Our inverted metallurgical microscope is a specialized optical instrument designed for the examination and analysis of opaque materials, particularly in metallurgy and materials science. Unlike traditional microscopes, it has its light source and objective lenses positioned above the specimen, making it ideal for viewing polished metal samples, ceramics, and other solid materials that cannot be made transparent. Inverted metallurgical microscopes often feature polarized light, darkfield illumination, and advanced imaging capabilities for inspecting the microstructure, composition, and defects in metallic alloys and materials.
Viewing head |
Siedentopf trinocular head |
Viewing head inclination degree |
Inclined at 30° |
Interpupillary distance |
48 mm ~ 75 mm |
Extra wide field eyepiece |
WF10X/ 22 mm
WF10X/ 20 mm Eyepiece with scale of cross hair |
Viewing head |
Trinocular head |
Viewing head inclination degree |
Inclined at 30° |
Interpupillary distance |
48 mm ~ 75 mm |
Eyepiece |
High-point, extra wide field eyepiece EW10×/ 20mm |
Viewing head |
Trinocular head |
Viewing head inclination degree |
Inclined at 30° |
Interpupillary distance |
48 mm ~ 75 mm |
Eyepiece |
High-point, extra wide field eyepiece EW10×/ 20mm |
Viewing Head |
Tinocular viewing head |
Eyepiece |
Wide field eyepiece WF10X/18 mm
Wide field eyepiece WF12.5X/14 mm |
Objective |
Achromatic objective 10X/0.25, WD=6.3 mm
Plan achromatic objective 40X/0.65, WD=0.7 mm
Achromatic objective 100X/1.25(oil),
WD=0.1 mm |
Nosepiece |
Triple nosepiece |
Labotronics long working distance stereo microscope is a specialized optical instrument designed for observing and working with specimens that require a significant distance between the objective lens and the specimen. These microscopes provide a larger space or "working distance" under the objective lenses, making them suitable for tasks that involve manipulating or repairing samples while maintaining clear and magnified observation. Long working distance stereo microscopes are commonly used in fields like electronics, entomology, and circuit board assembly, allowing users to access and work on delicate or larger specimens without the need for physical contact.
Viewing head |
Binocular |
Eyepiece |
WF 10X / 20 mm |
Inclination |
45° |
Diopter adjustment |
± 5 dp |
Labotronics motorized monocular microscope is an advanced optical instrument equipped with a single eyepiece and motorized components for precise control and automation of various functions. It allows users to remotely adjust magnification, focus, and stage movement using digital controls, enhancing convenience and efficiency during observations. These microscopes often feature digital cameras and imaging systems, enabling the capture and recording of images and videos for documentation and analysis.
Video Eyepiece |
0.75X |
Objective |
1X |
Working Distance |
117mm (from the specimen to illumination part, the distance is 66mm) |
Zoom Magnification |
0.3X ~ 2.4X |
Our reflective polarizing microscope is a specialized optical instrument designed for examining reflective and anisotropic materials under polarized light. Unlike traditional transmitted light microscopes, it utilizes reflected light to observe opaque specimens like metals, minerals, and other reflective surfaces. These microscopes feature specialized objectives, polarizers, and compensators to control and analyze the polarization of light. Reflective polarizing microscopes are commonly used in fields like geology, materials science, and metallurgy to study crystalline structures, stress patterns, and other optical properties in opaque samples. They play a crucial role in analyzing material composition and quality, making them valuable tools for research, quality control, and failure analysis in various industrial and scientific applications.
Viewing head |
Binocular |
Eyepiece |
WF10X / 18 |
Optical compensator |
λ Slip (First class red)
1/ 4λ Slip
Quartz wedge |
Achromatic objective |
4X
10X |
Labotronics biological microscope is a fundamental laboratory instrument used to observe and analyze tiny biological specimens, such as cells, tissues, and microorganisms. It consists of optical components, including objective and eyepiece lenses, and an illumination source, allowing magnification and visualization of minute details. They come in various types, such as compound and stereo microscopes, each tailored to specific sample types and observation methods. With features like adjustable magnification, fine focusing, and integrated illumination systems, biological microscopes offer a platform for precise examination, aiding in biological research, education, and diagnostics.
Optical system |
Infinite optical system |
Viewing head |
3.0 MP digital camera , Binocular head |
Viewing head inclination |
30° inclined |
Interpupillary distance |
48 mm ~ 75 mm |
Optical system |
Infinite optical system |
Viewing head |
Seidentopf Binocular |
Viewing head inclination |
Inclined at 30°, 360° rotatable |
Interpupillary distance |
48 mm ~ 75 mm |
Optical system |
Finite optical system |
Viewing head |
Seidentopf Binocular |
Viewing head inclination |
Inclined at 30°, 360° rotatable |
Interpupillary distance |
48 mm ~ 75 mm |
Optical system |
|
Viewing head |
Sliding Trinocular |
Viewing head inclination |
Inclined at 45° , 360° rotatable |
Interpupillary distance |
55 mm ~ 75 mm |