Ion milling equipment Product List and Ranking from 5 Manufacturers, Suppliers and Companies

Last Updated：Oct 22, 2025 Aggregation Period:Sep 24, 2025～Oct 21, 2025
This ranking is based on the number of page views on our site.

Ion milling equipment Manufacturer, Suppliers and Company Rankings

Last Updated：Oct 22, 2025 Aggregation Period:Sep 24, 2025～Oct 21, 2025
This ranking is based on the number of page views on our site.

日立ハイテク Tokyo//Industrial Machinery
アイテス Shiga//Electronic Components and Semiconductors
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セイコーフューチャークリエーション Chiba//Testing, Analysis and Measurement
東芝ナノアナリシス Kanagawa//Testing, Analysis and Measurement

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Ion milling equipment Product ranking

Last Updated：Oct 22, 2025 Aggregation Period:Sep 24, 2025～Oct 21, 2025
This ranking is based on the number of page views on our site.

Ion milling device 日立ハイテク
Preparation of cross-sectional samples using a cross-sectional ion milling device.
Case Studies of Preprocessing for Analysis and Observation of Ion Milling (CP)/Cryo セイコーフューチャークリエーション
Effects of heat generated during cross-section ion milling (CP) processing. アイテス
Observation of the cross-sectional shape of the resist pattern. 東芝ナノアナリシス

Ion milling equipment Product List

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Cryogenic ion milling cross-section processing example (rubber products)

We will introduce a case study on the method of processing cross-sections using toy car tires!

We would like to introduce a case where cross-sections were created and observed for the adhesive parts of pull-back car tires using different methods. Upon conducting SEM observations of the created cross-sections, fillers present within the rubber were confirmed. It was found that the dispersion state of the fillers and the appearance of the adhesive interface were not clear with liquid nitrogen fracturing or mechanical polishing. In contrast, the cross-sections created by cryo ion milling allowed for a clear observation of the dispersion state of the fillers contained in the rubber and the appearance of the adhesive interface with the plastic substrate. 【Cross-section Preparation Methods】 ■ Liquid Nitrogen Fracturing (-196℃) ■ Mechanical Polishing ■ Cryo CP (-150℃) *For more details, please download the PDF or feel free to contact us.

Company：アイテス
Price：Other

Surface treatment contract service
Processing Contract

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Case Studies of Preprocessing for Analysis and Observation of Ion Milling (CP)/Cryo

We will introduce various examples of ion milling processing, cryo-processing, and pre-treatment for cross-section processing, analysis, and observation.

In this case study collection, we will introduce examples related to "pre-treatment" in analysis and observation. We include numerous examples of pre-treatment for analysis and observation, covering objectives, methods, samples, and results, such as "Introduction to Ion Milling (CP Processing)," "Microsection Processing by Ion Milling," and "SEM Observation Pre-treatment Using Ionic Liquids." Additionally, we also present cross-sectional analysis of various materials, sample overviews, and cross-sectional observation results. We encourage you to read through it. [Contents] ■ Introduction to Ion Milling (CP Processing) ■ Microsection Processing by Ion Milling ■ SEM Observation Pre-treatment Using Ionic Liquids ■ Cooling (Cryo) Ion Milling Cross-section Processing Moreover, there is know-how involved in pre-treatment. Since there are examples not included in this collection, please feel free to contact us.

Company：セイコーフューチャークリエーション
Price：Other

Other processing machines
Contract Analysis
Processing Contract

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Ion milling device

Introducing dry etching equipment compatible with piezoelectric materials and magnetic materials!

At Hitachi High-Tech, we handle "Ion Milling Equipment." We offer a lineup that includes the "Diffusion Beam Milling System," which allows for large-area processing with a small-diameter electrode, and the "R&D Compact Milling System," which is specialized for experimental development. With our extensive experience, we support our customers from development onward. 【Features】 <Diffusion Beam Milling System> ■ Large-area processing possible with a small-diameter electrode ■ Simultaneous processing of all six φ100mm wafers ■ Achieves good in-plane uniformity with a self-rotating wafer holder *For more details, please refer to the PDF document or feel free to contact us.

Company：日立ハイテク
Price：Other

Other machine elements
Other processing machines

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[Example] Observation of the surface cross-section of anodized aluminum.

Gold is about 10μm, light gold is about 7μm, and silver is around 12 to 13μm! Here are some examples of cross-sectional observations.

We would like to introduce a case study conducted at our company regarding three types of anodized products sold as tableware: gold, light gold, and silver, which were investigated from both the surface and cross-section. By creating a cross-section of the anodized coating through ion milling and measuring its thickness, we found that the gold was approximately 10μm, the light gold was about 7μm, and the silver was around 12 to 13μm. Additionally, it was confirmed that the difference in the intensity of the gold color (the difference between gold and light gold) is due to the variation in film thickness. [Case Overview] ■ Surface magnified observation: Differences in "shape" on the surface ■ Cross-section magnified observation: Measurement of film thickness and observation of the shape of the outermost surface *For more details, please refer to the PDF document or feel free to contact us.

Company：東邦化研材料解析部
Price：Other

Other services

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Observation of the cross-section of ceramic sintered body

Introducing cross-section ion milling capable of low-damage cross-section processing!

We would like to introduce our "Cross-sectional Observation of Ceramic Sintered Bodies." In the cross-sectional observation of porous materials, techniques such as polishing have resulted in unclear observations due to stress effects from processing and contamination from polishing materials. By applying cross-sectional ion milling, low-damage cross-sectional processing has become possible, allowing for clear cross-sectional observation and analysis. 【Features】 ■ The shape of sintering pores and the internal condition can be accurately observed. ■ Element distribution can be clearly observed. ■ Low-damage cross-sectional processing is possible. ■ Clear cross-sectional observation and analysis can be performed. *For more details, please download the PDF or feel free to contact us.

Company：東芝ナノアナリシス
Price：Other

Contract Analysis

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Observation of the cross-sectional shape of the resist pattern.

Multiple patterns of cross-sectional shapes with a wide range (approximately 3mm wide) can be observed in high detail!

We would like to introduce our "Observation of Resist Pattern Cross-Sectional Shapes." In the evaluation of the quality of resist patterns formed in complex three-dimensional shapes, we utilize ion milling technology equipped with a sample cooling mechanism and a three-axis ion source to perform cross-sectional processing without damage on heat-sensitive resist pattern samples. This allows for high-resolution observation of the cross-sectional shapes of multiple patterns over a wide area (approximately 3mm in width). Please feel free to contact us when you need our services. 【Features】 - By using a three-axis ion source, we can achieve a wider processing width compared to a one-axis type, allowing for the examination of cross-sectional shapes of multiple patterns. - Processing while cooling prevents damage to the resist. - By processing from different directions with varying shapes, it is possible to confirm each cross-sectional shape. *For more details, please download the PDF or feel free to contact us.

Company：東芝ナノアナリシス
Price：Other

Contract Analysis

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Effects of heat generated during cross-section ion milling (CP) processing.

We would like to present the results of our observations on the production of cross-sections of rubber products and a comparison of cross-section production methods!

We will introduce a case study comparing cross-section preparation methods on the surface coating layer of a golf ball and observing the effects of heat from CP processing. There are two layers of coating on the outermost layer of the cover layer, and we conducted a comparison of cross-section preparation methods using this coating layer. SEM observations of the cross-sections prepared using three different methods were performed. While cross-section preparation of soft materials is effectively done using cross-section ion milling (CP), the physical properties may change due to the heat generated during CP processing. In such cases, cross-section preparation using cryo-CP, which mitigates the effects of processing heat through cooling, is effective. 【Cross-section preparation methods】 ■ Mechanical polishing ■ CP ■ Cryo-CP (-50°C) *For more details, please download the PDF or feel free to contact us.

Company：アイテス
Price：Other

Other analytical and testing equipment
Other processing machines

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Observation of the cross-section of porous soft material (paper)

Introduction to low-damage processing using cross-sectional ion milling!

We would like to introduce our "Cross-Section Observation of Porous Soft Materials (Paper)." When observing materials such as paper composed of porous and soft substances, conventional cross-section preparation methods like cutting and polishing can cause significant deformation during processing, making them unsuitable for observation. Low-damage processing through cross-section ion milling minimizes processing deformation, allowing for detailed structural understanding through cross-section observation. 【Features】 - The layered structure of cellulose fibers and the dispersion state of filler particles can be clearly confirmed. - Voids are also clearly visible. - Processing deformation can be minimized. - Detailed structures can be understood through cross-section observation. *For more details, please download the PDF or feel free to contact us.

Company：東芝ナノアナリシス
Price：Other

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Observation of the fine structure of alumite.

By using the ion milling method, it is possible to confirm the cross-sectional structure and distribution of elements without damaging the fine structure!

We would like to introduce our "Observation of the Microstructure of Anodized Aluminum." Aluminum materials in commercially available frames form an anodic oxide film (anodizing) on the surface for purposes such as corrosion resistance and wear resistance. In general mechanical polishing processes, the pore structure of the anodized layer can be destroyed, making it impossible to confirm its structure. By using ion milling (Ar+ ion beam) for processing, we can observe the cross-sectional structure and elemental distribution without damaging the microstructure. 【Elemental Distribution Analysis by EPMA】 ■ The microstructure of the anodized layer can be clearly observed through SEM observation. ■ It can be confirmed that the pores are neatly filled due to sealing treatment. ■ By combining elemental analysis, we can also confirm the distribution of Sn (tin), which is thought to have precipitated due to electrolytic coloring on the lower side of the anodized layer, as well as the distribution of S residues in the sulfuric acid bath (H2SO4). *For more details, please download the PDF or feel free to contact us.

Company：東芝ナノアナリシス
Price：Other

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