euromex RF.6381 Science Dealing Gemological Refractometer User Manual
- June 4, 2024
- euromex
Table of Contents
Gemmological refractometer
RF.6381
RF.6381 Science Dealing Gemological Refractometer
user manual
Introduction
With your purchase of a Euromex hand refractometer, you have chosen a quality product. The Euromex hand refractometers are developed for use in laboratories and in the food industry The maintenance requirement is limited when using the refractometer in a decent manner This manual describes the construction of the refractometer, how to use the refractometer and maintenance of the refractometer
General safety instructions
- This product is a high-quality optical instrument. Delicate handling is required
- Impacts, even small ones, can affect the precision of the device
- Keep the device and its optics clean for maximum performance
- Precautious should be taken with the samples; substances under observation may be a risk to the health of humans and other living organisms or the environment
Construction of the RF.6381
The names of the parts are listed below and are indicated in the picture on
page 2:
A | Cover lid | C | Eyepiece |
---|---|---|---|
B | Prism surface | D | Attachable polarizing filter in metal mount |
Optical design of the refractometer
A | Prism | E | Reflection mirror |
---|---|---|---|
B | D-Line (Fraunhofer line) filter | F | Eyepiece |
C | Relay lens | G | Field of view |
D | Refractive index scale |
Specifications of the refractometer RF.6381
Measuring range: 1.30 -1.81 R.I. (Refractive Index), accuracy 0.01
Filter: Built-in 590 nm. Accessories:
Detachable polarization filter for eyepiece
Preparing the refractometer for use
Remove the packaging and put the refractometer on a flat surface. Sit
comfortably down behind the refractometer and take a relaxed position while
looking through the eyepiece
Working with the refractometer
Caution! Always use immersion fluid between the gem and the prism and
never touch the prism with a tool or forceps
The prism used in the refractometer must have a higher refractive index than
the index of the jewels to be measured. Accordingly, this prism is made of
lead glass including a large quantity of lead oxide. This makes the prism soft
and corrodible
Open the cover of the instrument and softly wipe off the prism with lens
paper. Put a drop of the immersion fluid onto the surface of the prism. After
having cleaned the gem you want to be measured, carefully place it into the
drop of the immersion fluid
Direct the filter window on the back of the instrument towards a light source
and look through the eyepiece. You will see the borderline between bright- and
darkfield in the field of view. At this point, the refractive index can be
observed
If the measured jewel has a mono-refractive index, you see a spectrum as
borderline, but if the jewel has a double-refractive index you will see two
spectrums on the borderline in the field of view
C Critical angle of refraction between prism and jewel
B Brigh tfield by reflection
D Dark field by refraction
L Borderline divide brightfield and dark field which appears in the field of
view through the eyepiece
Maintenance and cleaning
The instrument can be cleaned with a soft cloth. The optical parts like prism
and polarizer/analyzer can be cleaned with special lens papers
Caution: Cleaning cloths containing plastic fibers can damage the prism!
Refractive index table for jewels
Name of jewel| | REFRACTIVE INDEX|
---|---|---|---
Double index| Mono index| Double index
Almandite| | 1.800 (±0.030)|
Amblygonite| 1.612| | 1.636
Anatase| 2.493| | 2.554
Andradite G| | 1.875 (±0.020)|
Andulusite| 1.634(±0.006)| | 1.643 (±0.004)
Apatite| 1.642 (+0.003 /-0.012)| | 1.646 (+0.005 / -0.014)
Augelite| 1.574| | 1.588
Azinite| 1.678| | 1.688
Azurite| 1.730 (±0.010)| | 1.840 (10.010)
Benitolte| 1.757| | 1.804
Beryl| 1.577 (±0.016)| | 1.583 (±0.017)
BrasIllannIte| 1.602| | 1.621
Cassiterite| 1.997| | 2.093
Chrysoberyl| 1.746 (±0.004)| | 1.755 (0.005)
Corundum| 1.762 (±0.007)| | 1.770(x0.008)
Dambrlte| 1.630(x0.003)| | 1.636 (±0.003)
Datollte| 1.626| | 1.670
Diamond| | 2.417|
Diopside| 1.675 (+0.027 / -0.010)| | 1.701 (+0.029 / -0.007)
Dioptase| 1.655 (±0.011)| | 1.708 (±0.012)
Dumortierite| 1.678| | 1.689
Ekanite| | 1.59/|
Enstatite| 1.658 (±0.005)| | 1.668 (±0.005)
Epidote| 1.729 (+0.006 / -0.015)| | 1.768 (+0.012 / -0.035)
Euclase| 1.654(x0.004)| | 1.674(±0.004)
Gahnite| | 1.800|
Gahnospinel| | 1.760 (10.020)|
Grossularite| | 1.735 (±0.015)|
Idocrase| 1.713 (±0.012)| | 1.718 (±0.014)
Mate| 1.654| | 1.667
Name of jewel| | REFRACTIVE INDEX|
---|---|---|---
Double index| Mono index| Double index
Jet| | 1.660 (±0.020)|
Kyanite| 1.716) ±0.004)| | 1.731(±0.004)
Lazu-lite| 1.612| | 1.643
Marcasite| 1.660| | 1.910
Nephrite| 1.606| | 1.632
Odontolite| 1.600 (±0.030)| | 1.620 (±0.020)
Painite| 1.787| | 1.816
Perldot| 1.654 (±0.020)| | 1.690 (±0.020)
Phenakite| 1.654 (+0.017 /-0403)| | 1.670 (+0.026 / 0.004)
Prehnite| 1.615| | 1.646
Pyrope| | 1.746 (+0.010/-0.026)|
Rhodelite| | 1.760 (±0.010)|
Rhodizite| | 1.690|
Rhodnite| 1.730| | 1.740
Rhodochrosite| 1.597| | 1.817
Scheelite| 1.918| | 1.934
Sillimantite| 1.659| | 1.680
Sinhalite| 1.668 (±0.003)| | 1.707 (±0.003)
Smithsonite| 1.621| | 1.849
Spessartite| | 1.810 (*two)|
Sphalerite| | 2.370|
Spinel| | 1.718 (+0.044 / -0.006)|
Spodumene| 1.660 (±0.005)| | 1.676
Staurolite| 1.735| | 1.746
Stibiotantalite| 2.380| | 2.450
Taafeite| 1.719| | 1.723
Titanite| 1.900 (10.018)| | 2.034 (10.020)
Topaz| 1.619 (±0.010)| | 1.627 (±0.010)
Tourmaline| 1.624 (±0.005)| | 1.644 (±0.006)
Turgois| 1.610| | 1.650
Verdite| | 1.580|
Willemite| 1.690| | 1.720
Zincite| 2.013| | 2.029
Zlosite| 1.700| | 1.706
Zircon (H)| 1.927| | 1S84
Zircon (1.)| 1.810 (10.020)| | 1.815 (t0.020)
Zircon (M)| 1.875 (±0.045)| | 1.905 (±0.075)
Euromex Microscopen by • Papenkamp 20 • 6836 BD Arnhem • The Netherlands T +31
(0) 26 323 22 11 • info@euromex.com •
www.euromex.com
All information may be changed without prior notice v.124281
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