Density measurement

Density measurement

The density can be used to characterize substances, determine their quality or purity and measure concentrations in binary or quasi-binary mixtures. Density determination is also an important means of checking the identity of raw materials and pure substances.

There are different methods for measuring density:

The hydrometeris inexpensive, but difficult to read with high viscosity or dark samples and very fragile. In addition, a sample volume of at least 100 ml is required, and the maximum measurement accuracy of 0.001 g/cm³ requires lengthy, precise temperature control.
The pycnometer – a glass vessel originally known as a “density vial” with a very precise and reproducible internal volume – is used for the measurement of the gravimetric density. The measurement is complex, time-consuming and requires qualified specialists.
Our easy-to-handle density meters measure using U-tube oscillators. These deliver reproducible, fast results, precise temperature control and require a maximum sample volume of 1 ml.

Contents

Dichtemessung Biegeschwinger-Informationen

U-Tube Oscillator

This method takes advantage of the fact that the oscillation frequency of a body is a function of its mass. A U-shaped capillary is filled with the liquid sample and piezoelectric or magnetic oscillations are induced. The mass and thus the density of the sample can be calculated from the resulting eigenfrequency of the U-tube oscillator. Density meters using the oscillating U-tube method allow a highly accurate measurement and require a small sample volume and produces quickly results.

Dichte-Bezeichnung Buchstaben ρ (Rho)

Density as a value parameter of a sample

Density is a characteristic parameter and describes the ratio of mass (m) to volume (V). It is specified in g/cm³ or kg/m³. Briefly saying: density indicates the spatial proximity of the molecules of a substance. The Greek letter Rho “ρ” is generally used as an abbreviation for density. For example, the density of ultrapure water at 20.00 °C = 0.998203 g/cm3.

Fachinformation Binäre-Systeme Dichte

Binary systems

Density measurement is also often used to determine the concentration of liquid mixtures. This applies strictly to binary mixtures, also known as binary systems. Comprehensive data tables of concentrations are stored in the DS7800. So it is easy to obtain a direct reading of the concentration. However, density is also one of the most important reference parameters when analyzing complex solutions such as beer or fruit juices.

How does a density meter work?

Density measurement with the U-tube oscillator method

The U-tube oscillator method is used to measure the density of liquids. The sample is filled into a U-shaped transducer, which is electronically excited to oscillate at its proper frequency. The resonant frequency of the U-tube changes depending on the density of the sample filled in. The density is therefore determined by measuring the resonant frequency. Generally speaking: the mass of the sample is proportional to the frequency.

The temperature of the sample is one of the most important influencing variables for a high-precision measurement, which is why the measuring cell must be very precisely tempered. Other influencing factors are: Properties of the liquid to be measured, such as viscosity and compressibility, homogeneity and sedimentation properties as well as specific heat and thermal conductivity.


Watch density measurement video

Temperature and density
In many cases, the higher the temperature, the higher the volume and the lower the density, it decreases. If the temperature drops, the volume also decreases and the density increases. There is no effect on the mass of the substance.

Temperature is important because it influences how much space atoms take up in a molecule. Oscillations become stronger as the temperature rises, causing the atoms to move away from each other, which in turn leads to a lower density value. A change of 0.1 °C means a deviation in the measured value of 0.0001 g/cm³ to 0.0003 g/cm³.

Liquid water behaves slightly differently: the density of water is highest at 4°C and then drops again as the temperature continues to fall to 0°C.

Gute Probenvorbereitung garantiert präzise Dichte-Messungen

Wussten Sie, dass eine Luftblase mit 1 mm Durchmesser in einer Probe einen Fehler von 0,000052 g/cm³ im Messergebnis verursachen kann? Mit dem bloßen Auge häufig kaum erkennbar sind Kleinstblasen oder Luftpolster. Diese können durch unzureichende Benetzung der Zelle entstehen. Auch in dunklen Proben sind Blasen kaum sichtbar. Wenn Sie sich über Ihre Ergebnisse sicher sein wollen, führen Sie mehrere Vergleichsmessungen durch und nehmen Sie den Mittelwert.

Außerdem empfehlen wir das System Ihres Dichtemessgerätes täglich zu überprüfen. Dies geschieht am besten durch die Messung einer Probe mit genau bekannter Dichte, z. B. destilliertes Wasser (0.998203 g/cm³ bei 20°C) oder einem Standard. 

Probenvorbereitung in der Übersicht

Dichtemessung Beispiel-Cremes,Shampoos,Seifen,Honig

Viskose Proben

Bei Cremes, Shampoos, Seifen oder Honig besteht die Herausforderung zu verhindern, dass die Probe beim Einführen in die Messzelle Luftblasen enthält. Wir empfehlen hierfür die Probe in einem geschlossenen Gefäß zu erwärmen und vor der Messung ein paar Minuten stehenzulassen. Dadurch nimmt die Viskosität der Probe ab, Luftblasen können sich leichter auflösen.

Dichtemessung Kraftstoff Beispiel-Benzin

Flüchtige Proben

Proben mit der Tendenz zum Entgasen sind z. B. Winterkraftstoff, der gelöstes Butan enthält. Hier kommt es häufig, aufgrund der Probenentgasung, zur Luftblasenbildung. Wir empfehlen, derartige Proben in Kühlschrank zu lagern und bei niedrigeren Temperaturen (unter Raumtemperatur) zu messen, da die Löslichkeit eines Gases in einer Flüssigkeit mit sinkender Temperatur steigt.

Dichtemessung-gelöste-Gase-Beispiel-Softdrink

Proben mit gelösten Gasen

Beim Messen von kohlensäurehaltigen Erfrischungsgetränken mit gelösten Gasen müssen diese vor der Messung entgast werden. Andernfalls sind die erzielten Ergebnisse inkorrekt. Wir empfehlen ein Umrühren der Proben (mehrere Minuten) bis die Blasenbildung aufhört. Alternativ kann die Probe auch durch einen Papierfilter gegeben werden.

Dichtemessung-Inhomogene-Proben-Suspensionen-Beispiel-Farbe

Inhomogene Proben/Suspensionen

Wenn Suspensionen wie Mörtel oder Beton (mineralische Suspensionen), Tusche, Wandfarben für eine gewisse Zeit stehengelassen werden, können sich feste Materialien absetzen oder es bildet sich ein Konzentrationsgefälle. Diese Proben sollten vor dem Messen umgerührt werden. Bitte immer sicherstellen, dass beim Rühren keine neuen Luftblasen in die Probe gelangen.

Dichtemessung-Cremes-Ketchup

Anspruchsvolle Proben und Mittelwertmessungen

Bei Proben wie z.B. Ketschup oder Cremes ist eine vollständige Homogenisierung häufig nicht möglich. Zudem ist der Eintrag von Luftblasen während der Messung nicht immer vermeidbar. 

In diese Fällen empfehlen wir für zuverlässige Messwerte die Messungen mehrmals zu wiederholen und einen Mittelwert der einzelnen Messungen zu berechnen.

Samples and measured values

Density is an important reference value

As a basic physical parameter, density is an important reference value for many other parameters and conversions in everyday laboratory work.

Density identifies substances in terms of their quality and purity. Particularly important: it enables highly accurate concentration and content measurements.
In close cooperation with industry and science, we have developed easy-to-operate, robust density meters with oscillating glass measuring cells that meet high requirements in terms of accuracy, speed and required sample volume. We offer suitable density meter sets for every working method and depending on the type of sample or accuracy requirements.

Please feel free to find out more: In our table you will find an alphabetically sorted overview of typical samples and substances for your orientation. For most data, 3 decimal places of the density in g/cm³ at a reference temperature of 20 °C are recorded.


Overview of samples for density measurement

Standards and guidelines

Density measurement according to standards and guidelines

Standards in metrology describe terms, measurement methods and units of measurement. However, standards also regulate networking by standardizing interfaces, communication and secure data transmission. They enable a quality agreement for standards and tolerances. Although not legally binding, normative action is associated with a high degree of legal certainty for the user. It facilitates the selection of devices and thus ensures the company’s own processes and product quality.

Density meters are also designed and used in accordance with standards. Standards in density measurement regulate the environmental conditions and sample preparation as well as measurement tolerances, measurement conditions and properties of a device or calibration medium under the aspect of “best practice”. Those who use density meters in accordance with standardized specifications can ensure that measurements are correct and reproducible.

Note:This is a general overview of the standards. We can also discuss which specifications the different density meter models from A.KRÜSS meet in a personal consultation. Please feel free to contact us.


Overview of standards for density measurement

Typical areas of application

Density measurement is used in many industries

Based on the measured density, different parameters of samples can be calculated. In quality control, density is used to check whether a product is within defined limits or not.

In conjunction with other methods such as refractometry (determination of the refractive index), density measurement also allows precise statements to be made about quality at every stage of the production process. For example, it is possible to indirectly determine the flow characteristics of ketchup, analyse rubber mixtures of car tyres or determine asphalt mixtures.

Find out more: In our overview, we have listed various application examples with typical measuring substances. The various requirements and standards are also listed. We have also noted recommended density meters. This summary is intented to give you a guide. We can also discuss which devices are suitable in a personal consultation.


Typical applications

Cleaning tips

The most common reason for incorrect measurement results is incorrect cleaning

Make sure that the measuring cell does not contain any residues from previously measured samples or rinsing solutions. Deposits from previously measured products cannot always be seen. If, for example, products containing oil or grease are measured, a very thin film of oil can be deposited on the measuring cell. For this reason, immediate cleaning and subsequent control measurement after the measurement is particularly important. Depending on the sample measured, a suitable solvent must be selected for cleaning. It may make sense to clean with two different solvents in order to save time during the subsequent drying process. This can be particularly important when operating an autosampler. Replacing previous samples with a new one is also a frequently used and time-saving Application.

Cleaning: The U-tube oscillator is flushed with the appropriate medium using a syringe or peristaltic pump. All you have to do is press a button and the drying unit removes all liquid residues. Cleaning processes with semi-automatic or fully automatic drying can also be configured.

Tip: A test measurement can be used to determine whether the U-tube oscillator is clean and dry. Dry air at 20 °C and normal air pressure should give a measured value of approx. 0.0012 g/cm³.


Watch cleaning video


Complete overview of cleaning agents & tips

Zur Reinigung wird der Biegeschwinger via Spritze oder Schlauchpumpe mit dem passenden Medium durchgespült. Danach genügt ein Tastendruck, und die Trocknungseinheit beseitigt alle Flüssigkeitsreste. Außerdem lassen sich Reinigungsprozeduren mit halb- oder vollautomatische Trocknung konfigurieren.

Tipp: Ob der Biegeschwinger sauber und trocken ist, kann mit einer Testmessung ermittelt werden. Trockene Luft weist bei 20 °C und mittlerem Luftdruck (1013.25 hPa) einen Messwert von 0,0012 g/cm³ auf.

Probe Reinigungsmittel 1 Reinigungsmittel 2
Branche: Lebensmittel, Getränke und Spirituosen
Fruchtsäfte, Orangensaft, Wasser Ethanol
Softdrinks Wasser Ethanol
Salatdressing, Mayonnaise Waschbenzin Ethanol
Bier, Bierwürze Wasser, enzymatischer Laborreiniger (3 % Mucasol) Ethanol
Spirituosen Ethanol
Branche: Chemie, Kosmetik, Pharmaindustrie
Aromen, Duftstoffe, Parfüm Ethanol, Isopropanol _
Shampoo Wasser Ethanol
Reinigungsmittel, Flüssigseife Wasser Ethanol
Sonnenmilch Waschbenzin Ethanol
Polyamide, Polymere Kresol
Wachs, Parafine Toluol Xylol, Waschbenzin
Holzschutzmittel auf
Terpentinbasis
Waschbenzin Ethanol
Holzschutzmittel auf Wasserbasis Wasser Ethanol
Branche: Petrochemie
Motoröl, Schmieröl Waschbenzin Aceton
Bremsflüssigkeit (Ethylenglykol) Xylol _
Diesel, Kerosin, Flugbenzin, Heizöl Waschbenzin, Petrolether Aceton

Automation of the density measurement

With our DS7000 series density meters, the entire measuring process from sample removal to cleaning and drying can be carried out semi-automatically or fully automatically and without manual intervention.

With full automation, measurements can be user-independent, overnight, or on weekends. This increases productivity and reduces costs per measurement.

In the fully automatic solution, the density meter is supplemented by an integrated sample pump and an autosampler. Individual settings for measurements can be summarized in methods via the density meter’s user interface and any number of cleaning processes and sample templates can be created. This enables the unattended measurement of up to 89 samples with small space requirement for automated density measurement.

How to Use

Perform density measurement

Density meters that measure according to the U-tube oscillator principle are characterized by their ease of use. Their use is worthwhile for just a few samples a day, but the devices are also well suited for quick routine measurements with larger numbers of samples. Application and cleaning is easy, see for yourself in our videos. Learn all about measuring with the U-tube oscillator method, with manual, semi-automatic and automatic sample supply and details on easy cleaning.

Density measurement cleaning & measuring

2 Videos
How does a density meter work?

How does a density meter work?

0:16
Density measurement - Measuring and cleaning

Density measurement – Measuring and cleaning

0:16

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Dichtemessung Übersicht Anwendungsbereiche HerunterladenVorschau
Dichtemessung Übersicht Normen Richtlinien HerunterladenVorschau
Übersicht Proben Dichtemessung HerunterladenVorschau
Dichtemessung Krüss-Reinigungstipps HerunterladenVorschau
Broschüre Dichtemessgeräte HerunterladenVorschau

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