 3D data can also be utilized for casting simulations and other applications. Why not try using a 3D printer this year? We will support you from data creation onwards.

  • Other machine tools
  • 3D printer

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Metal 3D Printer [AconityTWO]

Metal 3D Printer [AconityTWO]

This is Aconity3D's latest solution for efficient industrial laser powder bed fusion (LPBF) manufacturing and production.

The AconityTWO device is Aconity3D's latest solution for efficient industrial laser powder bed fusion (LPBF) manufacturing and production. With a large build envelope of Ø 400 mm x H 400 mm and an easy-to-open machine cover, it allows for the production of large parts with minimal setup time, thereby reducing manufacturing costs. To maximize flexibility in the types of materials that can be processed and to enhance quality assurance, it can be equipped with optional high-temperature preheating up to 800°C and Aconity3D's entirely new process monitoring system (optional). The AconityTWO can also utilize up to four lasers in a quad-laser configuration, further increasing productivity. Like all Aconity3D devices, the AconityTWO is equipped with the AconitySTUDIO control software, allowing Aconity3D service engineers to remotely access all relevant process parameters and machine components, providing timely support to customers.

  • Other processing machines
  • 3D printer

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We are currently offering materials that explain the "advantages and disadvantages" of metal 3D printers!

We are currently offering materials that explain the "advantages and disadvantages" of metal 3D printers!

[Currently presenting materials!] In addition to the merits and demerits, we have included the principles of metal 3D printers and our company's initiatives!

Our company has a 3D printer that uses a laser melting method known as the PBF (Powder Bed Fusion) process. The advantages of metal 3D printing include the ability to create complex shapes, improved customization, and optimization of weight and strength. At Yamato Gosei, we are committed to developing technologies that maximize these benefits. We are also offering materials that explain the "advantages and disadvantages of metal 3D printers." Please check the PDF download below. *For more details, please refer to the PDF materials or feel free to contact us.

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  • 3D printer

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Latest trends and future outlook of 3D printer technology, along with examples of various construction methods and devices.

Latest trends and future outlook of 3D printer technology, along with examples of various construction methods and devices.

What is the current state of 3D printers and the future trends in the market?

"Utilizing Lasers for High-Precision Structure Realization: Case Studies of Resin and Business Applications for LS" 3D Printing: The Latest Technical Trends, Forming Fine Structures, etc. ★ What is the current state of 3D printers and future market trends? How are they utilized in business and design? What are the differences among various methods? ★ High-speed layering of resins, metals, and rubber! What is the mechanism? What applications are possible, and what are not? ★ Development examples of resins for creating high-precision structures through laser layering! What direction will future developments take? ★ Pre-event content request service is currently available! We welcome the submission of your practical challenges! 【Venue】 Tokyo Chuo Ward Industrial Hall, 4th Floor, Meeting Room 2【Tokyo, Chuo Ward】 【Date and Time】 September 25, 2013 (Wednesday) 11:00-16:00 【Speakers】 Part 1: 3D Systems Japan, Personal & Professional 3D Printer Division, Business Division Manager Part 2: Osaka Prefectural Industrial Technology Research Institute, Processing and Molding Department, Chief Researcher Part 3: Arkema Inc., Kyoto Technical Center, Director

  • Company:AndTech
  • Price:10,000 yen-100,000 yen
  • Technical Seminar
  • 3D printer

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Non-electrolytic silver plating

Non-electrolytic silver plating

Compatible with next-generation SiC power devices! Achieves excellent performance.

"Electroless Ag plating" is a technology from OJIC Technologies designed for next-generation SiC power devices. Conventional technologies faced issues such as instability in operation under high-temperature environments and an inability to meet the demands for higher performance devices, necessitating more advanced processing to accommodate SiC power devices. Our "Electroless Ag plating" can solve the challenges of conventional technologies by enabling operation in high-temperature environments through high melting point metal bonding with Ag nanoparticles. 【Features】 ■ Achieves excellent performance as an alternative plating to Au, such as DIG (Direct Immersion Gold) ■ Maintains quality for a long period without being affected by the substrate (such as Cu) and without oxidation ■ Supports fine wiring patterns and partial plating by forming a uniform thin film (0.1~0.5μmt) *For more details, please refer to the PDF document or feel free to contact us.

  • Processing Contract
  • others
  • Surface treatment contract service
  • 3D printer

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Short delivery time, molding, molds, castings, aluminum, 3D printer.

Short delivery time, molding, molds, castings, aluminum, 3D printer.

Are you having trouble with the delivery time for your cast metal prototypes? "Casting Prototype Service!" for cast iron, aluminum castings, and stainless steel castings (lost wax casting)!

● The production time for casting prototypes can be shortened! Since model production is not required, the time needed to produce prototypes, which previously took about a month, can be significantly reduced. ● Model costs can be reduced! By directly producing sand molds from 3D data, there is no need for model production costs. If changes to the model are necessary, they can be addressed by modifying the 3D data. ● Similar products with different shapes and dimensions can be prototyped simultaneously! Different products with similar shapes or varying dimensions can be molded at the same time in one go. This allows for the verification of multiple types in a short period.

  • Prototype Services
  • 3D printer

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Here are five key points for selecting 3D prints and 3D products!

Here are five key points for selecting 3D prints and 3D products!

Key points for selecting a 3D printer vendor 【Handbook available】

Our company specializes in 3D printing processes, including 3D scanning, 3D modeling, and 3D print output, and we will introduce the utilization of 3D printers from this perspective in a handbook! For those who have wanted to try 3D printing or create prototypes but are unsure about what to use or how to use it, we have summarized five key points to address these concerns. [Examples of Content] - Selection of printer models based on purpose and application - Post-processing, finishing, and printing methods - Total solutions from design to implementation, etc. We also have large machines capable of producing objects up to 1 meter in size, as well as 3D printers that support multi-material printing by simultaneously injecting two types of resin materials with different physical properties! *For more details, please refer to our catalog or feel free to contact us.

  • 3D Printer
  • Prototype Services
  • Processing Contract
  • 3D printer

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Remote control of dry contacts via a browser from the LAN.

Remote control of dry contacts via a browser from the LAN.

A remote I/O control device that can be operated remotely via smartphone. Contact control is possible via WiFi.

Depending on the environment and security, operations can be performed not only within the local LAN but also via the internet.* If you want to remotely control dry contacts, choose SMARTIO. You can select between one-shot or ON/OFF toggle for the contact output on the screen. 【Product Features】 ✅ Contact output can be selected as one-shot or ON/OFF toggle on the screen ✅ Operations can be performed not only within the local LAN but also via the internet* ✅ The management interface (WebGUI) can be accessed using a smartphone/PC web browser, no need to install a dedicated app ✅ Output ports: 4 points, no-voltage relay A contact output, maximum rating DC30V 2A / AC250V 2A *Internet operations require the purchase of a "SMARTIO Cloud" license. ○ For more details on usage examples and implementation methods, please feel free to contact us.

  • Company:BH
  • Price:10,000 yen-100,000 yen
  • Remote Control
  • 3D printer

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Copper powder/Bronze powder (CAS: 7440-50-8)

Copper powder/Bronze powder (CAS: 7440-50-8)

Copper Powder / Bronze Powder

- At our production site, we have established water atomizing and air atomizing facilities equipped with classification, sintering, and alloying functions. - We are certified with ISO9001, ISO14001, and ISO45001, and our products comply with REACH. - We can customize specifications according to customer requests. - We are a metal powder manufacturer that excels in business development while providing technical support, as we have an attached laboratory. *Please check the product catalog of Selmark Japan from the document download.

  • Other metal materials
  • 3D printer

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Improvement of mold life: LASERTEC 65 DED hybrid

Improvement of mold life: LASERTEC 65 DED hybrid

Shorten lead time! Solve concerns such as "worry about damage to the base material due to excessive welding!"

Have you ever thought that wear after welding corrections occurs quickly? It is said to be caused by thermal fatigue and thermal cracks. The "LASERTEC 65 DED hybrid" is a metal 3D printer that contributes to increased productivity by extending maintenance cycles. With five process monitoring systems, it thoroughly manages the manufacturing process to achieve stable quality. The processes of "removal processing" → "laser welding" → "machining finish" can be performed with one chucking on a single machine, enabling complete automation without the need for setup changes. 【Features】 ■ Extended maintenance cycles contribute to increased productivity ■ Thorough management of the manufacturing process ensures stable quality ■ Just set it up and start ■ Fully automated 24 hours *For more details, please refer to the related links or feel free to contact us.

  • 3D Printer
  • 3D printer

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[Data] Thorough Review of "FUNMAT PRO410"

[Data] Thorough Review of "FUNMAT PRO410"

How powerful is the industrial 2-head model? Introducing the review of 'FUNMAT PRO410'.

In this document, we introduce a review of the "PEEK compatible" dual-head model 'FUNMAT PRO 410'. The review includes specifications of the "FUNMAT PRO410" and the materials it supports, covering everything from pre-print preparation to the experience of using the dual heads. With a user-friendly interface operated via a touch panel, the slicer can be finely adjusted, allowing for savings on expensive support materials. [Contents (excerpt)] ■ About INTAMSYS ■ Specifications of FUNMAT PRO410 ■ Supported materials (1) General-purpose plastics and engineering plastics (2) Super engineering plastics (3) Support filaments *For more details, please refer to the PDF document or feel free to contact us.

  • 3D Printer
  • 3D printer

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3D Printer 'FUNMAT PRO610' *Video Available

3D Printer 'FUNMAT PRO610' *Video Available

We were introduced on YouTube! PEEK compatible and capable of small lot production【Exhibiting at the Next Generation 3D Printer Exhibition】

We are introducing a 3D printer on YouTube this time. Please take a look at the video at the bottom of the page! The "FUNMAT Series" is a 3D printer that enables stable printing of super engineering plastics thanks to its internal temperature heating function. It can stably print large engineering plastics such as ABS, PC, nylon, PEEK, ULTEM, and PPSU, which have been difficult to print due to thermal shrinkage and distortion. 【Features】 - High-temperature nozzle with a maximum temperature of 500℃ - Chamber heater that maintains an internal temperature of 300℃ - Dual heads allow for easy removal of support materials - Water-soluble support materials are available - Minimum layer pitch of 0.1mm - Oven filament system We will be showcasing the actual machine at the "Next Generation 3D Printer Exhibition," so please come visit us. For more details, please refer to the PDF document or feel free to contact us.

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  • 3D printer

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Differences between "Boden type" and "Direct type" FDM 3D printers.

Differences between "Boden type" and "Direct type" FDM 3D printers.

For those considering implementation! An explanation of the differences between the "Boden type" and "Direct type" of FDM method.

When considering the introduction of a 3D printer and trying to choose a product, many people find themselves surprisingly overwhelmed by the variety available. For example, when researching FDM (Fused Deposition Modeling) 3D printers, you may notice that there are two types: "Bowden" and "Direct Drive." In this column, we will explain the characteristics of Bowden and Direct Drive systems in FDM printers, discussing their advantages and disadvantages. By reading this article, you should be able to determine which type of 3D printer your company should adopt. [Contents] ■ What is Bowden? ■ What is Direct Drive? ■ Understanding the fundamentals of FDM is important ■ Let's clarify the differences between the two *You can view the detailed content of the column through the related links. For more information, please feel free to contact us.

  • 3D Printer
  • 3D printer

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Requirements and application methods for the "Monozukuri Subsidy" that helps with the introduction of 3D printers.

Requirements and application methods for the "Monozukuri Subsidy" that helps with the introduction of 3D printers.

Introducing the "Monozukuri Subsidy" that can be utilized in businesses using 3D printers!

By utilizing 3D printers, it should be possible to reduce costs in manufacturing and aim for improved operational efficiency. In the future, there may be those considering implementation, but what is likely to be a concern is the cost of implementation, isn't it? Even though it can be used in the long term, it is natural to want to minimize the initial costs of implementation. In this column, we will introduce the "Manufacturing Subsidy" that can be utilized in the 3D printer business. By reading the article, you should be able to understand the amount of subsidies available for 3D printer implementation, points to note, and methods for application. [Contents (partial)] ■ What is the "Manufacturing Subsidy"? ■ The process until the manufacturing subsidy application is approved ■ Points to be reviewed when applying for the manufacturing subsidy ■ Precautions when applying for the manufacturing subsidy *For detailed content of the column, you can view it through the related links. For more information, please feel free to contact us.

  • 3D Printer
  • 3D printer

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How to Choose a 3D Printer and Key Points to Know

How to Choose a 3D Printer and Key Points to Know

The manufacturer's support system is also an important factor! Here are some points to check when choosing a 3D printer.

To replicate three-dimensional objects or construct them from blueprints, the use of a 3D printer is recommended. In recent years, there has been a wide variety of 3D printer products available, with various manufacturers releasing products that have different features. As a result, among those who are actually considering implementation, there may be some who feel, "I don't know which one is good." In this column, we will introduce how to choose a 3D printer. If you are having trouble selecting a 3D printer, we hope you find this helpful. [Content] ■ Criteria for choosing a 3D printer ■ Check if there is support after implementation ■ Fusion Technology Co., Ltd. also provides support after implementation *For detailed content of the column, you can view it through the related links. For more information, please feel free to contact us.

  • 3D Printer
  • 3D printer

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Introducing the uses of 3D printers, from typical to surprising.

Introducing the uses of 3D printers, from typical to surprising.

The uses of 3D printers are diverse! We offer a variety of 3D printers.

With the advancement of technology, the performance and precision of 3D printers have dramatically improved, and their practicality in business has also increased. The fields in which they can be used are broader than we can imagine, and it is believed that there are many industries that can be transformed by 3D printers. However, when hearing such discussions, many people might wonder, "What specific uses are there?" and "In which industries are they being used?" In this column, we will introduce representative as well as surprising uses of 3D printers. [Contents] ■ Applications of 3D printers ■ Let's grasp the basic knowledge about 3D printers ■ The uses of 3D printers are diverse! *For detailed content of the column, you can view it through the related links. For more information, please feel free to contact us.

  • 3D Printer
  • 3D printer

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UP300 D 1 Nozzle Dual Filament Compatible FDM

UP300 D 1 Nozzle Dual Filament Compatible FDM

Even with one nozzle, it is possible to use different filaments with two heaters. Compatible filaments: ABS/ABS+/PLA/TPU.

Shape size: 255 width, 205 depth, 225 height mm Main body size: 500 width, 523 depth, 460 height mm Main body weight: 30kg

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  • 3D printer

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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.

  • others
  • 3D printer

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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.

  • others
  • 3D printer

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Ultimate machine for "makers": Da Vinci 1.0 Pro 3in1

Ultimate machine for "makers": Da Vinci 1.0 Pro 3in1

Professional 3D printer compatible with third-party filaments and G-code.

The Da Vinci 1.0 Pro 3-in-1 is a professional-grade 3D printer compatible with third-party filaments and G-code. It features a built-in 3D scanner and can perform laser engraving by attaching an optional laser module. It has all the functions in one unit, making it ideal for small offices. With the 3D scanner included in the Da Vinci 1.0 Pro 3-in-1, you can duplicate objects at home. It allows for easy 3D scanning and also includes editing features.

  • 3D Printer
  • 3D printer

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White Paper: 3D Printing with Both Composites and Metals

White Paper: 3D Printing with Both Composites and Metals

Achieve rapid improvements in the manufacturing process! Optimize parts according to the desired quality!

This document introduces 3D printing using both composite materials and metals to address the diverse challenges in manufacturing environments. High-strength composite material 3D printing and metal 3D printing are both methods for producing parts that demonstrate high value. While each can independently cater to a wide range of use cases in manufacturing, the mutual reinforcement of both printers enables the realization of intelligent solutions. In this document, we present several methods to achieve rapid improvements in manufacturing processes by leveraging the complementary technologies of both printers. We encourage you to read on. [Contents (excerpt)] ■ Metals and high-strength composites - Which to use ■ Complex metal parts - Demand for 3D printed fixtures ■ Printing metal parts to be inserted into composite material tools ■ Using suitable materials that meet the needs of jigs and tools *For more details, please refer to the PDF document or feel free to contact us.

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Digital Metal Case Studies 2020 (Available for free download)

Digital Metal Case Studies 2020 (Available for free download)

We have compiled examples of objects created using binder jetting metal 3D printers.

The features of Digital Metal can be summarized as follows: - Capable of precisely shaping small parts - High design freedom - Good surface quality - Suitable for mass production - Possible to change shapes and customize By leveraging the features of Digital Metal, it is possible to design shapes that are difficult to achieve with conventional methods. The case studies introduce and explain examples of Digital Metal's shaping capabilities. We hope you can refer to what designs are possible with binder jetting metal 3D printers. Höganäs Japan also provides design guidelines for Digital Metal. The guidelines offer reference information for designers, including recommended dimensions and shapes. This is also provided free of charge, so if you would like the guidelines, please contact the following address. Please note that we will refrain from sending them to companies that are competitors of ours. Thank you for your understanding. Höganäs Japan Co., Ltd. Contact: Masahiro Miyamoto masahiro.miyamoto@hoganas.com

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Design for Additive Manufacturing (DfAM) utilizing 3D printing.

Design for Additive Manufacturing (DfAM) utilizing 3D printing.

It is in the realm of technological limits that the true value of 3D printing scenarios is realized.

One of the four concepts to understand for the practical application of 3D printing is "DfAM." DfAM (Design for Additive Manufacturing) is a term for product design that maximizes the benefits of 3D printing, layered manufacturing, and additive manufacturing. In the context of Japan's high-quality industrial technology that has been cultivated over the years, the advantages gained from simple 3D printing alone are limited. By scrutinizing development and manufacturing goals, identifying the limitations of existing methods, and focusing on installing the necessary technological elements, effectiveness is achieved. 【Improvement Goals with DfAM】 ■ Reduction of defect rates (defect rate × number of parts) ■ Reduction of management burden (inventory management/order-based production) ■ Reduction of equipment costs (production without machines/molds) ■ Shortening of delivery times (compression of manufacturing processes) *For more details, please refer to the PDF document or feel free to contact us.

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The Future of Manufacturing through DfX×DfAM

The Future of Manufacturing through DfX×DfAM

Mass production using 3D printers. Production optimization proposed by our company.

We will introduce "The Future of Manufacturing" through DfX and DfAM. The mass production using 3D printers has generally been considered unsuitable for large-scale production due to the perception that "printing speed is slow" and "accuracy is low and unstable." However, in recent years, the trend towards high turnover in manufacturing and the expansion of software supporting 3D printing have significantly increased compatibility with mass production systems, leading to expectations for practical application and widespread adoption. 【Changes in Manufacturing Trends】 ■ Shortening of product life cycles ■ Diversification of demand due to the spread of e-commerce ■ Automation of production lines ■ Contribution to sustainability *For more details, please refer to the PDF document or feel free to contact us.

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What are the 6 points to check when introducing a metal 3D printer? *Booklet available.

What are the 6 points to check when introducing a metal 3D printer? *Booklet available.

Can't ask now, a must-see for those struggling with the introduction of metal 3D printers for the first time! The key points are the shape and size of the target parts [*Free booklet giveaway].

In this document, we will introduce six key points to consider when introducing a 3D printer, starting with "the shape and size of the target parts." 【Recommended for】 ◆ Those hesitant to consider the introduction of a metal 3D printer due to high costs ◆ Those who want to try it out but are unsure about its usability 【Content (partial)】 (1) The shape and size of the target parts (2) About materials (3) Utilizing contract manufacturing services (4) About peripheral equipment We also offer contract manufacturing services, supporting the realization of metal 3D printer utilization while addressing our customers' challenges and requests. *Currently offering a free gift of "Six Key Points to Consider When Introducing a Metal 3D Printer"! Click "PDF Download" to obtain it.

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PEEK-compatible industrial 3D printer 'G-ZERO MP1'

PEEK-compatible industrial 3D printer 'G-ZERO MP1'

Maximum speed 700mm/s, maximum acceleration 30,000mm/s², layer pitch 50-200μm!

The "G-ZERO MP1" is a desktop 3D printer specialized for PEEK molding. It features a compact design that does not require special ancillary equipment, making it easy to install in offices or factory lines. With a unique metal frame, stainless steel exterior, reliable drive components, and advanced control technology, it achieves ultra-fast, high-strength, and high-precision molding of PEEK, overcoming the weakness of interlayer bonding that has been a challenge in PEEK molding. 【Features】 ■ Pursues speed, strength, and aesthetics ■ Stable output of PEEK-based POTICON FILAMENT ■ Designed and manufactured domestically *For more details, please refer to the related links or feel free to contact us.

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