後藤精機 List of Products and Services

Since its founding in 1970, Goto Seiki has cultivated cutting processing technology, particularly in the field of optical and measuring instruments, where high precision and shape requirements are essential. This has become the foundational technology for Goto Seiki in precision parts manufacturing. In the realm of development and prototyping that supports the forefront of manufacturing, this advanced cutting technology is indispensable. Additionally, we continue to evolve as a versatile group aiming for optimization in precision parts processing using non-ferrous metals and resins, as well as in microfabrication and mold technology. In the technical information magazine "Microfabrication Technology News Vol.14," we will introduce this month's column, which covers 3D data corrections performed before cutting processing programming, the role and characteristics of gates in prototype molds, and more. [Contents] - This month's column by Goto Seiki employees - Points to consider for inspection of cutting processed parts with tolerance bosses (shafts) - About 3D data corrections performed before cutting processing programming - About the role and characteristics of gates in prototype molds For more details, please contact us or download the catalog.

• Processing Contract
• Technical and Reference Books

Since its establishment in 1970, Goto Seiki has cultivated cutting processing technology, particularly in the field of optical and measuring instruments, where high precision and shape requirements are demanded. This has become the foundational technology for Goto Seiki in precision parts manufacturing. In the realm of development and prototyping that supports the forefront of manufacturing, this advanced cutting technology is indispensable. Additionally, we continue to evolve as a versatile group aiming for optimization in precision parts processing using non-ferrous metals and resins, as well as in microfabrication and mold technology. In the technical information magazine "Microfabrication Technology News Vol. 13," we will introduce this month's column, points to note during the injection molding of POM, and quality standardization. [Contents] - This month's column by Goto Seiki employees - Points to note during the injection molding of POM - Methods for securing workpieces for cutting processing (regarding the use of vices) - Quality standardization through the use of gauges (inspection using ring gauges) For more details, please contact us or download the catalog.

• Processing Contract
• Technical and Reference Books

Since its founding in 1970, Goto Seiki has cultivated cutting processing technology, particularly in the field of optical and measuring instruments, where high precision and shape requirements are essential. This has become the foundational technology for Goto Seiki in precision parts manufacturing. In the realm of development and prototyping that supports the forefront of manufacturing, this advanced cutting technology is indispensable. Additionally, we continue to evolve as a versatile group aiming for optimization in precision parts processing using non-ferrous metals and resins, as well as in microfabrication and mold technology. In the technical information magazine "Microfabrication Technology News Vol. 12," we will introduce this month's column, finishing of micro-formed products, and methods for processing curved shapes. [Contents] - This month's column by Goto Seiki employees - Finishing of micro-formed products - Methods for processing curved shapes For more details, please contact us or download the catalog.

• Processing Contract
• Technical and Reference Books

Since its founding in 1970, Goto Seiki has cultivated cutting processing technology, particularly in the field of optical and measuring instruments, where high precision and shape requirements are essential. This has become the foundational technology for Goto Seiki in precision parts manufacturing. In the realm of development and prototyping that supports the forefront of manufacturing, this advanced cutting technology is indispensable. Additionally, we continue to evolve as a versatile group aiming for optimization in precision parts processing using non-ferrous metals and resins, as well as in microfabrication and mold technology. In the technical information magazine "Microfabrication Technology News Vol. 11," we will introduce this month's column, measurement points using a micrometer, and withdrawal slopes in mold design. [Contents] - This month's column by Goto Seiki employees → Finishing product surfaces by varying cutting paths - Points for measurement using a micrometer - What is withdrawal slope (withdrawal taper) in mold design? For more details, please contact us or download the catalog.

• Processing Contract
• Technical and Reference Books

Since its founding in 1970, Goto Seiki has cultivated cutting processing technology, particularly in the field of optical and measuring instruments, where high precision and shape requirements are demanded. This has become the foundational technology for Goto Seiki in precision parts manufacturing. In the realm of development and prototyping that supports the forefront of manufacturing, this advanced cutting technology is indispensable. Additionally, we continue to evolve as a versatile group aiming for optimization in precision parts processing using non-ferrous metals and resins, as well as in micro-machining and mold technology. In the technical information magazine "Micro Machining Technology News Vol.10," this month's column discusses the causes and countermeasures for sink marks in molded products, as well as micro-grooving and micro-hole processing. [Contents] - This month's column by Goto Seiki employees: What is simultaneous five-axis machining? Specific examples at Goto Seiki. - Causes and countermeasures for sink marks in molded products. - Micro-grooving and micro-hole processing. For more details, please contact us or download the catalog.

• Processing Contract
• Technical and Reference Books

Since its founding in 1970, Goto Seiki has cultivated cutting processing technology, particularly in the field of optical and measurement equipment, where high precision and shape requirements are essential. This has become the foundational technology for Goto Seiki in precision parts manufacturing. In the realm of development and prototyping that supports the forefront of manufacturing, this advanced cutting technology is indispensable. Additionally, we continue to evolve as a versatile group aiming for optimization in precision parts processing using non-ferrous metals and resins, as well as in microfabrication and mold technology. In the technical information magazine "Microfabrication Technology News Vol. 9," we will introduce this month's column, our response to simultaneous 5-axis processing, and methods for addressing machining corner radii. [Contents] - This month's column by Goto Seiki employees: Points to consider in the inspection of molded products - Response to high-quality simultaneous 5-axis processing - Methods for addressing machining corner radii that enable cost reduction For more details, please contact us or download the catalog.

• Processing Contract
• Technical and Reference Books

Since its founding in 1970, Goto Seiki has cultivated cutting processing technology, particularly in the field of optical and measuring instruments, where high precision and shape requirements are essential. This has become the foundational technology for Goto Seiki in precision parts manufacturing. In the realm of development and prototyping that supports the forefront of manufacturing, this advanced cutting technology is indispensable. Additionally, we continue to evolve as a versatile group aiming for optimization in precision parts processing using non-ferrous metals and resins, as well as in microfabrication and mold technology. In the technical information magazine "Microfabrication Technology News Vol. 8," we will introduce this month's column, points to note for eliminating flow marks during molding, and high-precision shape processing of fitting parts. 【Contents】 ○ This month's column by Goto Seiki employees → How to utilize 3D printers ○ Points to note when eliminating flow marks in molding ○ High-precision shape processing of fitting parts For more details, please contact us or download the catalog.

• Processing Contract
• Technical and Reference Books

Since its founding in 1970, Goto Seiki has cultivated cutting processing technology, particularly in the field of optical and measuring instruments, where high precision and shape requirements are demanded. This has become the foundational technology for Goto Seiki in precision parts manufacturing. In the realm of development and prototyping that supports the forefront of manufacturing, this advanced cutting technology is indispensable. Additionally, we continue to evolve as a versatile group aiming for optimization in precision parts processing using non-ferrous metals and resins, as well as in microfabrication and mold technology. In the technical information magazine "Microfabrication Technology News Vol. 7," we will introduce this month's column on the necessity of jigs in precision parts inspection and the introduction of 3D printers. [Contents] ○ This month's column by Goto Seiki employees → Goto Seiki's efforts in precision processing of flatness and parallelism ○ The necessity of jigs in the inspection of precision parts ○ Introduction of 3D printers For more details, please contact us or download the catalog.

• Processing Contract
• Technical and Reference Books

Since its establishment in 1970, Goto Seiki has cultivated cutting processing technology, particularly in the field of optical and measuring instruments, where high precision and shape requirements are essential. This has become the foundational technology for Goto Seiki in precision parts manufacturing. In the realm of development and prototyping that supports the forefront of manufacturing, this advanced cutting technology is indispensable. Additionally, we continue to evolve as a versatile group aiming for optimization in precision parts processing using non-ferrous metals and resins, as well as in microfabrication and mold technology. In the technical information magazine "Microfabrication Technology News Vol. 6," we will introduce this month's column, methods for addressing shrinkage rates in prototype molds, and approaches for dealing with undercuts through segmentation. [Contents] - This month's column by Goto Seiki employees → Goto Seiki's efforts in processing coaxiality of φ0.01 - Methods for addressing shrinkage rates in prototype molds - Approaches for dealing with undercuts through segmentation and the benefits of cost reduction For more details, please contact us or download the catalog.

• Processing Contract
• Technical and Reference Books

Since its founding in 1970, Goto Seiki has cultivated cutting processing technology, particularly in the field of optical and measuring instruments, where high requirements for precision and shape are demanded. This has become the foundational technology for Goto Seiki in precision parts manufacturing. In the realm of development and prototyping that supports the forefront of manufacturing, this advanced cutting technology is essential. Additionally, we continue to evolve as a versatile group aiming for optimization in precision parts processing using non-ferrous metals and resins, as well as in microfabrication and mold technology. In the technical information magazine "Microfabrication Technology News Vol. 5," we will introduce this month's column, the characteristics of prototype mold manufacturing, and our responses to plating. [Contents] - This month's column by Goto Seiki employees → Skill enhancement in fine, precise, and high-precision processing through simultaneous 5-axis machining - Characteristics of Goto Seiki in prototype mold manufacturing - Responses to various types of plating For more details, please contact us or download the catalog.

• Processing Contract
• Technical and Reference Books

Since its founding in 1970, Goto Seiki has cultivated cutting processing technology, particularly in the field of optical and measurement instruments where high precision and shape requirements are demanded. This has become the foundational technology for Goto Seiki in precision parts manufacturing. In the realm of development and prototyping that supports the forefront of manufacturing, this advanced cutting technology is indispensable. Additionally, we continue to evolve as a versatile group aiming for optimization in precision parts processing using non-ferrous metals and resins, as well as in microfabrication and mold technology. In the technical information magazine "Microfabrication Technology News Vol. 4," we will introduce this month's column, initiatives in the cutting processing field, solutions for molding defects, and precision, high-accuracy MC processing of STAVAX material. 【Contents】 - This month's column by Goto Seiki employees - Initiatives in the cutting processing field for shortening delivery times and stabilizing quality - Solutions for flow marks (molding defects) in resin molding - Precision and high-accuracy MC processing even with STAVAX material For more details, please contact us or download the catalog.

• Processing Contract
• Technical and Reference Books

Since its founding in 1970, Goto Seiki has cultivated cutting processing technology, particularly in the field of optical and measuring instruments, where high precision and shape requirements are demanded. This has become the foundational technology for Goto Seiki in precision parts manufacturing. In the realm of development and prototyping that supports the forefront of manufacturing, this advanced cutting technology is indispensable. Additionally, we continue to evolve as a versatile group aiming for optimization in precision parts processing using non-ferrous metals and resins, as well as in microfabrication and mold technology. In the technical information magazine "Microfabrication Technology News Vol.3," we will introduce this month's column, surface roughness verification of micro parts, shortening of delivery times and cost reduction, and support for precision parts. [Contents] - This month's column by Goto Seiki employees - Surface roughness verification of micro parts using image measuring instruments - Shortening of delivery times and cost reduction through rapid response to prototype mold modifications - Support for precision parts that fit together For more details, please contact us or download the catalog.

• Processing Contract
• Technical and Reference Books

Since its establishment in 1970, Goto Seiki has cultivated cutting processing technology, particularly in the field of optical and measuring instruments, where high precision and shape requirements are demanded. This has become the foundational technology for Goto Seiki in precision parts manufacturing. In the realm of development and prototyping that supports the forefront of manufacturing, this advanced cutting technology is essential. Furthermore, we continue to evolve as a versatile group aiming for optimization in precision parts processing using non-ferrous metals and resins, as well as in microfabrication and mold technology. In the technical information magazine "Microfabrication Technology News Vol. 2," we will introduce this month's column, the introduction of surface roughness measurement equipment, high-precision processing, and responses to special materials and supplied materials. [Contents] - This month's column by Goto Seiki employees - Introduction of surface roughness measurement equipment that can also contribute to cost reduction - Efforts towards high-precision processing useful for prototyping and development - Support for special materials and supplied materials necessary for prototyping and development For more details, please contact us or download the catalog.

• Processing Contract
• Technical and Reference Books

Since its founding in 1970, Goto Seiki has cultivated cutting processing technology, particularly in the field of optical and measurement instruments, where high precision and shape requirements are demanded. This has become the foundational technology for Goto Seiki in precision parts manufacturing. In the realm of development and prototyping that supports the forefront of manufacturing, this advanced cutting technology is indispensable. Additionally, we continue to evolve as a versatile group aiming for optimization in precision parts processing using non-ferrous metals and resins, as well as in microfabrication and mold technology. In the technical information magazine "Microfabrication Technology News Vol. 1," we will introduce this month's column, high-precision processing capabilities, special material handling, and precision guarantees. [Contents] ○ This month's column by Goto Seiki employees ○ High-precision processing capabilities ○ Special material handling ○ Precision guarantees For more details, please contact us or download the catalog.

• Processing Contract
• Technical and Reference Books

Since its founding in 1970, Goto Seiki has cultivated cutting processing technology, particularly in the field of optical and measurement instruments, where high precision and shape requirements are essential. This has become the foundational technology for our precision parts manufacturing. In the realm of development and prototyping that supports the forefront of manufacturing, this advanced cutting technology is indispensable. Additionally, we continue to evolve as a versatile group striving for optimization in precision parts processing using non-ferrous metals and resins, as well as in microfabrication and mold technology. ● For more details, please download the catalog or contact us.

• Processing Contract
• others

Before: End mills are not used for micro-machining. When machining difficult materials such as titanium, end mills wear out quickly, leading to poor tool life and increased tool costs. Additionally, managing dimensional accuracy becomes challenging due to tool wear, and there are cases where the dimensions at the base of features like bosses or blind holes become unstable. Particularly for parts that require high precision machining, frequent tool changes become necessary, resulting in significantly higher costs. After: Ball end mills are used for micro-machining. By incorporating an R shape at the base of the product within the design limits, machining accuracy can be stabilized. In such cases, it is possible to switch from standard end mills to ball end mills or radius end mills, which are less affected by wear at the tool tip, thereby improving tool life and stabilizing dimensional accuracy. ● For more details, please download the catalog or contact us.

• Technical and Reference Books

Gotoh Seiki Co., Ltd. has each processing staff member perform integrated processing of their respective parts, and we take full responsibility for precision inspections using various measuring instruments before delivery. Additionally, we can attach measurement data upon request. We have a comprehensive quality assurance system that includes full dimension measurement using three-dimensional measuring instruments and image measuring instruments. We also conduct full inspections of fine parts that cannot be measured by conventional inspection methods using image measuring instruments. Furthermore, we flexibly respond to product application confirmations, such as appearance and fitting parts, and to short delivery times. For more details, please contact us.

• Processing Contract

At Gotoh Seiki Co., Ltd., we provide molded products at low cost and with short delivery times using high-precision simple molds made from super duralumin in our mold manufacturing and resin injection molding processes. This is ideal for mass production prototypes, a variety of small quantity products, repairs, and custom parts. We create molds from super duralumin, which has a hardness comparable to that of steel and excellent durability, guaranteeing between 30 and 10,000 shots. Based on 3D data, we carry out everything in-house from 3D design without drawings to processing, molding, and inspection, shortening the process by designing the mold base in-house and creating our own internal standards, allowing us to respond flexibly to design changes. For more details, please contact us.

• Processing Contract
• Mold Design
• Injection Molding Machine

GOTO Seiki Co., Ltd.'s five-axis machining is ideal for undercuts, angled machining, and complex-shaped parts with many processes. It demonstrates its power in parts that require strict dimensional accuracy across different processes. The possibilities for machining expand with the ability to handle micro multi-angle adjustments, complex shapes that include SR shapes and three-dimensional curved surfaces, as well as securing shapes in undercuts and areas that are difficult for tools to access. Even challenging projects like "Can this shape be achieved?" are possible. Since all processes except for the initially chucked surface can be machined simultaneously, manual setup is significantly reduced, leading to shorter delivery times and cost savings. Additionally, because of the simultaneous machining with one chuck, dimensional accuracy can be maintained more rigorously and stably. For more details, please contact us.

• Processing Contract
• Machining Center

GOTO Seiki Co., Ltd. specializes in the precision machining of extremely small components that are in high demand across various fields such as cameras, semiconductors, optical fibers, and connectors. We handle tiny parts ranging from about the size of a 10-yen coin to approximately the size of a grain of rice. Despite being small, our capabilities range from simple processes like drilling and grooving to complex shapes and three-dimensional forms. To achieve this, we create original mounting jigs and pursue positioning accuracy through repeated multi-process operations. Our cutting tools can combine to achieve a minimum radius of R0.05 and drilling diameters as small as Φ0.03, making the impossible possible. Burrs, which can be a significant issue during machining of tiny parts, are addressed through our pursuit of methods that eliminate them, and any remaining fine burrs are removed using our unique expertise. For more details, please contact us.

• Processing Contract
• Other optical parts
• connector

Gotoh Seiki Co., Ltd. utilizes the latest CAD/CAM technology and machining centers to perform machining of complex shapes, three-dimensional shapes, and high-precision parts. We respond to requirements using technology honed in the fields of cameras, optical devices, and semiconductors, including geometric tolerances such as flatness, parallelism, and perpendicularity, as well as dimensional tolerances like hole diameters and pitches, and surface roughness. The materials we process include metals such as aluminum (A5052, A6061, A2017, A7075, etc.), brass, magnesium, zinc alloys, and copper alloys, particularly ADC12 and ZDC2 for mass production die casting. We also maintain a constant stock of die casting plates for processing that are the same material as those used in mass production, allowing for testing during prototype development. For resins, we handle ABS, POM (including sliding grade and conductive grade), PC, PC-G, PET, PBT, PPS, PPS-G, PES, PMMA, PEEK, PP, and PPE. For more details, please contact us.

• Processing Contract
• Other optical parts

We will introduce key points for reducing man-hours and improving quality in wire electrical discharge machining, based on the design and manufacturing of micro-machined parts. Topics include "Key points for measuring ultra-small, thin, high-precision parts," "Measurement points for coaxiality and concentricity in fine parts," "Measurement points for boss machining in high-precision fine parts," "Measurement points for high-precision parts where reference coordinates cannot be established," "Measurement points when dimensions are not recorded in the data," and "Measurement points for high-precision fine parts that tend to warp." For more details, please contact us or refer to the catalog.

• Technical and Reference Books

We will introduce key points for reducing man-hours and improving quality in wire electrical discharge machining, based on the design and manufacturing of precision machined parts. Topics include "Cost reduction through the replacement of electrical discharge machining with cutting machining," "Key points for machining complex-shaped parts with electrical discharge machining," "Key points for machining complex-shaped parts with wire cutting," "Points for reducing machining time and improving accuracy in electrical discharge machining," and "Points for improving machining quality with wire cutting." For more details, please contact us or refer to the catalog.

• Technical and Reference Books

We will introduce key points for reducing labor and improving quality in high-precision microfabrication, from the design and manufacturing of micro-machined parts. Topics include "Key points for thin plate processing in high-precision machined parts," "Key points for boss processing in high-precision micro parts," "Key points for tool changes in high-precision microfabrication," "Key points for thin plate processing in high-precision microfabrication," "Key points for improving processing quality in precision microfabrication," and "Key points for quality improvement design in precision microfabrication." For more details, please contact us or refer to our catalog.

• Technical and Reference Books

This article introduces key points for reducing man-hours and improving quality in microfabrication, based on the design and manufacturing of microfabricated components. It covers topics such as "Key points for clamping in micro components," "Key points for rough machining of microfabricated parts," "Points for reducing man-hours by changing machining directions," "Key points for setting tool conditions for microfabrication," "Process reduction through standardization of positioning for microfabricated components," "Key points for machining rib and boss shapes in resin microfabrication," and "Key points for selecting tooling to achieve high-speed rotation." For more details, please contact us or refer to the catalog.

• Technical and Reference Books

We will introduce key points for reducing man-hours and improving quality in high-precision machining, based on the design and manufacturing of micro-machined parts. This includes "Key points for high-precision multi-surface machining using a 5-axis machining center," "Key points for improving flatness accuracy of high-precision parts," "Key points for preventing warping of parts in high-precision machining," "Key points for designing high-precision fitting shapes at corners," "Key points for machining mutual differences in high-precision parts," "Key points for handling cutting fluids for high-precision machining," "Key points for machine operation for high-precision machining," and "Key points for temperature management in high-precision machining," among others. For more details, please contact us or refer to our catalog.

• Technical and Reference Books

This article introduces key points for reducing man-hours and improving quality in precision molding and mold design, based on the design and manufacturing of micro-machined parts. It covers topics such as "points for improving deflection in molds," "points for gate setting in micro-molded parts," "points for mold design in micro-molded parts," "reducing man-hours in micro part mold production using the placement method," "points for reducing man-hours by adopting 3D data in mold design," and "points for deformation countermeasures in micro-molded parts." For more details, please contact us or refer to the catalog.

• Technical and Reference Books

We will introduce key points for reducing man-hours and improving quality during the design phase of precision machining parts, based on the essentials of design and manufacturing. This includes "key points for cost-reduction design of difficult-to-cut materials," "key points for shape design considering cutting conditions," "key points for claw shape design in high-precision parts," "key points for burr-free processing design in high-precision parts," "key points for design aimed at reducing finishing processes for precision machining parts," "key points for reducing machining man-hours by adopting R shapes from edge shapes," and "key points 1 and 2 for reducing setup man-hours through standardization of materials used." For more details, please contact us or refer to the catalog.

• Technical and Reference Books

We will introduce points that researchers and developers who require micro-machined parts should pay attention to during development, design, and processing, such as 'confirming the equipment of the ordering source if even a part requires micro-machining,' 'designing to match commercially available tools as much as possible to reduce costs,' 'keeping corner radii as large as possible to reduce costs,' 'having fewer curved shapes to keep costs and delivery times down,' 'deburring of micro parts,' and 'when using expensive materials, the small size of the parts can lead to cost advantages.' For more details, please contact us or refer to the catalog.

• Technical and Reference Books

In various fields such as cameras, medical equipment, semiconductors, and home appliances, the miniaturization of devices is currently progressing. Machine tools and measuring instruments are also evolving daily, and further technological innovations through microfabrication are being demanded from various sectors. In "cameras," there are shutter peripheral mechanism components, lens peripheral components, and optical components; in "medical," there are endoscopes, forceps, implants, syringes, and stents used during surgeries; in "semiconductors," there are suction devices, thinning devices, and cutting devices; in "IT equipment," there are PCs, memory, switches, and connectors; and in "home appliances," there are hard disks, mobile phones, and music players. For more details, please contact us or refer to our catalog.

• Technical and Reference Books

Microfabrication differs from conventional machining in that there are various considerations during design and processing. In "Points of Microfabrication," it is noted that "the shapes are extremely small, making it impossible to visually confirm the shape or the progress of processing," "manual work cannot be performed on micro shapes," "while the objects being processed are extremely small, the tools are also extremely small, resulting in longer processing times," "specialized equipment is required for production," "specialized equipment is required for inspection," "because the cutting tools are extremely small, they may not withstand hard materials," and "if the material is soft, micro parts are weak against processing loads." Various countermeasures are provided for these characteristics of microfabrication. For more details, please contact us or refer to the catalog.

• Technical and Reference Books

The biggest issue in microfabrication is that the processing conditions cannot be visually confirmed with the naked eye. The parts and shapes being processed are at a microscopic size, making it impossible to judge the cutting load from the sound of cutting or the way chips are produced. Similarly, if a tool breaks during processing, it is difficult to assess the situation due to the extremely small size of the tool. Furthermore, when dealing with micro components, the dimensional tolerances become nearly zero, and even a few microns of error can significantly affect the quality of the product. Naturally, finishing work by hand and measuring during the process are not possible, so the quality of the product cannot be determined until processing is complete. In other words, compared to precision machining where processing conditions can be visualized, microfabrication places an even greater demand on the experience and imagination of the technician, and the precision of the machines and temperature control required to achieve these results becomes even more stringent. For more details, please contact us or refer to our catalog.

• Technical and Reference Books

The definition of microfabrication, when we think of the term, typically brings to mind extremely small precision parts or products that cannot be observed in detail with the naked eye. Indeed, that is not incorrect. For instance, when performing shape processing with a φ0.1mm end mill, it is obvious that due to the extremely small size of the parts, the clamping, tools, measurement, finishing, and packaging cannot be the same as those used for general sizes (which can be accurately recognized by the naked eye). Specialized clamping fixtures, tools, extremely small measurement clamps, and non-contact measuring devices are required for all processes, using jigs that are not commercially available or measuring instruments that are not typically used in standard processing. In this way, when everything from tools to equipment differs from the general ones, and the product itself is extremely small, it is also referred to as microfabrication. For more details, please contact us or refer to our catalog.

• Technical and Reference Books

The "Precision and Micro Parts Design Technology Handbook" is a 63-page booklet that includes dozens of tips for reducing man-hours and improving accuracy in precision and micro machining. It is packed with points to consider in the design and processing of micro parts, tricks for compressing development time and costs, and essential knowledge and know-how for design and development engineers! [Overview of Contents] ■ Explanation of the basics of micro machining and key points in part design and manufacturing ■ Explanation of points for reducing man-hours and improving quality ■ Clear explanations in a Q&A format ■ Full of other technical information! <Free delivery to the first 100 applicants! *Applications can be made through "Contact Us"> * A digest version PDF with selected excerpts is available for download * Additionally, the first 10 applicants will receive sample processing. For more details, please inquire! ★ Awarded in the 10th Cutting Processing Dream Contest! We received a bronze award in the micro machining category of this contest. For details on the award-winning works, please refer to the materials in the "Catalog." ★ Exhibition Information We will be exhibiting at the "Wearable EXPO" held at Tokyo Big Sight from January 14 to January 16, 2015. We look forward to your visit. Booth: East 15-16

• Technical and Reference Books