Explanation video Product List and Ranking from 5 Manufacturers, Suppliers and Companies

Last Updated：Jan 14, 2026 Aggregation Period:Dec 17, 2025～Jan 13, 2026
This ranking is based on the number of page views on our site.

Explanation video Manufacturer, Suppliers and Company Rankings

Last Updated：Jan 14, 2026 Aggregation Period:Dec 17, 2025～Jan 13, 2026
This ranking is based on the number of page views on our site.

松井製作所 Osaka//Ferrous/Non-ferrous metals
アイサンテクノロジー Aichi//software
ジャパンエレグロスモズシリーズ本店 Osaka//Other manufacturing
4 プレゼンス Kanagawa//others
4 エルモ Osaka//Service Industry

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Explanation video Product ranking

Last Updated：Jan 14, 2026 Aggregation Period:Dec 17, 2025～Jan 13, 2026
This ranking is based on the number of page views on our site.

What is flatness for machine manufacturing? A basic explanation in 5 minutes! 松井製作所
Effective Use of Registration Information Data (Registration Books and Raster Maps) | Function Explanation Video アイサンテクノロジー
Video explanation of NC lathe programs for semiconductor manufacturing equipment. 松井製作所
[For Machine Manufacturing] Geometric Tolerances: Basic Explanation of Inclination 松井製作所
4 [For Precision Instruments] Geometric Tolerances: Circular Runout and Total Runout Basic Explanation 松井製作所

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[For Semiconductor Manufacturing] Geometric Tolerances: Explanation Video on Circular Runout and Total Runout

Learn the basics of geometric tolerances in semiconductor manufacturing to improve yield!

In the semiconductor manufacturing industry, there is always a demand for improved product quality and yield. Particularly in areas where fine processing technology is crucial, the dimensional accuracy of components significantly affects product performance. A lack of understanding of geometric tolerances can lead to the occurrence of defective products and a decline in performance, potentially worsening yield. This video explains the basics of a type of geometric tolerance known as "circular runout and total runout," supporting the improvement of drawing interpretation skills. By watching this video, you can deepen your foundational knowledge of quality management in semiconductor manufacturing and potentially contribute to yield improvement. 【Usage Scenarios】 - Component design in semiconductor manufacturing - Education in quality control departments - Drawing interpretation on the manufacturing floor 【Effects of Implementation】 - Deepening understanding of geometric tolerances and improving drawing interpretation skills - Potential suppression of defective products and improvement in yield - Stabilization of product quality through enhanced knowledge of quality management

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[For Electronic Devices] Geometric Tolerance Circular Runout and Total Runout Explanation Video

Contributing to the improvement of electronic equipment reliability! Explaining the basics of geometric tolerances.

In the electronics industry, accurate dimensions and shapes of components are crucial to ensure product reliability. Particularly in electronic devices exposed to vibrations and shocks, the runout of components can significantly affect product performance. Understanding circular runout and total runout is essential for setting appropriate tolerances during the design phase, leading to improved product quality. This video explains the basics of "circular runout and total runout," which are types of geometric tolerances. 【Application Scenarios】 - Design of electronic devices - Quality control - Education in manufacturing sites 【Effects of Implementation】 - Improved product reliability - Reduced defect rates - Streamlined design and manufacturing processes

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[For the watch industry] Geometric tolerance explanation video on circular runout and total runout.

Explaining the basics of geometric tolerances in watch manufacturing!

In the watch industry, precise processing of components is essential to achieve both product quality and luxury feel. Particularly in movements and exterior parts, not only dimensional accuracy but also geometric tolerances significantly affect the product's performance and appearance. Understanding geometric tolerances such as circular runout and total runout is a crucial factor in high-quality watch manufacturing. This video explains the basics of a type of geometric tolerance known as "circular runout and total runout," supporting problem-solving in watch manufacturing. 【Application Scenarios】 - Design and manufacturing of watch components - Education in quality control departments - Technical guidance for engineers 【Effects of Implementation】 - Deepening understanding of geometric tolerances, improving design and manufacturing quality - Reduction of defective products and cost savings - Skill enhancement for engineers

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Basic Explanation Video of NC Lathe Program for Aerospace Applications

Explaining the basics of NC lathe programming, such as G codes and M codes!

In the aerospace industry, the lightweighting of components is always in demand. Precision machining with NC lathes is essential for manufacturing lightweight and high-strength parts. A lack of understanding of programming can lead to decreased machining accuracy and material waste, which can ultimately result in increased costs. This video explains the basics of NC lathe programming and supports problem-solving in aerospace component manufacturing. 【Application Scenarios】 * Manufacturing of aircraft parts * Manufacturing of rocket parts * Manufacturing of satellite parts 【Benefits of Implementation】 * Promotion of understanding of NC lathe programming * Improvement of machining accuracy * Effective use of materials

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Basic Explanation Video of NC Lathe Program for Optical Equipment

Explaining the basics of NC lathe programming such as G codes and M codes!

In the optical equipment industry, high precision is required in the manufacturing of lenses and precision parts. Machining with NC lathes is essential for the production of these components, but understanding the programming can be a challenge. Errors in programming can not only compromise the accuracy of the products but also lead to increased costs. This video explains the basics of NC lathe programming using specific examples. By understanding the fundamentals of NC lathe programming, it enables high-precision machining of parts in optical equipment manufacturing. 【Application Scenarios】 * Precision machining of optical lenses * Prototyping of high-precision parts * Transitioning to mass production 【Benefits of Implementation】 * Promotion of program understanding * Improvement of machining accuracy * Potential for cost reduction

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Basic Explanation Video of NC Lathe Programming for Home Appliances

Explaining the basics of NC lathe programming! Supporting the establishment of mass production systems.

In the home appliance industry, precision machining using NC lathes is essential for mass production of products. In particular, a precise understanding and efficient operation of NC lathe programs are crucial to balance product quality and production efficiency. Errors in the program can lead to the occurrence of defective products and a decrease in productivity. This video explains the basics of NC lathe programming and supports the establishment of a mass production system. 【Usage Scenarios】 * Machining of metal parts for home appliances * Basic learning of NC lathe programming * Review of programs in mass production systems 【Benefits of Implementation】 * Promotion of understanding of NC lathe programs * Reduction of machining time * Decrease in defective products

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NC Lathe Programming Tutorial Video for Automotive Parts Manufacturing

Explaining the basics of NC lathe programming, such as G codes and M codes!

In the automotive parts manufacturing industry, high precision and efficiency are required. NC lathes are important machine tools that meet these demands, but understanding the programming can be a challenge. Particularly in the manufacturing of complex-shaped parts or parts that require high precision, knowledge of programming is essential. This video explains the basics of NC lathe programming and supports problem-solving in automotive parts manufacturing. 【Usage Scenarios】 * Prototyping automotive parts * Mass production of parts * Education on NC lathe programming 【Benefits of Implementation】 * Promotion of understanding of NC lathe programming * Reduction of processing time * Decrease in defective products

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Understanding flatness in 5 minutes for precision machinery!

Solving issues in the assembly process! An explanation of the basics of flatness.

In the precision machinery industry, the accuracy of product assembly greatly affects product performance. In particular, poor flatness of parts can lead to gaps and distortions during assembly, potentially resulting in product malfunctions and reduced lifespan. This video explains the basics of "flatness," a type of geometric tolerance. 【Usage Scenarios】 - Design and manufacturing of precision machinery - Quality control of parts - Improvement of assembly processes 【Benefits of Implementation】 - Deepening understanding of flatness to enhance quality in design and manufacturing - Early detection of issues during assembly to reduce rework - Improvement of product reliability

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Video explaining the advantages and disadvantages of inventory for the manufacturing industry.

Explaining the basics of inventory management in a video!

In production adjustments within the manufacturing industry, proper inventory management is essential. Excess inventory can increase storage costs and strain cash flow. On the other hand, insufficient inventory can lead to lost opportunities and risks of losing customer trust. In this video, we will explain the advantages and disadvantages of holding inventory as a fundamental aspect of inventory management. Optimizing inventory management leads to improved production efficiency, cost reduction, and increased customer satisfaction. 【Usage Scenarios】 * Want to optimize inventory value * Want to reduce lost opportunities due to stockouts * Want to learn the basics of inventory management 【Effects of Implementation】 * Acquire foundational knowledge of inventory management * Gain hints for solving challenges in inventory management * Lead to improvements in production efficiency

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【For Machine Tools】Geometric Tolerances Straightness Basic Explanation Video

Support for understanding straightness to improve machining accuracy!

In the machine tool industry, the machining accuracy that affects product quality is extremely important. In particular, understanding straightness, which guarantees the linearity of parts, is essential for achieving high-precision machining. By accurately understanding the definition of straightness and its application in drawings, we can reduce machining defects and improve product quality. This video explains the basics of straightness and contributes to improving machining accuracy. 【Usage Scenarios】 - Design and manufacturing of machine tools - Understanding of machining drawings - Quality control 【Benefits of Introduction】 - Deepening understanding of straightness and improving machining accuracy - Enhancing drawing interpretation skills - Improving quality management capabilities

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Principles of Flatness Calculation for Calibration Services

Explaining the principle of flatness calculation! Contributing to the efficiency of calibration operations.

In the precision measurement industry, especially in calibration work, the accuracy of measurement results is essential. Understanding flatness is crucial for ensuring the reliability of measurement results. By understanding the calculation methods for flatness, one can appropriately carry out the calibration of measuring instruments and evaluate measurement results, leading to improvements in quality control. This video clearly explains the principles of flatness calculation and supports the efficiency of calibration work. 【Usage Scenarios】 * Calibration of precision measuring instruments * Evaluation of measurement results in quality control * Inspection work in manufacturing sites 【Benefits of Implementation】 * Improved reliability of measurement results * Increased efficiency of calibration work * Enhanced level of quality control

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What is cylindricality for automotive engines? An explanation of the basics!

Video materials useful for quality control of engine parts.

In the design and manufacturing of automobile engines, the precision of parts is a crucial factor that affects performance and reliability. Particularly for parts with cylindrical shapes inside the engine (such as cylinders and pistons), accurate management of cylindricity is required. If cylindricity is not properly managed, it can lead to increased friction between parts, decreased sealing capability, the occurrence of abnormal noises, and ultimately result in reduced engine performance or failure. This video explains the basics of "cylindricity," which is a type of geometric tolerance. 【Application Scenarios】 - Design and manufacturing of engine parts - Education in quality control departments - Training for engineers 【Benefits of Implementation】 - Deepening understanding of cylindricity and improving quality in design and manufacturing - Enhancing drawing interpretation skills - Early detection of issues in quality control

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Cylindricity Explanation Video for Precision Instruments

Helpful for lens design and manufacturing! An explanation of the basics of cylindricality.

In the precision machinery industry, especially in lens manufacturing, high accuracy is required. The performance of a lens is crucially dependent on its shape accuracy, particularly cylindricality. Understanding cylindricality is essential for providing appropriate instructions during the design phase and for quality control during the manufacturing process. By understanding the definition of cylindricality, how it is used in drawings, and the points to be aware of, the performance of the lens can be maximized. 【Application Scenes】 - Lens designers - Engineers involved in lens manufacturing - Quality control personnel 【Benefits of Implementation】 - Improved drawing interpretation skills - Early detection of quality issues - Enhanced product accuracy

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[For Molds] Basic Explanation Video on Geometric Tolerances: Right Angle

Solving questions about perpendicularity in mold design and manufacturing!

In the mold industry, understanding perpendicularity is essential to guarantee the dimensional accuracy of products. If the perpendicularity of a mold is inaccurate, it can lead to dimensional defects in molded products or assembly issues, potentially resulting in a decline in product quality. This video explains the basics of "perpendicularity," a type of geometric tolerance, including its definition, examples of use, how it is represented in drawings, and precautions for use. By deepening the understanding of perpendicularity, we contribute to quality improvement in mold design and manufacturing. 【Application Scenarios】 - Creating drawings during the mold design phase - Dimensional management during mold production - Quality inspection of molded products 【Benefits of Implementation】 - Acquisition of knowledge regarding perpendicularity - Improvement of quality in mold design and manufacturing - Reduction of defective products and cost savings

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Basic Explanation of Geometric Tolerances for Precision Instruments: Right Angle

Explaining the basics of right angles! Improving the quality of precision instruments.

In the precision machinery industry, understanding geometric tolerances is essential for maintaining product accuracy and reliability. In particular, perpendicularity greatly affects the assembly accuracy of parts and influences product performance. Understanding the definition of perpendicularity and its application in drawings is important for quality management of products. This video clearly explains the basics of perpendicularity and contributes to maintaining the performance of precision machinery. 【Usage Scenarios】 - Design and manufacturing of precision machinery - Education in quality control departments - Engineers aiming to improve product accuracy 【Benefits of Introduction】 - Deepening understanding of perpendicularity and improving design and manufacturing accuracy - Enhancing product quality and reducing defect rates - Skill enhancement for engineers

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