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Polarizing Microscope LMPM-805

Polarizing Microscope LMPM-805 with trinocular viewing head inclined at 30°C is a well-built microscope with high-quality fiber optics that produces high-quality long-life images. It has strain-free plan achromatic objectives with magnifications of 5x, 10x, 20x, 40x, 50x and 100x and an interpupillary distance of 48-75mm. To illuminate the sample, a high intensity 100W halogen light source with adjustable intensity, a NA0.9/0.25 strain free swing condenser, and a 45mm blue filter is used.

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Specifications

Viewing Head Sidentopf trinocular head inclined at 30°C
Interpupillary 48-75 mm
Eye Piece WF10X/22
Nosepiece Backward quintuple nosepiece, center adjustable
Objectives Strain free plan achromatic objective 5X, 10X, 20X, 40X, 50X and 100X, (WD 2mm) and 100X (WD0.13mm)
Epi-illuminator 24V/100W halogen lamp, transmitted illumination
Analyzer Rotatable analyzer with gradation 0°-360°
Optical Compensator λ slip, 1/4 λ, guarter-wave plate, quartz wedge
Condenser NA0.9-0.25 strain-free swing condenser
Revolving Round Stage Diameter φ170mm, 1° increments, minimum resolution 6’
Focusing System Fine division 0.001mm, range 32mm
Polarizer 360° rotatable
Filter Blue filter 45mm

Features

Excellent infinite optical system
Wide Field Eyepiece WF10X/22 with cross air
Polarizer rotatable but lockable in position
Infinity strain free plan objectives ensuring resolution and clarity
Center adjustable nosepiece and rotating platform makes operation more accurate and reliable
Easy to use interface also allows for customization of color and resolution settings
360° rotatable polarizer
100W halogen light source
Backward quadruple nose piece
Sidentopf trinocular viewing head inclined at 30°C

Applications

These are widely used in crystallography, geology, analytical chemistry, medicine, biology, environmental science, pharmacy and toxicology etc.

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Polarizing Microscope LMPM-809

  • Viewing Head: Siedentop binocular head inclined at 45°C
  • Eye Piece: Plan Eyepiece WF10X/18Eyepiece WF10X/18 with cross hair
  • Nosepiece: Backward quadruple nosepiece
  • Objectives: Strain free achromatic objective 4X, 10X, 40X, 60X
  • Epi-illuminator: 6V/20W halogen lamp

Polarizing Microscope LMPM-806

  • Viewing Head: Sliding binocular head inclined at 30°C
  • Eye Piece: Plan Eyepiece WF10X/18Eyepiece WF10X/18 with cross hairReticle plateGrid plate
  • Nosepiece: Backward quintuple nosepiece, center adjustable
  • Objectives: Strain free plan achromatic objective 4X, 10X, 25X, 40X, 63X
  • Epi-illuminator: 6V/24W halogen lamp

Polarizing Microscope LMPM-803

  • Viewing Head: Sliding binocular head inclined at 45°C
  • Eye Piece: EW10X/18, with cross hairRetile plateGrid plate
  • Nosepiece: Backward quadruple nosepiece, center adjustable
  • Objectives: Strain free achromatic objective 4X, 10X, 25X, 40X, 63XStrain free plan achromatic objective 25X, 40X, 63X
  • Epi-illuminator: 12V/20W halogen lamp, transmitted illumination12V/50W halogen lamp, reflected illumination
Polarizing Microscope LMPM-807
  • Viewing Head: Sliding binocular head inclined at 30°C
  • Eye Piece: Plan Eyepiece WF10X/18Eyepiece WF10X/18 with cross hair
  • Nosepiece: Backward quadruple nosepiece, center adjustable
  • Objectives: Strain free plan achromatic objective 4X, 10X, 40X, 60X
  • Epi-illuminator: 6V/20W halogen lamp
Polarizing Microscope LMPM-802
  • Viewing Head: Binocular head inclined at 30°C
  • Eye Piece: WF10X/20Eyepiece WF10X/20 with cross hairEyepiece WF10X/20 with scale of cross hairGrid plate
  • Nosepiece: Backward quintuple nosepiece, center adjustable
  • Objectives: Objective 4X, 10X for transmitted / reflected systemObjective 20X, 40X, 60X for transmitted system
  • Epi-illuminator: 12V/50W halogen light source

Polarizing Microscope LMPM-804

  • Viewing Head: Sidentopf trinocular head inclined at 30°C
  • Interpupillary: 48-75 mm
  • Eye Piece: WF10X/22, with cross hair
  • Nosepiece: Backward quintuple nosepiece, center adjustable
  • Objectives: Strain free plan achromatic objective 4X, 10X, 40X, 100X,

Polarizing Microscope LMPM-808

  • Viewing Head: Sliding binocular head inclined at 45°C
  • Eye Piece: Plan Eyepiece WF10X/18Eyepiece WF10X/18 with cross hair
  • Nosepiece: Quadruple nosepiece, center adjustable
  • Objectives: Strain free plan achromatic objective 4X, 10X, 40X
  • Epi-illuminator: 6V/20W halogen lamp

Polarizing Microscope LMPM-801

  • Viewing Head: 30° Inclined
  • Objective: 5X/10X/20X/50X
  • Nosepiece: 5 Holes
  • Eyepiece: WF10X20
  • Light Source: 6V 20W And 12V 50W

Frequently Asked Questions

1 What is a Polarizing Microscope?

A Polarizing Microscope is an apparatus designed to use polarized light to observe and analyze specimens.

2 How does Polarizing Microscope work?

It works by passing polarized light through a specimen and analyzing the light interactions using an analyzer, helping to reveal properties like birefringence and optical orientation.

3 What type of specimens can be observed using Polarizing Microscope?

It is used to observe anisotropic materials such as crystals, minerals, polymers, and certain biological samples.

4 How is Polarizing Microscope used in forensic science?

It is used in forensic science to identify fibers, hair, glass fragments, and other trace evidence by analyzing their birefringent properties and refractive indices.

5 What is the role of Polarizing Microscope in material science?

In material science, it is used to study stress patterns, crystal orientation, and phase identification in metals, polymers, and composites.

6 How does Polarizing Microscope help in studying minerals?

It helps in studying minerals by allowing geologists to determine optical properties such as pleochroism, extinction angles, and interference colors, aiding in accurate mineral identification.

7 Can Polarizing Microscope be used in quality control of pharmaceuticals?

It is used in pharmaceutical quality control to examine crystallinity, polymorphism, and purity of drug substances by observing optical characteristics.

8 What role does Polarizing Microscope play in ceramics and glass analysis?

It plays a key role in ceramics and glass analysis by revealing microstructures, stress birefringence, and phase separation in transparent and semi-transparent materials.

9 How is Polarizing Microscope used in analyzing biological tissues?

It is used in analyzing biological tissues to detect birefringent structures such as collagen, muscle fibers, and starch granules, aiding in both research and diagnostics.

10 What role does Polarizing Microscope play in the paper and pulp industry?

In the paper and pulp industry, it is used to examine fiber orientation, filler dispersion, and birefringent contaminants, improving quality control.