システムクリエイト List of Products and Services

Marsugo is a document that picks up the functions and features of various products and introduces the "amazing!" aspects. Despite its overwhelmingly low price, the diverse modules and rich features are impressive! This is a three-dimensional CAD/CAM system that is seeing an increase in inquiries, and one of its characteristics is that "even with detailed settings, program creation can be done efficiently with simple operations." This time, we will introduce the "Contour Roughing and Side Roughing Function" of 'BobCAD-CAM Mill Express.' One of the benefits of utilizing CAM is that it allows for the creation of appropriate tool paths without the need for complicated coordinate calculations or specialized knowledge of G-code. Most of the settings for the "Contour Roughing and Side Roughing Function" are selected by clicking, and the numerical controls correspond to formulas, enabling anyone to easily and efficiently create the desired program. The document explains how easily and clearly programs can be created based on the settings screen of the 'Contour Roughing and Side Roughing Function,' illustrated with diagrams. We encourage you to read it. *You can download the document from the button above.

• 3D CAM
• Other CAM related software
• Other CAD related software

Marsugo is a document that picks up the functions and features of various products and introduces the "amazing" aspects of them. The "desktop CNC milling machine" is popular because it allows for easy cutting processing in a wide range of scenarios, such as creating small parts and additional machining. However, the reality is that many models primarily focus on processing plastics and wood, as they must fit many functions into a small chassis and meet various conditions... Many of you might be thinking, "It would be great if I could also machine aluminum and brass." That’s where we introduce the "BANTAM TOOLS Desktop CNC Milling Machine." "BANTAM TOOLS" is a cutting machine that can perform genuine CNC processing while being compact in size. Thanks to the rich features and equipment packed into its small chassis, it is an amazing desktop milling machine capable of processing light metals like aluminum and brass. In the document, we focus on why "BANTAM TOOLS" can process light metals by highlighting the spindle it is equipped with, so please take a moment to read it. *You can download the document using the button below.

• Milling machine
• aluminum
• Other metal materials

"Mesh2Surface for Rhinoceros" is a reverse modeling add-in software specifically for Rhinoceros that can convert 3D scanned mesh data into CAD models. By simply adding it to your usual environment, you can quickly perform high-quality reverse modeling. [Features] ■ Complete reverse modeling within CAD It offers a wealth of features such as position adjustment referencing the shape of scanned data, 2D sketching from cross-sections, and surface creation tools. By using a deviation color map, you can complete reverse modeling while comparing the shape of the scanned data with the CAD data. ■ Cut time and design costs It incorporates high-speed and efficient algorithms. As a result, you can quickly load scanned data, reducing the time required for reverse work and cutting design costs. ■ CAD conversion of organic shapes Even organic shapes can be reversed with simple automatic surfaces. You can easily convert to CAD by just pressing a button. *You can download the materials from the button below.

• 3D CAD

Marsugo is a document that picks up the functions and features of various products and introduces the "amazing" aspects of them. The three-dimensional CAD/CAM system "BobCAD-CAM," which has comprehensive features at an overwhelming low price. This time, we will introduce the "thread cutting function" of 'BobCAD-CAM Mill Express.' If the screw diameter and pitch are standard "standard screws," they can be produced using a fixed cycle with a dedicated tap tool. However, a dedicated tap tool is required for each type of screw and material, and precise pilot holes and processing conditions are necessary. In contrast, the "thread cutting function" uses a thread mill to cut threads with a helical motion. This allows for the production of large diameter screws as well as special screws with unique pitches and crest heights, even those that do not have a tap tool available. The document illustrates the creation process and explains various benefits of the 'thread cutting function,' so please take a moment to read it. *You can download the document from the button above. *There is a function-based document on the second page.

• 3D CAM
• Other CAM related software
• 3D CAD

Marsgo is a document that picks up the functions and features of various products and introduces the "amazing!" aspects. In recent years, the number of materials that can be used for 3D printing has increased, and each material has various characteristics. With more usable materials, the range of things that can be created also expands! This time, we would like to introduce "conductive filament." Unlike insulating resins, this filament conducts electricity and has a moderate softness. It is blended with carbon nanotubes (CNT) using unique technology, allowing it to dissipate static electricity and maintain its conductivity even after printing. Additionally, because it is a soft material, it can be used safely in work environments where there are concerns about ESD-related issues, as it does not scratch parts upon contact. In addition to the conductive filament, we also introduce the "amazing!" features of the CreatBot F430, which has a high-temperature nozzle capable of reaching up to 420°C and other rich functionalities. This document is a must-see for those who want to expand their range of creations using special materials or are considering doing more 3D printing! *You can download the document using the button below.*

• 3D Printer

Marsugo is a document that picks up the functions and features of various products and introduces the "amazing" aspects. This time, we will introduce "Vaquform," a machine that allows you to easily perform professional-grade vacuum forming on your tabletop. Items made through vacuum forming, such as egg cartons, candy trays, and toothbrush packaging, are actively used in our daily lives. While these products may give the impression that they are made with large-scale equipment and technical expertise, the truth is that you can easily create them yourself! It would be great if you could make original items that enhance convenience a little, right? So, what we are introducing this time is the tabletop vacuum forming machine "Vaquform." It is an amazing machine that can perform professional-grade vacuum forming in a compact size. Even without specialized knowledge about forming, you can achieve optimal vacuum forming for materials with just simple settings, allowing you to create high-quality formed products. The document introduces how it works, so please take a look. *You can download the document using the button below.

• plastic
• Vacuum forming machine
• Vacuum Equipment

Marsugo is a document that picks up the functions and features of various products and introduces the "amazing" aspects of them. The three-dimensional CAD/CAM system "BobCAD-CAM" offers overwhelming functionality at an incredibly low price. This time, we will introduce the "Corner Deceleration Function" of 'BobCAD-CAM Mill Express'. While it is a very common approach to increase feed rates to shorten processing time in order to enhance productivity, entering corners at the same feed rate as straight lines places a significant load on the machine and tools, and there is even a risk of tool damage. The "Corner Deceleration Function" reduces the feed rate only in areas where the tool experiences load, such as corners, thereby alleviating the burden on the tool while shortening the overall processing time. It may not be a flashy feature, but once you use it, you won't want to let it go, so please take a moment to read about it. *You can download the document from the button above.

• 3D CAM
• Other CAM related software
• 3D CAD

Marsugo is a document that picks up the functions and features of various products and introduces the "amazing" aspects of them. This time, we will introduce the FDM 3D printer "CreatBot F430," which makes it possible to shape difficult soft materials, along with the optional "dedicated stand for soft filament." Filaments that can be used with FDM 3D printers are being developed daily with various functionalities. One of them is "soft materials," characterized by their unique "softness" not found in other materials. What we are introducing this time is the FDM 3D printer "CreatBot F430" and the "dedicated stand for soft materials (optional)." Soft materials are considered difficult to shape due to their "flexibility" and "friction." Among them, materials with "elasticity" may not be able to be shaped at all, even with adjustments to the shaping conditions... However, when the F430 is combined with the dedicated stand for soft materials, it becomes possible to shape high-difficulty, elastic soft materials! This is a document that we highly recommend for those who want to try shaping with soft materials!★ *You can download the document using the button below.

• 3D Printer
• plastic
• Other machine elements

Marsgo is a document that picks up the functions and features of various products and introduces the "amazing" aspects of them. This time, we will introduce the "Adaptive Layer Height" of the Form 3+, which changes the layer thickness of 3D printing and optimizes it according to the model shape. The biggest feature of the light-curing method "Form 3+" is that the layering marks that shape the three-dimensional object are hardly noticeable! The model is so intricate that it does not give a sense of layer overlap, earning a solid reputation. However, with the "Form 3+", depending on the shape of the model, layering may be noticeable, especially for models with gentle slopes, which can be affected by the layer thickness. Therefore, what we are introducing this time is the "Adaptive Layer Height" of the Form 3+, which changes the layer thickness according to the model shape. It is an amazing feature that places fine layers only where necessary. You do not need to set the layer thickness distribution yourself; it automatically optimizes according to the model shape. With just a simple setting, you won't have to spend a long printing time, and it is a feature that allows you to pursue the smoothness of the model, so please take a look. *You can download the document from the button below.

• 3D Printer
• Other CAD
• plastic

The "BANTAMTOOLS Desktop CNC Milling Machine" is a cutting machine that allows you to start serious CNC machining from a desktop size. It is capable of processing various materials, including lightweight metals. Since you can create models using the same materials as the final products, you can verify designs and structures through prototypes that closely resemble the actual products, as well as create jigs. [Features] ■ Full cover design reduces the risk of injury to operators The fully enclosed structure of the processing area prevents chips, which could cause injury to operators, from scattering outside the machine. ■ Automatic measurement function shortens preparation time for processing The origin setting for processing and the centering of the workpiece can be measured automatically. This prevents failures due to human error and reduces the time before processing begins. ■ Automatic tool length compensation ensures peace of mind for beginners The conductive probe system automatically measures and compensates for tool length, allowing even beginners to confidently engage in cutting operations. ■ Abundant options useful for processing There are accessories available, such as a 4-axis unit that adds a rotating axis and dust collection for chips during cutting, which can further enhance the efficiency of cutting operations.

• Other machine tools
• Milling machine
• Other processing machines

Marsugo is a document that picks up the functions and features of various products and introduces the "amazing" aspects. The three-dimensional CAD/CAM system "BobCAD-CAM" offers comprehensive features at an overwhelmingly low price. This time, we will introduce the various functions that can be achieved with BobCAD-CAM, along with each module and its capabilities. In short, it is a low-cost three-dimensional CAD/CAM system, but many users are surprised and ask, "Is that price really correct?!" because it has many impressive features that exceed its price. Just because it is low-priced does not mean it has fewer functions. It supports a wide range of machining processes, from 2-axis to simultaneous 5-axis machining, turning, combined lathes, and wire processing. We believe you will feel the potential of BobCAD-CAM, which can perform ordinary machining as a matter of course and even beyond that, so please take a moment to read through it. *You can download the document from the button above.

• 3D CAM
• Other CAM related software
• 3D CAD

Marsugo is a document that picks up the functions and features of various products and introduces the "amazing" aspects. This time, we will introduce the "Stock Setting Function" of the machine simulator "RenAn," which can realistically reproduce machining operations and allows for safe and secure learning. The "Stock Setting Function" is a feature that allows STL data to be used as stock material. Since it can read arbitrary shapes, it can reproduce various machining patterns, not only from block material but also secondary processing after lathe machining, and additional work on cast and forged products. When the shape to be processed changes, the setup before processing also changes. This feature realistically reproduces differences in the setting points for machining origins and clamping methods using vices, so please take a look. *You can download the document from the button below.

• Technical and Reference Books
• simulator
• Machining Center

Onshape is a full cloud 3D CAD that allows for the creation, editing, saving, and reviewing of design data without being limited by the device used. As long as there is an internet connection, it can be operated not only from a PC but also from smartphones and tablets, enabling design work anytime and anywhere, regardless of device performance or location. [Features] ■ Complete design process solely in the cloud Onshape allows for the creation, saving, and reviewing of CAD data entirely in the cloud. Since even resource-intensive calculations are processed in the cloud, it can be operated anytime and anywhere, regardless of the device, such as smartphones or tablets. ■ Reliable security to protect your data High security measures are implemented to prevent unauthorized access, including encryption of server access, adoption of two-factor authentication, and recording of access history through audit logs. You can use the cloud system with peace of mind. ■ Practical CAD usable in various scenarios It is a history-based parametric modeler that makes design changes easy. It includes features necessary for product design work, such as part creation and assembly design, as well as 2D drawing capabilities and sheet metal design.

• 3D CAD
• Modeler
• PDM

Marsugo is a document that picks up the functions and features of various products and introduces the "amazing" aspects of them. This time, we will introduce "Onshape," a fully cloud-based 3D CAD that can be operated from anywhere without being limited to specific devices. In mechanical design using 3D CAD, it is often necessary to have high-spec devices, which can limit the environments in which it can be used. Have you ever thought, "If I could just make a quick edit to the data while on the move or out and about..." or "If I could continue my design work at home..."? It would be convenient to be able to access 3D data whenever you think of it, right? That's why we are introducing "Onshape," which, while equipped with practical features and security, allows you to operate from anywhere without being limited to specific devices. Thanks to the fully cloud-based system that handles all demanding computational processes in the cloud, it is an amazing 3D CAD that can be easily operated on convenient devices like smartphones and tablets. This document is something we would like those who are working on reforming design operations amid the COVID-19 pandemic to take a look at. *You can download the document using the button below.

• 3D CAD
• Modeler
• PDM

Marsgo is a document that picks up the functions and features of various products and introduces the "amazing" aspects of them. This time, we will introduce "Magigoo," a special adhesive for 3D printers that suppresses warping of models in FDM 3D printing. One of the major concerns for many users of FDM 3D printers is model warping. However, "Magigoo" can effectively address this issue. This Magigoo has the excellent feature of containing components that change adhesive strength with temperature. At room temperature, the adhesive strength is weak, but when the table heats up, the state changes rapidly, and the adhesive strength appears, strongly bonding the model. Therefore, by combining it with the heated bed function, it becomes possible to suppress model warping during printing more effectively! Additionally, there is a rich lineup of products with components adjusted to match different materials, making it effective even for materials that are not commonly used. *You can download the document from the button below.*

• glue
• 3D Printer
• 3D CAD

Marsugo is a document that picks up the functions and features of various products and introduces the "amazing" aspects of them. The three-dimensional CAD/CAM system "BobCAD-CAM" offers comprehensive features at an overwhelmingly low price. This time, we will introduce one of its features, the "Open Edge Detection Function." The "Open Edge Detection Function" allows users to create features simply by selecting a surface, automatically recognizing open areas, and quickly generating tool paths for open pocket machining. While it may not be a flashy feature, it can shorten the tool path creation process and help prevent mistakes, making it a valuable tool for those looking to improve daily work efficiency. *You can download the document using the button below. *The explanation of the "Open Edge Detection Function" is on the second page.

• 3D CAM
• Other CAM related software
• 3D CAD

Marsgo is a document that picks up the functions and features of various products and introduces the "amazing" aspects of them. This time, we will introduce "soft filament" for thermoplastic 3D printers, which can be bent and stretched like rubber and has elasticity. The most common materials used in thermoplastic 3D printers are probably "hard resins" like PLA and ABS. However, various types of filaments are emerging daily, allowing you to choose the most suitable one for your application. Our company also handles filaments with diverse characteristics, and this time we will introduce "soft filament" from that selection! The soft filament we are introducing this time has properties equivalent to styrene rubber, with a rebound elasticity of 56%, an elongation rate of 680%, and a Shore hardness of A60. With a "rubber-like" quality that has never been seen before, it can expand the possibilities for printed model applications. This is a document that we highly recommend for FDM users who want to try creating soft models…! *You can download the document from the button below.

• 3D Printer
• plastic
• Prototype Services

Marsugo is a document that picks up the functions and features of various products and introduces the "amazing" aspects of them. This time, we will introduce the powder bed fusion 3D printer "Fuse 1 & Fuse Sift," which enables eco-friendly operations with almost zero waste materials. Nowadays, companies around the world are engaging in activities aimed at achieving the SDGs. In this context, manufacturing with 3D printers has been recognized early on as a concept aligned with the SDGs, as it allows for the production of only the necessary items in the required quantities. However, it is true that conventional 3D printing requires "support materials," and the materials used for supports must be discarded, raising environmental concerns. That’s why we are introducing the "Powder Bed Fusion 3D Printing System Fuse 1 & Fuse Sift." This amazing 3D printing system allows for operations that are friendly to both the environment and users, with "almost zero material waste." Furthermore, the products created have the characteristics of "high functionality and high quality," which can further expand the range of applications for 3D printed products. *You can download the document from the button above.

• 3D Printer
• Composite Materials
• plastic

"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. 46 is "Using the Form 3 model as a vacuum forming mold!" The resin printer "Form 3" is often used primarily for purposes such as shape verification and assembly, essentially for "seeing shapes." However, depending on the combination with other tools, it can actually be used in completely different ways! One such method is using the printed model as a "mold." Among these, vacuum forming pairs well with printed models and allows for great flexibility in shape. Therefore, this time, to verify this new usage, we actually vacuum formed the printed model and tested how much power it can exert as a mold. We will explain, along with actual print data and images of the printed model and the formed products, questions like, "How do you create a forming mold?" and "Can it be formed neatly?" *You can download the materials from the button below.

• 3D Printer
• Vacuum forming machine
• plastic

Marsgo is a document that picks up the functions and features of various products and introduces the "amazing" aspects of them. This time, we will introduce the "mask function" of the carbon 3D printer "Anisoprint Composer," which allows you to place carbon material only in areas where strength is required. To make the most of carbon 3D printed models, it is important to determine whether you can appropriately utilize the strength of the carbon material. One key point is to focus on the "placement of carbon material" within the model. If you place carbon material equally in areas under load and those that are not, you will not be able to effectively gain the benefits. This is where the "mask function" we are introducing comes in handy. By using the mask function, you can freely place carbon material on the model, allowing you to focus on reinforcing the areas that require strength. If you have 3D data, you can easily create a mask, enabling you to achieve a "convenient and waste-free" increase in strength. It's a very useful function, so if you're concerned about the strength of your printed model, please take a look! ★ *You can download the document from the button below.

• 3D Printer
• Composite Materials
• plastic

"Mitarepo" is a series that introduces what can be done using various products with the concept of "I tried doing this!" We deliver useful information each time from the wide range of product genres handled by System Create. The theme of Vol. 46 is "We tested the effectiveness of 3D printer-specific glue!" We examined how effective the 3D printer-specific glue, which has the characteristic of changing adhesive strength with heat, actually is. Concerns such as "the model doesn't come off the table" and "I damaged the model or table when trying to remove it..." can be effectively resolved with 3D printer-specific glue. However, aren't you curious about how effective 3D printer-specific glue is against warping? This time, we will explain the results of simple tests and comments from technical staff regarding the following three points: 【1】Does the adhesive strength change with heat? 【2】Is it effective for warping-prone ABS? 【3】Can it be easily removed from large models? You can download the materials from the button below.

• glue
• Other consumables
• 3D Printer

"Mitarepo" is a series that introduces what can be done using various products with the concept of "I tried doing this!" We will deliver useful information each time from the wide range of product genres handled by System Create. The theme of Vol. 45 is "Testing the capabilities of the deburring tool path in BobCAD-CAM!" Recently, we will actually verify the capabilities of the newly added deburring tool path in "BobCAD-CAM 3AXIS Premium," which was introduced at Marsgo. This time, we collaborated with G-BEC Technology Co., Ltd. and used their dedicated deburring end mill to perform the deburring! We used aluminum for the workpiece. Assuming the processing of flat holes and tolerance holes, we will check the state of each burr and the processing time. "Can low-cost CAD/CAM really handle deburring?" "Will secondary burrs still appear in the end?" We will explain the capabilities of the BobCAD-CAM deburring tool, along with verification photos and comments from the technical staff. *You can download the materials from the button above.

• 3D CAD
• Other CAD related software
• Milling machine

"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

"Mitarepo" is a series that introduces what can be done using various products with the concept of "I tried doing this!" We deliver useful information each time from the wide range of product genres handled by System Create. The theme of Vol. 43 is "We tested the latest software update on the Form 3!" In January of this year (2022), a major update for the "Form 3" was announced, featuring improvements such as "increased printing speed" and "reduced post-processing time." This time, we examined how much improvement there actually is due to the changes mentioned above. We will print and compare the print data of the "latest version" and the "old version" created from the same model. We will investigate how the "printing speed," "support shape," and "surface after support removal" have changed due to improvements in the laser system and changes in support shapes. We will provide explanations along with actual print data, details of printing times, and images of the surface after support removal. *You can download the materials from the button below.

• 3D Printer
• plastic
• Prototype Services

"Mitarepo" is a series that introduces what can be done using various products with the concept of "I tried doing this!" We deliver useful information each time from the wide range of product genres handled by System Create. The theme of Vol. 42 is "Re-challenging Powder 3D Printing × Assembly Integrated Modeling!" This time, we re-challenged the movable assembly integrated modeling using the STL data adjusted in Vol. 41, with the support-free SLS printer "Fuse 1." We will check how the three adjustments made for powder 3D printing last time are reflected this time: - Setting clearance between the blocks that were previously stuck together - Modifying the shape to prevent powder from remaining in the movable parts - Adding text to the surface of each block We will explain whether the assembly model moved and provide photos of the verification along with comments from the technical staff regarding the unique finishing details of the "Fuse 1." *You can download the materials from the button below.

• 3D Printer
• plastic
• Prototype Services

"Mitarepo" is a series that introduces what can be done using various products with the concept of "I tried doing this!" We deliver useful information each time from the wide range of product genres handled by System Create. The theme of Vol. 41 is "I tried adjusting the 3D data of the assembly for powder 3D printing!" In the previous issue, we challenged ourselves to create a solid structure using the STL data of a Rubik's Cube with the powder 3D printer Fuse 1, but unfortunately, it did not rotate... The cause was that it had already been integrated at the stage of the CT scan data. From this result, we learned that "to make 'usable 3D data,' adjustments according to subsequent applications are necessary." Therefore, this time we adjusted the STL data to be suitable for SLS (Selective Laser Sintering) method. "What does it mean to 'make usable 3D data'?" "What should we be careful about in powder 3D printing?" We will explain the considerations during data adjustment, along with verification photos and comments from our technical staff. *You can download the materials from the button below.

• Other CAD related software
• 3D Printer
• Other CAD

"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 genres handled by System Create, we deliver useful information each time. The theme of Vol. 40 is "We tried creating an assembly in one piece with a powder 3D printer!" So far, through Mitarepo Vol. 39 and Marusugo, we have shared the process of CT scanning a Rubik's Cube and converting it to STL. This time, using that STL data, we challenged ourselves to create a movable assembly model in one piece with the powder sintering layer method (SLS) 3D printer "Fuse 1"! We tested whether we could maintain the functionality of the assembly through one-piece printing, taking advantage of the SLS method's feature of not requiring supports. How powerful is a powder 3D printer? Does it really work when printed in one piece? We will explain the results of the prints, along with verification photos and comments from our technical staff. *You can download the materials from the button below.

• 3D Printer
• Resin processing machine
• plastic

Marsugo is a document that picks up the functions and features of various products and introduces the "amazing" aspects of them. This time, we will explain "TomoShop Viewer," which allows you to easily convert CT scan data into 3D data! At first glance, CT scan data looks like 3D data, but in reality, it is a 2D image data made up of hundreds or thousands of overlapping cross-sectional images that appear three-dimensional. Therefore, it cannot be used directly for 3D printing or as CAD data. "TomoShop Viewer" is an amazing software that can easily convert such 2D image data of CT scans into a single 3D data. Moreover, it can be introduced at a "low cost," allowing you to easily expand the use of CT scan data! In Volume 39 of our helpful content "Mitarepo," we provide a detailed explanation of TomoShop Viewer using the "CT scan data of a Rubik's Cube" as an example, so we would be grateful if you could take a look. *You can download the document from the button below.

• Data conversion software
• Other CAD related software
• 3D Printer

"Vaquform" is a compact vacuum forming machine that combines ease of use with quality. Even beginners can easily perform professional-grade vacuum forming. [Features] ■ Easy 3-Step Forming With a simple structure and operation, forming is completed in three steps: (1) selecting the material, (2) warming the sheet, and (3) lowering the lever to form and cool. ■ Reliable Quality It is equipped with features such as temperature management via infrared sensors and two-stage vacuum suction to respond to changes in ambient temperature and the characteristics of various materials. This ensures consistent results in forming, producing highly reproducible products. ■ On-the-Spot Forming for Quick Prototyping It allows for the creation of highly original products such as packaging containers, outer covers, and chocolate molds. By using molds like 3D printed models, you can quickly advance processes such as material selection, shape verification, and product packaging considerations. ■ Programmed Material Information Over ten types of material parameters are pre-registered, allowing for reliable forming at optimal temperatures and heating amounts. *For more details, please request a catalog or view the PDF data from the download button below.

• Vacuum forming machine
• Vacuum Equipment
• plastic

"Mitarepo" is a series that introduces what can be done using various products with the concept of "I tried doing this!" We deliver useful information each time from the wide range of product genres handled by System Create. The theme of Vol. 39 is "We investigated how much of an assembly item can be captured with a CT scan!" CT scans are used in industrial fields, but it can be hard to imagine their actual applications. This time, we tried everything from CT scanning to data analysis! Using a Rubik's Cube as an example of an assembly item, we verified the following: 1) Structural confirmation: Checking how the internal structure can be captured 2) Defect analysis: Confirming the presence of voids inside plastic molded products 3) Verification with the actual item: Disassembling the workpiece to check the contents "What does a structure that can't be seen from the outside look like?" "What can be done with a product's CT scan?" We will explain the visibility and applications of CT scan data, along with verification photos and comments from technical staff. *You can download the materials from the button below.

• X-ray inspection equipment
• Defect Inspection Equipment
• Contract Analysis

"Mitarepo" is a series that introduces what can be done using various products with the concept of "I tried doing this!" We deliver helpful information each time from the wide range of product categories handled by System Create. The theme of Vol. 38 is "How finely can powder sintering 3D printers express shapes?" In the materials, we create a detailed model of a Tyrannosaurus skull using the powder material "Nylon 12" from the powder sintering 3D printer "Fuse 1," based on CT scan data. We are testing how finely detailed shapes can be reproduced, including the fine surface textures, small protrusions like teeth, and the complex arrangement of small bones inside the skull. Additionally, we are challenging the expression of raised and recessed lettering as one aspect of detail representation. "Isn't it impossible to achieve fine expressions because the powder is sintered and solidified?" "Even if fine shapes can be reproduced, won't they break?" We will explain these points of concern and verification regarding the use of 3D printers, along with comments from our technical staff. *You can download the materials from the button below.

• 3D Printer
• Resin processing machine
• plastic

Marsugo is a document that picks up the functions and features of various products and introduces the "amazing" aspects of them. This time, we will introduce the newly added deburring tool in the CAD/CAM "BobCAD-CAM," which caters to a wide range of needs, specifically in the 3AXIS Premium. The amazing aspect of this 3AXIS Premium is that it can complete deburring, even on the backside, through machining! It can generate tool paths for deburring curved surfaces, which was difficult to address with 2D chamfering paths. With this feature, you can automate the tedious deburring tasks...! For more details, please refer to the document, and we would appreciate it if you could read it. *You can download the document using the button below.

• 3D CAM
• Other CAM related software
• 3D CAD

Marsugo is a document that picks up the functions and features of various products and introduces the "amazing" aspects of them. This time, we will introduce the optional software "FB Drill" from the CAM "BobCAM for SOLIDWORKS," which can be implemented starting from 100,000 yen. The amazing feature of our recommended function "FB Drill" is that it can "automatically distribute holes on the data and create machining paths in an instant!" It supports a wide variety of holes (types, diameters, depths, etc.), allowing for rapid program creation. Moreover, it is not only speedy but also enables "anyone to accurately" output NC data...! For more details, we have explained it in the document, so we would appreciate it if you could take a look. *You can download the document using the button below.

• 3D CAM
• Other CAM related software
• 3D CAD

"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 genres handled by System Create, we deliver useful information each time. The theme of Vol. 37 is "How much can we reduce weight just by changing materials?" Various types of materials for FDM 3D printers have started to be sold and utilized. Our company also handles a number of materials, but at one point, while going through the TDS, I noticed the "specific gravity" section and suddenly thought, "Wouldn't the weight change if we change the material for the same model?" In this document, we created the same flat model using PLA, which is commonly used in FDM 3D printing, and carbon fiber reinforced nylon material PA12-CF, which has a lower specific gravity than PLA according to the TDS. *You can download the document from the button below.

• 3D Printer
• plastic
• Other polymer materials

"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.36 is "We tried enhancing the functionality of the model using a combination of Form 3 and 3L!" In the previously introduced Vol.33, we created a model of a magic hand using Form 3L. However, when we actually assembled the model, we discovered issues such as "the main body is heavy" and "the parts lack strength." Therefore, this time we challenged ourselves to improve functionality through weight reduction and strength enhancement. For the magic hand data, we made two changes: - Main body: Weight reduction through hollowing - Parts: Increased toughness using Tough 2000 resin We printed each using Form 3L and Form 3. "Is it possible to create hollow models with the light curing method?" "What does it look like to combine two models?" We will explain the actual verification process along with comments from our technical staff. *You can download the materials from the button below.

• 3D Printer
• 3D CAD
• plastic

"Mitarepo" is a series based on the concept of "I tried doing this!" where we introduce what can be done using various products. From the wide range of product categories handled by System Create, we deliver useful information each time. The theme of Vol. 35 is "How accurately can a powder sintering 3D printer reproduce dimensions?" We measured various shapes of models created with a powder sintering 3D printer to verify the level of dimensional reproducibility it can achieve. In the materials, we created a plate with convex circles and holes using the powder material "Nylon 12" from the powder sintering 3D printer "Fuse 1," and a box shape surrounded by 1mm thick walls with bosses. Each shape and element was measured with a digital caliper. "Isn't powder sintering too powdery to achieve accurate dimensions?" "Isn't a design change necessary for printing?" We will explain these points of concern and the verification process with comments from our technical staff as we utilize 3D printers. *You can download the materials from the button above.

• 3D Printer
• Resin processing machine
• plastic

This document is a series that proposes solutions to various challenges faced in production sites, from identifying issues to finding solutions. In the "3D Data Utilization Edition," we will introduce various solutions to manufacturing challenges through the use of 3D data. [Document Overview] As the performance of FDM 3D printers improves, not only the main material PLA but also functional materials such as heat-resistant and high-strength resins have increased. One of these is "soft materials." However, soft materials tend to clog near the print nozzle, and many models cannot print them, making FDM 3D printers generally considered "not good with soft materials." In this document, we will explain the factors that make FDM printers struggle with soft materials, along with the structure of 3D printers, and introduce 3D printers that can resolve these issues. *You can download the document using the button below.

• 3D Printer
• Rubber
• Other polymer materials

"Mitarepo" is a series that introduces what can be done using various products with the concept of "I tried doing this!" We deliver useful information each time from the wide range of product categories handled by System Create. The theme of Vol.34 is "Explaining the difference in work time due to different sprays!" We conducted a car scan using the large work spray "AESUB orange," which naturally disappears in 12 to 24 hours, and a powder spray! As a result, the orange spray took "about 85 minutes," while the powder spray took "about 152 minutes." What could be the reason for such a difference? In this document, we will explain the excellent points of AESUB that we discovered through our experience, along with the differences in work processes compared to the powder spray, accompanied by actual photos and comments from the technical staff. *You can download the document from the button below.

• paint
• Coating Agent
• Other consumables

"Mitarepo" is a series that introduces what can be done using various products with the concept of "I tried doing this!" We deliver useful information each time from the wide range of product categories handled by System Create. The theme of Vol. 33 is "We tried making 36 parts utilizing the area height of the Form 3L!" The light-curing 3D printer "Form 3L" supports large-scale printing and has the largest build area among Formlabs 3D printers. This time, we focused on effectively utilizing its wide build area, particularly the "area height," by stacking multiple parts in the Z direction and challenging ourselves to print them all at once. Typically, when printing multiple items, they are arranged horizontally on the table, but with a little ingenuity, we stacked and arranged them in the height direction as well. We attempted to print a total of 36 parts of various sizes together! "How do you arrange the models in the Z direction?" "Can the models be printed properly even if they overlap vertically?" We will explain the actual flow of creating print data along with images of the completed models. *You can download the materials from the button below.

• 3D Printer
• 3D CAD
• Other CAD related software

"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 genres handled by System Create, we deliver useful information each time. The theme of Vol.32 is "I tried making a perfect costume mask with 3D scanning!" This time, we are taking on the challenge of mask creation as part of a Halloween project. In this, we will introduce how to utilize a 3D scanner to create design data for dedicated parts that fit existing shapes. This method is used in various industries, such as automotive and machinery parts, allowing for the design of products that fit perfectly with existing products, enabling more accurate and efficient design and product development. In the materials, we provide an example of simple modeling that adds thickness according to facial scan data, showcasing the entire process. "What kind of uses are there for 3D scan data?" "How well did the mask fit?" We will explain the intriguing use cases and the finish of the completed mask, along with photos and comments from the technical staff. *You can download the materials using the button below.

• 3D measuring device
• 3D Printer
• 3D CAD

"Mitarepo" is a series that introduces what can be done using various products under the concept of "I tried doing this!" We deliver useful information each time from the wide range of product categories handled by System Create. The theme of Vol. 31 is "Inserting Helicoils into Nylon for Powder Sintering 3D Printer Materials! How much torque can it withstand?" We conducted tests on a model created with a powder sintering 3D printer to see how much torque it can withstand when tightened after tapping. In the materials, we created a cube with pilot holes using the powder material "Nylon 12" from the powder sintering 3D printer "Fuse 1." We prepared three types of screw holes, including those for inserting Helicoils, and tested how much torque it can withstand while tightening. "Isn't it likely that the printed product won't withstand the torque needed for assembly?" "I'd like to see if it can be assembled by tightening with screws!" We will explain the "actual strength" that is a concern in producing models that require strength, along with photos of the testing process and results, as well as comments from the technical staff. *You can download the materials from the button below.

• 3D Printer
• Resin processing machine
• plastic

"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 genres handled by System Create, we deliver useful information each time. The theme of Vol.30 is "We tried tensile testing with a carbon fiber 3D printed model! Part 2." In the tensile test introduced in Vol.28, we evaluated a solid model with 100% infill, but this time we examined how it performs with a lattice infill structure, which is one of the advantages of 3D printing. One of the features of the carbon 3D printer "Composer" is that carbon fibers can be applied to lattice infill. This time, we compiled the results of tensile tests using test specimens printed with that lattice infill. "How strong can a lattice arrangement be?" "Are there any characteristics to the shape of the infill?" We will explain the actual strength and important points of interest, along with verification photos and comments from our technical staff. *You can download the materials from the button below.

• 3D Printer
• plastic
• Composite Materials

"Mitarepo" is a series that introduces what can be done using various products with the concept of "I tried doing this!" We deliver useful information each time from the wide range of product genres handled by System Create. The theme of Vol. 29 is "3D Scan → 2D Sheet Development and Sewing Together!" In various industries such as aviation, shipping, and automotive, there are many products like seat covers and steering wheel covers that require patterns in the production process. However, translating curved surfaces into flat patterns is a challenging task that takes a lot of time and cost. This is where "pattern development software" comes into play, which can automatically calculate and unfold into a flat surface as long as there is 3D data. In this issue, we created and developed three-dimensional data that cannot be simply unfolded, following the contours of the human body through 3D scanning, and actually sewed it together! Can it be unfolded even with freeform surface shapes? Can the pattern data reproduce the original three-dimensional shape? We will explain the process of creating the unfolding data, along with images of the actual sewn backrest cover. *You can download the materials from the button below.

• Other CAD related software
• Interior parts
• Data conversion software

"Mitarepo" is a series based on the concept of "I tried doing this!" where we introduce what can be done using various products. From the wide range of product categories handled by System Create, we deliver useful information each time. The theme of Vol. 28 is "We tried tensile testing with carbon 3D printed models!" This time, we conducted tensile tests using models created with the carbon 3D printer "Anisoprint Composer" to investigate the actual strength of models containing carbon material. We created two types of test specimens: 1) Carbon fibers arranged perpendicular to the tensile direction 2) Carbon fibers arranged parallel to the tensile direction We are examining how much strength these two models possess and the difference that fiber orientation makes. "Are carbon printed models really strong?" "What should I be careful about when using carbon fiber?" We will explain the actual strength and important points of interest, along with verification photos and comments from our technical staff. *You can download the materials from the button below.

• 3D Printer
• plastic
• Composite Materials

"Mitarepo" is a series that introduces what can be done using various products with the concept of "I tried doing this!" We will deliver useful information each time from the wide range of product genres handled by System Create. The theme of Vol. 27 is "How much weight can nylon (PA) resin, used for powder sintering 3D printer materials, withstand?" This time, we experimented by creating an original design hook using the powder material "Nylon (PA)" from the powder sintering 3D printer "Fuse 1," lifting heavy objects to see how many kilograms it can withstand without breaking. However, when checking the tensile strength on the material properties table, the values seem to be not much different from those of general PLA. "Even if Nylon 12 (PA) is strong, isn't 90 kg impossible?" "I don't think it seems that strong based on the material properties table values?" We will explain the "actual strength" that is concerning for model production requiring strength, along with photos of the verification process and results, as well as comments from the technical staff. Please take a look at the surprising results! *You can download the materials from the button below.

• 3D Printer
• Resin processing machine
• plastic