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Olympus metallographic microscope BX53M
The Olympus BX53M metallographic microscope adopts a modular design, providing diverse solutions for a wide range of materials science and industrial
Product details
Olympus Group was founded in 1919. So far, Olympus Corporation has become one of the representative companies in precision and optical technology in Japan and even the world, with business areas including medical, life sciences, imaging, and industrial machinery. Olympus, as a member of society, is silently making contributions to society within its capabilities. Olympus cherishes relationships between people very much, in order to tear apart the embarrassment caused by the manganese mines and small caves? ldquo; SocialIN "is the company philosophy. As of the fiscal year ending in March 2008, the company's revenue was 12.48 billion US dollars. As of 2010, the total number of employees in the company was approximately 35400. In 1921, Olympus independently developed Japan's first optical microscope.
A metallographic microscope BX53M, widely used in the electronics and metal industries, has made its debut.
Designed for industrial and materials science applications
The Olympus BX53M series metallographic microscope adopts a modular design, providing diverse solutions for a wide range of materials science and industrial applications. According to different applications in industry and materials science, BX53 can be combined into microscopes for various applications such as reflection microscopes, transmission and reflection microscopes, infrared microscopes, polarizing microscopes, etc.
Convenient microscopic observation and operation
BX53M is designed for traditional industrial microscopy and has expanded its functionality to meet a wider range of applications and inspection techniques
Precise optical components
Olympus Corporation has a long history of producing high-quality optical components, with first-class image quality whether observed through eyepieces or displays.
Comprehensive customizability
Modular design allows users to flexibly build systems that meet their specific requirements.
Intuitive microscope control is comfortable and easy to use
Microscopic examination tasks often require a long time to adjust microscope settings, acquire images, and perform necessary measurements to obtain satisfactory reports. Users sometimes need to invest time and money to complete professional microscope training, or only understand a small part of the full functions of the microscope before starting work.
The BX53M simplifies complex microscopic examination tasks through its excellent design and convenient control functions. Users do not need long training to master most of the functions of the microscope. The convenient and comfortable operation of BX53M also improves the reproducibility of images, minimizing human errors to the greatest extent possible.
2.1 Encoding Hardware: It is easy to restore microscope settings
The BX53M adopts a new encoding function that integrates the hardware settings of the microscope with the Olympus Stream image analysis software. The observation method, illumination intensity, and objective position are all recorded in the software and/or manual controller. The encoding function enables the microscope settings to be automatically saved with each image, making it easier to restore the settings later and provide document records for reports. Not only does it save the operator's time, but it also minimizes the probability of using incorrect settings to the greatest extent possible. The current observation settings are always clearly displayed on the manual controller and software.
2.2 Intelligent light intensity tube sword threshold, full of joy and frustration
During initial installation, the lighting intensity can be adjusted to match the specific hardware configuration of the encoder illumination and/or encoder objective converter.
2.3 Convenient and user-friendly operation
Humanization is crucial for all users. Both single machine microscope users and microscope system users with integrated Olympus Stream image analysis software can benefit from a user-friendly manual controller that can clearly display the location of microscope encoded hardware. Simple manual switch allows users to focus their time on the sample itself and the required implementation
3. Advanced imaging
BX53M, in addition to the traditional contrast method used for routine microscopy inspection, can also solve many defects encountered in the past when using the traditional contrast method for inspection
3.1 MIX Combination Observation: Display Previously Invisible Images
The MIX combination observation technology of BX53M combines bright field and dark field illumination methods. It is very useful for highlighting defects and distinguishing between raised and depressed surfaces.
3.2 Instant Puzzle (MIA): Easily move the stage for panoramic photography
Now, simply moving the XY knob on the manual stage allows for convenient and quick image stitching, eliminating the need for an electric stage.
The Olympus Stream software uses pattern recognition technology to generate panoramic images, providing users with a wider field of view than a single image.
3.3 Easy Implementation of Ultra Depth of Field Image (EFI) Questions
The depth of field extended imaging (EFI) function of Olympus Stream software can capture sample images with heights exceeding the depth of focus of the objective lens, and overlay them together to create a super depth of field image. EFI can be performed using manual or electric Z-axis mechanisms, and a height map can be created to easily identify the structure. You can also create EFI images offline using Stream desktop version.
4. The long history of cutting-edge optical technology
Olympus Corporation has a long history of developing high-quality optical instruments, creating multiple records of optical quality and ensuring excellent measurement accuracy of microscopes.
4.1 LED Lighting
BX53M provides high-intensity white LED light source for reflected and transmitted light illumination. LED provides efficient and long-lasting lighting, making it an ideal tool for materials science testing applications.
4.2 Automatic Calibration
Similar to digital microscopes, automatic calibration can also be implemented when using Olympus Stream software. Can obtain more reliable measurement results.
Olympus Gold i Microscope BX53M Specification(Used for reflection and reflection/transmission light combination)
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optical system |
UIS2 optical system (infinite correction) |
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Microscope frame |
lighting |
Reflection/Transmission |
reflex |
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focusing |
Travel distance: 25 mm |
Travel distance: 30 mm |
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Maximum sample height |
35 mm (excluding height adapter) |
65 mm (excluding height adapter) |
Depends - Installation Configuration |
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Observation tube |
Wide field of view FN22 |
Inverted images: binocular, trinocular, tilted binocular |
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Ultra wide field of view FN26.5 |
Inverted image: Three eyes |
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Reflected light illumination |
Conventional observation techniques |
BX3M-RLAS-S |
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- |
U-KMAS |
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fluorescence |
BX3M-URAS-S |
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Transmitted light |
White LED |
- |
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Objective lens converter |
Used for BF |
Six holes, centering six holes, seven holes, encoding five holes (optional electric objective lens converter) |
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Used for BF/DF |
Six holes, five holes, centering five holes, encoding five holes (optional electric objective lens converter) |
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Carrier platform |
Coaxial left-hand (right-hand) operation of the stage: |
- |
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weight |
Approximately 18.3 kg |
Approximately 15.8 kg |
Approximately 11.1 kg |
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BX53M specification (for infrared observation)
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BX53MRF-S |
BXFM |
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IR observation tube |
Wide field of view FN22 |
Inverted image: Three eyes |
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Reflected light illumination |
IR observation |
BX3M-RLA-S |
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– |
U-KMAS |
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Objective lens converter |
Used for BF |
Six holes, centering six holes, seven holes, encoding five holes (optional electric objective lens converter) |
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Stage (X × Y) |
Coaxial left-hand (right-hand) operation of the stage: |
– |
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weight |
Approximately 18.9 kg (microscope frame 7.4 kg) |
Approximately 11.6 kg (microscope frame 1.9 kg) |
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BX53M specification (for polarized observation)
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BX53MTRF-S |
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Polarized intermediate attachment |
Wide field of view FN22 |
Inverted images: binocular, trinocular, tilted binocular |
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Bo's mirror |
Focusing (applicable only to U-CPA) |
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Bo's field of view aperture |
Diameter Ø 3.4mm (fixed) (applicable only to U-CPA) |
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When switching between positive and cone light microscopy, add or remove the Burgers scope |
Slide position ● Enter |
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Polarizing mirror slot |
Rotating polarizer slot (U-AN360P-2) |
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Polarizer (U-AN360P-2) |
360 ° rotatable dial |
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Chinese Objective Lens Converter (U-P4RE) |
Four holes, with centering device: 1/4 λ polarizer (U-TAD), |
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Loading Platform (U-SRP) |
Polarized specialized rotating carrier with 3-point centering function |
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Spotlight (U-POC-2) |
Color difference stress free spotlight (U-POC-2), a rotatable 360 ° polarizer with an external swing achromatic top lens. |
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weight |
Approximately 16.2 kg (microscope frame 7.6 kg) |
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