Optical Microscopy and Mechanical Testing Laboratory
Objective
Optical Image Analyzer Leica DMLM
This instrument was intended for use in metallurgical laboratories, particularly for quality control of steel cleanness and other microstructure measurement, but its usefulness in other fields soon became apparent. Early applications in the biological field were measuring the size of air spaces in the lung (to quantify lung damage) and counting silver grains in autoradiographs.
The universal illuminator is the heart of the Leica DM LM incident light microscope. The BF (brightfield, interference contrast, polari- sation), DF (darkfield) and Smith (quantitative polarisation) reflectors and the fluorescence filter systems are easily and conveniently switched with the 4-position turret plate.
This instrument was intended for use in metallurgical laboratories, particularly for quality control of steel cleanness and other microstructure measurement, but its usefulness in other fields soon became apparent. Early applications in the biological field were measuring the size of air spaces in the lung (to quantify lung damage) and counting silver grains in autoradiographs.
The universal illuminator is the heart of the Leica DM LM incident light microscope. The BF (brightfield, interference contrast, polari- sation), DF (darkfield) and Smith (quantitative polarisation) reflectors and the fluorescence filter systems are easily and conveniently switched with the 4-position turret plate.
Equipment & Details
Optical Image Analyzer Leica DMLM
Equipment Name: Optical Image AnalyzerModel Names: A) Leica DMLM B) Leica DMRX
Company Name: Leica (Made In Germany)
Manufacturer details: Leica
Purchase source (funding): Indian Institute of Technology, Kharagpur
Order No:619/IIT/PO/F/EQ-161/(A)/CRF/05
Year of installation: August 2006
Sample Details
Sample Height: Maximum 30mm
Each and every type of sample
Each and every type of sample
Sample output of Optical Image Analyzer Leica DMLM:
Imprints of Indenter
Image is shown directly on the touch-display
Optical Microscopy and Mechanical Testing Laboratory
Location: NB / GF / 8, CRF
Facilitator: Prof. Koushik Biswas
Location: NB / GF / 8, CRF
Facilitator: Prof. Koushik Biswas
Prof. Koushik Biswas
Metallurgical & Materials Engineeringk_biswas@metal.iitkgp.ac.in
+91-3222-283244
Utility and Working Principle
What is Image Analysis?
Image Analysis is the science of making geometric and densitometic measurements on image from any source. Its main application is in quantitative microscopy, providing rapid, accurate and statistically significant data, replacing the traditional subjective methods.
Such measurements might be the volume fraction of various phases of an alloy or geological sample, the number and size distribution of contaminant particles filtered from air or hydraulic fluid, or the distribution of integrated optical density in the nuclei of stained cells.
Image Analysis first appeared as a readily available technique in 1963 with the introduction of the QTMA (Quantitative Television Microscope), designed by Metals Research Ltd., later to become part of Leica. This instrument was intended for use in metallurgical laboratories, particularly for quality control of steel cleanness and other microstructure measurement, but its usefulness in other fields soon became apparent. Early applications in the biological field were measuring the size of air spaces in the lung (to quantify lung damage) and counting silver grains in autoradiographs.
Since then, the techniques of image analysis have been applied in almost every field of science and technology from Anatomy through to Zoology, and have expanded to include image processing functions such as image filtering and enhancement.
What is Leica QWin?
QWin is Leica's Image Processing and Analysis toolkit running under the industry standard Microsoft Windows environment.
Note : If you are new to the windows operating system then we recommend that you learn the use of the Windows environment before attempting to use QWin.
Leica QWin provides several classes of measurement ranging from interactive manual measurement of objects to fully automated 'Hands-off' analysis. Examples are :
Planimetry of Length, Distance and Area
Phase percent, Area Fraction and Volume Fraction
Calibrated Densitometry
Particle shape and size analysis
UHL-VMHT (VICKERS MICROHARDNESS TESTER)
The denotation "Micro hardness" derives from the field of hardness determination by means of an indenter entering the material to be tested with a specific load and dwell time. After removing the indenter, the produced imprint is measured and the "hardness number" calculated.
Image Analysis is the science of making geometric and densitometic measurements on image from any source. Its main application is in quantitative microscopy, providing rapid, accurate and statistically significant data, replacing the traditional subjective methods.
Such measurements might be the volume fraction of various phases of an alloy or geological sample, the number and size distribution of contaminant particles filtered from air or hydraulic fluid, or the distribution of integrated optical density in the nuclei of stained cells.
Image Analysis first appeared as a readily available technique in 1963 with the introduction of the QTMA (Quantitative Television Microscope), designed by Metals Research Ltd., later to become part of Leica. This instrument was intended for use in metallurgical laboratories, particularly for quality control of steel cleanness and other microstructure measurement, but its usefulness in other fields soon became apparent. Early applications in the biological field were measuring the size of air spaces in the lung (to quantify lung damage) and counting silver grains in autoradiographs.
Since then, the techniques of image analysis have been applied in almost every field of science and technology from Anatomy through to Zoology, and have expanded to include image processing functions such as image filtering and enhancement.
What is Leica QWin?
QWin is Leica's Image Processing and Analysis toolkit running under the industry standard Microsoft Windows environment.
Note : If you are new to the windows operating system then we recommend that you learn the use of the Windows environment before attempting to use QWin.
Leica QWin provides several classes of measurement ranging from interactive manual measurement of objects to fully automated 'Hands-off' analysis. Examples are :
Planimetry of Length, Distance and Area
Phase percent, Area Fraction and Volume Fraction
Calibrated Densitometry
Particle shape and size analysis
UHL-VMHT (VICKERS MICROHARDNESS TESTER)
The denotation "Micro hardness" derives from the field of hardness determination by means of an indenter entering the material to be tested with a specific load and dwell time. After removing the indenter, the produced imprint is measured and the "hardness number" calculated.