トムラス Product Lineup

Our company provides consistent processing based on a wide range of knowledge and technology, rather than specializing in specific shapes, to various industries including medical device manufacturers. There are three main types of cutting processes: turning, milling, and drilling. These processes combine to create the fundamental shapes of the workpieces. We have our own factory in Vietnam, equipped with a flexible production system under domestic quality control standards. 【Features】 ■ Range of capabilities: We can handle small to large parts, regardless of shape, including square and round items. ■ Quality assurance: We possess three-dimensional measuring equipment, allowing us to provide consistent support from processing to precision measurement. ■ Proposal capability: We do not stick to specific equipment but derive suitable processing processes from accumulated know-how. ■ Global production system (Vietnam subsidiary): We have established a flexible production system under domestic quality control standards. *For more details, please download the PDF or feel free to contact us.

• Circuit board design and manufacturing

We would like to introduce our global production system for precision mold parts manufacturing. We have our own factory in Vietnam, where we have established a flexible production system under domestic quality control standards. One of the representative processes of machining involves cutting, grinding, and drilling metals using lathes and machining centers. Our system is characterized by consistent processing based on extensive knowledge and technology. 【Features】 ■ Range of capabilities: No restrictions on shape, accommodating small to large parts, and both angular and round items. ■ Quality assurance: We possess three-dimensional measuring equipment, allowing us to handle everything from machining to precision measurement consistently. ■ Proposal capability: We do not stick to specific equipment but derive suitable processing processes from accumulated know-how. ■ Global production system (Vietnam subsidiary): We have established a flexible production system under domestic quality control standards. *For more details, please download the PDF or feel free to contact us.

• Circuit board design and manufacturing

Our company extracts shapes as two-dimensional or three-dimensional images and data, allowing for various measurements such as shape, distance, and angle. Rather than specializing in specific shapes, our greatest strength lies in our consistent processing through a wide range of knowledge and technology. Additionally, we perform ultra-finishing of high-hardness metals and other materials to the micron level using rotary grinding wheels. For more complex multi-process machining, we prepare the mold shapes for each process in advance, enabling sequential analysis by incorporating the product shapes obtained from the analysis of the previous process. 【Features】 ■ Range of capabilities: We handle shapes without restriction, from small items to large components, and from angular to round shapes. ■ Quality assurance: We possess three-dimensional measuring machines, allowing for consistent handling from processing to precision measurement. ■ Proposal capability: We derive suitable processing processes from accumulated know-how without being tied to specific equipment. ■ Global production system (Vietnam subsidiary): We establish a flexible production system under domestic quality control standards. *For more details, please download the PDF or feel free to contact us.

• Circuit board design and manufacturing

In the field of research and development, prototype manufacturing requires precise processing of various materials. Particularly when prototyping new materials or complex-shaped components, conventional processing methods may be difficult to apply. Electrical discharge machining technology allows for complex shapes and fine processing as long as the materials are conductive, thereby expanding the scope of prototyping in research and development. Tomras Co., Ltd.'s electrical discharge machining technology supports your research and development efforts. 【Application Scenarios】 - Prototyping new materials - Prototyping complex-shaped components - Prototyping components requiring fine processing 【Benefits of Implementation】 - Increased freedom in prototyping - Reduced development time - Compatibility with diverse materials

• Electric discharge machine
• Processing Contract

In the machinery industry, parts manufacturing requires high precision and the ability to handle complex shapes. In particular, high-quality processing technology is essential to achieve both durability and functionality. Inadequate processing can lead to a decline in product performance and a reduction in lifespan. Tomras Co., Ltd.'s electrical machining/discharge machining technology enables the processing of complex shapes as long as the material is conductive, contributing to solving challenges in parts manufacturing for our customers. 【Application Scenarios】 - High-precision parts manufacturing - Processing of complex shapes - Machining of difficult-to-cut materials 【Benefits of Implementation】 - Manufacturing of high-quality parts - Improvement of product performance - Ability to accommodate diverse shapes

• Electric discharge machine
• Processing Contract

In the robotics industry, as functionality increases, precise component processing is required. Especially for robot parts that demand durability and accuracy, the ability to process intricate shapes and complex structures with high precision is essential for improving product performance. Inadequate processing can lead to malfunctioning or decreased performance of robots. Our electrical processing/discharge machining technology enables the processing of complex shapes as long as the material is conductive, meeting our customers' needs. 【Application Scenarios】 - Manufacturing high-precision robot parts - Processing components with complex shapes - Machining parts that require durability 【Benefits of Implementation】 - Improved robot performance through high-precision component processing - Increased design flexibility through the manufacturing of complex-shaped parts - Expanded options for parts selection by accommodating various materials

• Electric discharge machine
• Processing Contract

In the energy sector, long-term operation and high safety of equipment are required. In particular, components used in high-temperature and high-pressure environments must have high durability. Improper processing can lead to early deterioration or failure of parts. Our electrical discharge machining technology enables the processing of complex shapes for conductive materials, contributing to the durability improvement of energy-related equipment. 【Application Scenarios】 - Processing of power generation equipment parts - Processing of plant equipment parts - Processing of high-pressure piping components 【Benefits of Implementation】 - Increased longevity of parts through high-precision processing - Improved design flexibility by accommodating complex shapes - Compatibility with a variety of materials

• Electric discharge machine
• Processing Contract

In the optical precision industry, high-precision component processing is required. Particularly for parts that demand fine or complex shapes, such as lenses and precision molds, processing accuracy significantly affects product performance. Even for shapes and materials that are difficult to handle with conventional processing methods, our electrical processing/discharge machining technology can achieve high precision. If the material is conductive, we can accommodate complex shapes. 【Application Scenarios】 - Optical lens molds - Precision parts - Parts requiring fine processing 【Benefits of Implementation】 - Achieves high-precision processing - Accommodates complex shapes - Supports a variety of materials

• Electric discharge machine
• Processing Contract

In the watch industry, there is a demand for diversified designs and high-quality decorations. In particular, the processing of delicate designs and complex shapes is crucial for enhancing the value of products. Electrical discharge machining technology allows for detailed decorative processing on conductive materials, thereby improving the design quality of watches. 【Usage Scenarios】 * Delicate pattern processing on watch dials * Engraving logos and designs on watch cases * Precision shape processing of decorative components 【Effects of Implementation】 * Increased design freedom * Enhanced product value through high-quality decorations * Compatibility with a variety of materials

• Electric discharge machine
• Processing Contract

In the electronic components industry, the miniaturization of products is advancing, and as a result, precise processing of components is essential. Amid the demand for complex shapes and fine processing, machining technology influences product performance. Electrical discharge machining technology allows for the processing of complex shapes as long as the material is conductive, meeting the needs for miniaturization. 【Application Scenarios】 - Manufacturing of small electronic components - Processing of parts with complex shapes - Manufacturing of parts requiring fine processing 【Effects of Implementation】 - Enables the production of miniaturized electronic components - Accommodates the processing of complex-shaped parts - Achieves high processing accuracy

• Electric discharge machine
• Processing Contract

In the semiconductor industry, the precision of fine hole processing has become crucial due to the increasing density of devices. Specifically, the ability to process fine holes with high precision in wafers and substrates significantly affects product performance. Traditional processing methods may struggle to achieve high-quality fine hole machining due to issues such as tool wear and positional accuracy. Our electrical discharge machining technology enables the processing of complex-shaped fine holes in conductive materials, contributing to solving our customers' challenges. 【Application Scenarios】 - Fine hole processing of semiconductor wafers - Precision hole processing of electronic components - Fine machining of mold parts 【Benefits of Implementation】 - Achievement of high-precision fine hole processing - Capability to process complex shapes - Compatibility with a variety of materials

• Electric discharge machine
• Processing Contract

In the automotive industry's mass production system, it is important to supply high-quality parts consistently. Particularly for parts that require durability and precision, machining accuracy significantly affects product performance. Electrical machining/discharge machining technology enables complex shapes and high-precision processing, contributing to the improvement of automotive parts quality. Tomras Co., Ltd.'s electrical machining/discharge machining technology provides optimal processing tailored to customer needs. 【Application Scenarios】 - Parts processing in mass production systems - Processing of complex-shaped parts - Processing of parts requiring high precision 【Effects of Implementation】 - Stable supply of high-quality parts - Improvement in product performance - Increased yield

• Electric discharge machine
• Processing Contract

In the medical device industry, miniaturization and high precision are advancing, and there is a demand for the processing of complex-shaped parts. Particularly for components related to human safety, such as implants and surgical instruments, high precision and quality are essential. Electrical discharge machining technology allows for the processing of intricately shaped components as long as the material is conductive, meeting customer needs. 【Application Scenarios】 - Manufacturing of implant components - Manufacturing of surgical instruments - Manufacturing of medical precision parts 【Benefits of Implementation】 - Enables processing of complex-shaped parts - Achieves high-precision machining - Accommodates a variety of materials

• Electric discharge machine
• Processing Contract

In the aerospace industry, advanced precision and reliability of components are required. Especially for parts used in harsh environments, it is essential to process fine shapes and complex structures with high precision. Our electrical discharge machining technology provides high accuracy and quality even for shapes and materials that are difficult to handle with conventional processing methods. This contributes to the improvement of product performance and the assurance of safety in the aerospace field. 【Application Scenarios】 - Manufacturing of aircraft components - Manufacturing of spacecraft components - Manufacturing of precision equipment parts 【Benefits of Implementation】 - Improved product quality through high-precision processing - Capability to process complex shapes - Compatibility with a variety of materials

• Electric discharge machine
• Processing Contract

In the mold industry, micro-machining is a crucial factor that influences the quality and precision of products. In particular, high-precision molds are essential for improving product performance, and machining techniques that can achieve fine shapes and complex structures are required. Electrical machining/discharge machining technology enables the processing of complex shapes as long as the materials are conductive, enhancing the design flexibility of molds. 【Application Scenarios】 - Machining of fine-shaped molds - Machining of complex-shaped molds - Machining of molds requiring high precision 【Benefits of Implementation】 - Production of high-precision molds - Improvement in product quality - Increased design flexibility

• Electric discharge machine
• Processing Contract

In the musical instrument industry and audio equipment manufacturing, precise processing of components that affect sound quality and durability is required. Particularly for parts related to resonance and vibration characteristics, accuracy of dimensions and smoothness of surfaces are crucial. Improper processing can lead to deterioration of sound quality and a decrease in product lifespan. Tomras Co., Ltd.'s cutting technology utilizes lathes and machining centers to perform metal cutting and drilling, creating the fundamental shapes of musical instruments and audio equipment. 【Application Scenes】 - Speaker frames - Metal parts of instruments - Precision components of audio equipment 【Effects of Implementation】 - Improvement of acoustic characteristics - Enhancement of product quality - Increased durability

• Other cutting tools
• Processing Contract

In the watch industry, decorative components require a diversity of designs and precise machining accuracy. In particular, the expression of intricate details and complex shapes greatly influences the value of the product. Cutting machining technology is essential to meet these demands. Tomras Co., Ltd.'s cutting machining technology provides the optimal solution for balancing the beauty and functionality of decorative components. 【Usage Scenarios】 - Watch dials - Bezels - Cases - Decorative components 【Benefits of Implementation】 - Production of high-precision decorative components - Increased design freedom - Enhanced luxury and added value of products

• Other cutting tools
• Processing Contract

In the design field of the home appliance industry, it is essential to balance aesthetics and functionality. In particular, precise machining of parts is crucial to achieve a sophisticated appearance and high operability. Cutting processing technology serves as the foundation for materializing design concepts and producing high-quality products. Tomras Co., Ltd.'s cutting processing technology proposes the optimal processing methods to realize the designs desired by customers. 【Application Scenarios】 - Exterior parts of home appliances - Control panels and buttons - Highly designed internal components 【Effects of Implementation】 - Improvement in design quality - Realization of high-quality products - Increased design flexibility

• Other cutting tools
• Processing Contract

In the telecommunications industry, the miniaturization of devices is progressing, and precise component processing is required. In particular, the accuracy and reliability of components are crucial for packing many functions into a limited space. Cutting processing technology is essential to meet these demands. Tomras Corporation's cutting processing technology contributes to maximizing the performance of miniaturized communication devices. 【Usage Scenarios】 - Enclosures for small communication devices - Precision connectors - Small antenna components 【Effects of Implementation】 - Miniaturization of devices through high-precision component processing - Ensuring high reliability and durability - Reduction of product development time

• Other cutting tools
• Processing Contract

In the robot industry, high precision and durability are required for movable parts. In particular, the manufacturing of components that can withstand repeated movements and loads is crucial. Cutting processing technology is essential to meet these demands. Our cutting processing technology achieves precise shapes and high strength for the movable parts of robots, enhancing the reliability of the products. 【Application Scenarios】 - Joints of robot arms - Movable parts of robot hands - Drive system components of robots 【Effects of Implementation】 - Improved operational performance due to high precision of movable parts - Extended product lifespan due to increased durability - Cost reduction through decreased frequency of parts replacement

• Other cutting tools
• Processing Contract

In the energy industry, efficient operation and longevity of equipment are required. Particularly for components used in harsh environments, high precision and durability are essential. Improper processing can lead to early deterioration of parts and equipment downtime. Our cutting technology proposes optimal processing methods tailored to customer needs, contributing to the efficiency of equipment. 【Application Scenarios】 - Turbine blades for power generation equipment - Connection components for transmission equipment - Enclosures for energy storage systems 【Effects of Implementation】 - Increased longevity of parts - Improved equipment operating rates - Reduced maintenance costs

• Other cutting tools
• Processing Contract

In the machine tool industry, high-precision machining of parts is required to enhance product performance and durability. Particularly in areas subjected to high loads or where precise movements are demanded, the accuracy of dimensions and the smoothness of surfaces significantly affect product quality. Improper machining can lead to machine failures or performance degradation. Tomras Co., Ltd.'s cutting technology utilizes lathes and machining centers to achieve the high-precision part machining that our customers require. 【Application Scenarios】 - Manufacturing of precision parts for machine tools - Machining of parts that require high precision - Manufacturing of parts that demand durability and performance 【Benefits of Implementation】 - Improved product quality through high-precision part machining - Enhanced machine performance and longevity - Reduction of defective products and cost savings

• Other cutting tools
• Processing Contract

In the semiconductor manufacturing equipment industry, microfabrication technology is a crucial factor that influences the precision and performance of the equipment. In particular, high-precision component processing is essential for enhancing the overall reliability and efficiency of the equipment. Cutting processing technology achieves precise shapes and high dimensional accuracy to meet these demands. Our cutting processing technology contributes to the performance improvement of our customers' equipment. 【Application Scenarios】 - Precision component processing for semiconductor manufacturing equipment - Production of parts requiring microfabrication - Manufacturing of components that demand high precision 【Effects of Implementation】 - Improvement in equipment performance - Increased reliability of components - Reduction in manufacturing costs

• Other cutting tools
• Processing Contract

In the mold industry, precise machining is required to achieve both product accuracy and durability. Particularly in molds used for molding, the accuracy of dimensions and the smoothness of surfaces are crucial factors that influence product quality. Cutting machining technology is essential to meet these demands. 【Application Scenarios】 - Mold manufacturing - Precision parts machining - Prototype production 【Benefits of Implementation】 - High-precision mold manufacturing - Improvement in product quality - Potential cost reduction

• Other cutting tools
• Processing Contract

In the medical device industry, precise machining of components is essential to ensure product safety and reliability. Particularly in medical devices that involve human lives, the accuracy of parts affects the performance of the product, and defects can lead to serious issues. Our cutting technology utilizes lathes and machining centers to precisely cut and process metals, enabling the high-quality manufacturing of components for medical devices. 【Application Scenarios】 - Manufacturing of medical device parts requiring precise shapes - Manufacturing of parts requiring high dimensional accuracy - Manufacturing of components with complex shapes 【Benefits of Implementation】 - Improved safety and reliability of medical devices - Enhanced product performance - Reduction of defective products

• Other cutting tools
• Processing Contract

In the aerospace industry, reducing the weight of aircraft is a crucial challenge for improving fuel efficiency and flight performance. To achieve lightweight components, high-precision machining technology is essential. Tomras' machining technology offers optimal processing methods to meet the stringent quality standards of the aerospace sector and the need for weight reduction. 【Application Scenarios】 - Aircraft components - Space exploration vehicle components - Drone components 【Benefits of Implementation】 - Weight reduction of components - Realization of high-precision shapes - Optimization of material costs

• Other cutting tools
• Processing Contract

In the automotive engine industry, high precision and durability are required. Engine components must withstand high temperatures and pressures while maintaining stable performance over long periods. Cutting processing technology is essential to meet these demands. Improper processing can lead to early wear or failure of parts. Tomras Co., Ltd.'s cutting processing technology offers optimal processing methods tailored to our customers' needs. 【Usage Scenarios】 - Engine block - Cylinder head - Piston - Crankshaft - Camshaft 【Benefits of Implementation】 - High-precision component processing - Achievement of high durability - Potential for cost reduction - Quality improvement

• Other cutting tools
• Processing Contract

In the robotics industry, precise movement and durability of joints are required. Especially for robots used in harsh environments, the dimensional accuracy and surface roughness of joint components are essential for maintaining performance. Improper processing can lead to malfunctioning of the robot and a decrease in lifespan. Our grinding processing technology achieves precision machining at the micron level, contributing to the performance enhancement of robot joints. 【Application Scenarios】 - Precision machining of robot joint components - Grinding of parts requiring high accuracy - Finishing of parts that need durability 【Effects of Implementation】 - Achieving smooth movement of joints - Improving the durability of robots - Enhancing product quality

• Grinding Machine
• Processing Contract

In the watch industry, the high-precision processing of gears significantly affects product quality. In particular, the dimensional accuracy and surface roughness of the gears are crucial to ensure accurate time display. Grinding technology is essential to meet these demands. Our company possesses a wide range of equipment, including flat grinding, cylindrical grinding, and internal grinding, enabling precision processing at the micron level. 【Application Scenarios】 - Manufacturing of watch gears - Super finishing of precision parts - Processing of parts requiring dimensional accuracy 【Effects of Implementation】 - Manufacturing of high-precision gears - Improvement in product quality - Increase in yield

• Grinding Machine
• Processing Contract

In the power generation industry, many components require high precision and durability, making grinding processing technology essential. In particular, parts of turbines and generators are used in harsh environments, so high dimensional accuracy and surface roughness are indispensable. Grinding processing is crucial to meet these demands. Our grinding technology achieves precise machining at the micron level, contributing to the reliability of power generation equipment. 【Application Scenarios】 - Polishing of turbine blades - Precision machining of generator parts - Manufacturing of precision components for power generation equipment 【Benefits of Implementation】 - Achieving high dimensional accuracy and surface roughness - Improving the efficiency of power generation equipment - Extending product lifespan

• Grinding Machine
• Processing Contract

In the optical industry, particularly with prisms, it is essential to accurately control the light transmittance and refractive index. The shape accuracy and surface roughness of prisms significantly influence optical performance, making precision processing at the micron level indispensable. Grinding technology achieves advanced finishing of shapes and dimensions to meet these demands. 【Application Scenes】 - Optical lenses - Prisms - Other optical components 【Benefits of Implementation】 - Realization of high-precision shapes and surface roughness - Improvement of optical performance - Stabilization of product quality

• Grinding Machine
• Processing Contract

In the electronics industry, connectors are crucial components that influence product performance. The dimensional accuracy and surface roughness of connectors significantly affect connection reliability and electrical characteristics. Especially in the trend towards miniaturization of electronic devices, precise machining of connectors is essential. Grinding technology enables precision machining at the micron level, contributing to the improvement of connector quality. Our grinding technology boasts a wide range of equipment, including flat grinding, cylindrical grinding, and internal grinding, allowing us to provide optimal processing tailored to our customers' needs. 【Application Scenarios】 - Polishing of connector terminal parts - Precision machining of connector housings - Polishing of joints with electronic device enclosures 【Effects of Implementation】 - Improved connection reliability of connectors - Stabilization of electrical characteristics - Enhanced product quality

• Grinding Machine
• Processing Contract

In the precision machinery industry, particularly in lens manufacturing, high dimensional accuracy and surface roughness are required. The performance of a lens is greatly influenced by the finish of its surface, and even slight errors can affect optical performance. Grinding technology enables precise machining at the micron level and is essential for maximizing lens performance. 【Application Scenarios】 - Lens polishing - Precision grinding of optical components - Dimensional adjustment of precision machinery parts 【Benefits of Implementation】 - Manufacturing of high-precision lenses - Improvement of optical performance - Stabilization of product quality

• Grinding Machine
• Processing Contract

In the machine tool industry, the precision of sliding surfaces is a crucial factor that affects the overall performance of the machine. Low precision of sliding surfaces can lead to increased friction resistance, accelerated wear, and operational failures, resulting in decreased product quality and shortened machine lifespan. Grinding technology achieves high precision and smooth surfaces for sliding surfaces, addressing these challenges. Our grinding technology encompasses a wide range of equipment, including flat grinding, cylindrical grinding, and internal grinding, providing optimal processing tailored to our customers' needs. 【Application Scenarios】 - High-precision processing of sliding surfaces in machine tools - Measures against wear on sliding surfaces - Improvement of the operability of sliding surfaces 【Benefits of Implementation】 - Enhanced machine performance through high precision of sliding surfaces - Energy-saving effects due to reduced friction resistance - Extended machine lifespan

• Grinding Machine
• Processing Contract

In the mold industry, precise polishing of molds is required to enhance the accuracy and durability of products. Particularly in molding processes that demand high precision, such as injection molding and press processing, the surface roughness and dimensional accuracy of the mold significantly affect product quality. Improper polishing can lead to molding defects and shorten the lifespan of the mold. Our grinding technology enables polishing at the micron level, achieving advanced finishing of shapes and dimensions. 【Application Scenarios】 - Manufacturing of precision mold components - Production of high-quality molded products - Maintenance of molds 【Benefits of Implementation】 - Production of high-precision molds - Improvement of product quality - Extension of mold lifespan

• Grinding Machine
• Processing Contract

In the semiconductor industry, the flatness, dimensional accuracy, and surface roughness of wafers are crucial factors that influence product performance. Particularly as miniaturization advances, even slight irregularities or dimensional errors on the wafer surface can significantly impact device yield and reliability. Our grinding technology achieves precision processing at the micron level, contributing to the high quality of wafers. 【Application Scenarios】 - Wafer planar polishing - Wafer precision grinding - Wafer surface roughness adjustment 【Effects of Implementation】 - Improved wafer flatness - Enhanced dimensional accuracy - Improved surface roughness - Increased device yield - Enhanced product reliability

• Grinding Machine
• Processing Contract

In the medical device industry, particularly in the implant field, high dimensional accuracy and surface roughness are required. Implants must have biocompatibility, and the fine surface shapes affect their affinity with tissues. Improper processing can lead to implant dysfunction or adverse effects on patients. Our grinding processing technology achieves precise surface treatment at the micron level, contributing to the improvement of implant quality. 【Application Scenarios】 - Surface polishing of implants - Precision shape processing of implants - Dimensional adjustment of medical device parts 【Effects of Implementation】 - Improved accuracy of implants - Optimization of surface roughness - Enhanced biocompatibility

• Grinding Machine
• Processing Contract

In the aerospace industry, turbine components require high precision and surface quality. This is crucial as it affects the efficiency and durability of the turbine, making micron-level machining accuracy and surface roughness that can withstand friction and stress essential. Grinding technology is indispensable to meet these demands. 【Application Scenarios】 - Precision polishing of turbine blades - Dimensional adjustment of turbine discs - Machining of aircraft engine components 【Benefits of Implementation】 - Improved turbine performance through high-precision component machining - Enhanced durability through optimization of surface roughness - Quality stability through micron-level dimensional control

• Grinding Machine
• Processing Contract

In the field of automotive engines, high precision and durability are required. Especially for parts that influence engine performance, machining accuracy at the micron level is crucial. Grinding technology is essential to meet these demands. Improper machining can lead to decreased engine performance and shortened lifespan. Our grinding technology utilizes a wide range of equipment, including flat grinding, cylindrical grinding, and internal grinding, to provide optimal machining tailored to our customers' needs. 【Application Scenarios】 - Precision grinding of engine parts - High-precision finishing of sliding surfaces - Machining of parts requiring dimensional accuracy 【Effects of Implementation】 - Improved engine performance - Enhanced durability of parts - Improved product quality

• Grinding Machine
• Processing Contract

We would like to introduce Tomuras Corporation's "Grinding Processing Technology." The surface is shaved off in microns using fine abrasive grains from a rotating grinding wheel. To achieve the required dimensional accuracy and surface roughness, we perform processing based on calculations, resulting in a higher level of finishing for complex shapes and dimensions. Our company possesses a wide range of equipment for flat grinding, cylindrical grinding, and internal grinding. 【Types of Processing】 ■ Cutting Processing ■ Grinding Processing ■ Electrical Processing (Discharge Processing) *For more details, please download the PDF or feel free to contact us.

• Grinding Machine
• Processing Contract

We would like to introduce Tomuras Corporation's "Cutting Processing Technology." It is one of the representative forms of machining, primarily using lathes (turning) and machining centers to cut, shave, or drill holes in materials such as metal. Cutting processing can be broadly categorized into three types: turning, milling, and drilling. These combinations create the fundamental shapes of the processed materials. [Types of Processing] ■ Cutting Processing ■ Grinding Processing ■ Electrical Processing (EDM) *For more details, please download the PDF or feel free to contact us.

• Other cutting tools
• Processing Contract

We would like to introduce Tomuras Corporation's "Electrical Processing/EDM Technology." It is also called discharge machining because it generates electrical thermal energy through sparking. Although it takes time, complex processing is possible with any conductive material. While it takes some time to dissolve the workpiece by consuming power and electrodes, complex shapes can be processed as long as the material is conductive. 【Types of Processing】 ■ Cutting Processing ■ Grinding Processing ■ Electrical Processing (EDM) *For more details, please download the PDF or feel free to contact us.

• Electric discharge machine
• Processing Contract

Complete in-house facilities from lathe and hole processing to polishing and manual finishing. We are also looking forward to discussing cost for mass production.

• Contract manufacturing
• Other machine elements

Capacity UP, please look forward to further technological advancements.

• Contract manufacturing
• Processing Contract

We can respond to various needs by leveraging our extensive adaptability.

• Other machine elements
• Processing Contract
• Contract manufacturing