Observation Service - List of Manufacturers, Suppliers, Companies and Products

Observation Service Product List

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Cross-section polishing (CP) method for cross-sectional observation service.

Cross-section polishing (CP) method for cross-sectional observation service.

Achieves high processing accuracy and a wide processing area! Machining is also possible while reducing damage with cooling functions.

The CP method allows for the observation of cross-sections without damage from polishing, compared to mechanical polishing methods. Our triple ion milling device with cooling function achieves high processing precision and a wide processing area through ion beams irradiated from three directions. For materials sensitive to heat, processing can be done while reducing damage with the cooling function. 【Features】 - Processing width of approximately 4mm and processing depth of approximately 1mm, allowing for extensive processing. - High flatness in both hard and soft materials, enabling the production of cross-sections without physical damage. - Capable of producing cross-sections with good positional accuracy. - Processing can be done while cooling (cryogenic). *For more details, please refer to the PDF document or feel free to contact us.

  • Other analytical equipment
  • Analysis and prediction system

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Surface mount electronic component cross-sectional observation service

Surface mount electronic component cross-sectional observation service

You can closely observe the soldering condition of electronic components on the implementation board and the internal structure of the components!

We conduct "cross-sectional observation of surface-mounted electronic components." Through cross-sectional observation after mechanical polishing, it is possible to closely examine the solder joint condition (presence of cracks or voids) of electronic components on the mounted substrate, as well as the internal structure of the components. For "SOP components," detailed observation can be made from the overall cross-section to the solder connection, and for "aluminum electrolytic capacitors," it is possible to observe the internal structure of the electrolytic capacitor components and their connection to the substrate. 【Features】 ■ SOP (Small Outline Package) components - Detailed observation can be made from the overall cross-section of SOP components to the solder connection. ■ Chip ceramic capacitors - Detailed observation can be made from cracks in the component material to cracks in the solder area. ■ Aluminum electrolytic capacitors - Observation can be made from the internal structure of the electrolytic capacitor components to their connection to the substrate. *For more details, please refer to the PDF document or feel free to contact us.

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Observation of the coating layer of eyeglass lenses using a microtome.

Observation of the coating layer of eyeglass lenses using a microtome.

Section preparation using a microtome! Introducing examples of observing lens coating layers and multilayer films.

Lenses for glasses and cameras are coated with various layers. In the case of glasses, multiple coating layers are applied, including a hard coat to protect plastic lenses, an anti-reflective coat to reduce light reflection, and a UV coat to block ultraviolet rays. These layers are applied as very thin films, so we observed them from a cross-section. When observed with a scanning electron microscope (SEM), it was noted that a hard coat/multilayer film is applied on top of the lens substrate, and in the multilayer film, SiO and Nb films are alternately stacked. [Overview] ■ Cross-section preparation method - Prepared with a microtome - The lens removed from the frame was cut into small pieces and embedded in resin - Subsequently, a cross-section was prepared using a microtome, followed by optical microscope observation, SEM observation, and EDX analysis *For more details, please refer to the PDF document or feel free to contact us.

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Observation of metal tissue through chemical treatment.

Observation of metal tissue through chemical treatment.

You can gain clues about the quality of the product and issues through the organizational shape!

We will introduce the observation of metal structures through chemical treatment. By performing chemical treatment on metal samples, it is possible to clearly observe the metal structure. Observing the structure can confirm the condition of the sample and the history of applied heat and stress, providing clues about the quality of the product and any defects based on the structural shape. In the published catalog, you can find details on the observation of metal structures, such as the macrostructure of aluminum plates and the soldered parts of copper terminals. Additionally, we offer other services such as cross-sectional observation and various analysis services. Please feel free to contact us if you have any requests. [Published Content] - Macrostructure of aluminum plates - Soldered parts of copper terminals - Brass screws - Welded parts of SUS rods *For more details, please download the PDF or feel free to contact us.

  • Non-destructive testing

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Material and Defect Analysis: Fracture Surface Observation

Material and Defect Analysis: Fracture Surface Observation

We provide fracture surface analysis of plastics and metals at reasonable prices and within deadlines that meet our customers' requests.

Before conducting the measurements, we will have sufficient discussions to propose measurements that align with the customer's requests. The results will include: - Modes of failure - [Resin fracture surface] Examples: brittle fracture, creep fracture, molding defects, foreign material adhesion, etc. - [Metal fracture surface] Examples: impact fracture, fatigue fracture, ductile fracture, intergranular fracture, etc. - Photographs of the fracture surfaces We will provide photographs of both resin and metal fracture surfaces taken with an electron microscope or a metallurgical microscope. Please refer to the PDF materials for examples of the report.

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