Spectral transmittance and reflectance with UV-Vis (liquid samples)
This measurement determines the spectral transmittance or reflectance of a liquid sample. Based on these properties, the absorbance can be calculated.
The wavelength spectrum is from 210 - 380 nm for UV radiation and 380 - 780 nm for visible light. Translucent and opaque liquids can be analyzed.
More information about the method:
UV-visible spectroscopy (UV-VIS)- Suitable sample matrices
- Transparent or opaque liquids
- Required sample quantity
- 50 ml
- Typical turnaround time
- 4 weeks after receiving the samples
- Available quality systems
- Accredited test method
- Device types
- Method expert
Price
Typical price (Excl. VAT):
273 €per sample
We also charge a 97 € service fee per order.
Large batches of samples are eligible for discounts.
Questions? We're happy to help.
Questions? We're happy to help.
Business hours: Mon–Fri 9 AM – 5 PM Finnish time (EET/EEST)
Other tests we offer
Diesel exhaust fluid (e.g. AdBlue) testing according to ISO 22241
ISO 22241-1
Diesel exhaust fluid (DEF) is an additive used in diesel-powered vehicles to help the catalytic reduction of nitrous oxides. Thus, the use of AdBlue and other exhaustive fluids improves ambient air quality. DEF testing package according to ISO 22241:2019 includes the measurements listed below: Urea content (ISO 22241-2C), Density at 20 °C (EN ISO 12185) , Refractive index at 20 °C (ISO 22241-2C), Alkalinity as NH3 (ISO 22241-2D), Biuret (ISO 22241-2E), Aldehydes (ISO 22241-2F), Insoluble matter (ISO 22241-2G), Phosphate (ISO 22241-2H), Determination of Al, Ca, Cr, Cu, Fe, K, Mg, Na, Ni, and Zn content (ISO 22241-2I).
315 €
Read moreColor fastness of dyed paper and board in contact with food
EN 646
This test is used to evaluate the color fastness of dyed or printed paper or board that is intended to come into contact with food. The applied simulants are Olive oil, 3% acetic acid, Alkaline salt solution (saliva simulant), Distilled water. Color transfer is assessed against a greyscale according to standard EN 646.
178 €
Read moreXRR of thin films or coatings
X-Ray Reflectometry (XRR) analysis is used to measure the density (g/cm3), thickness (nm), and roughness (nm) of thin films. The method is applicable to the characterization of single- or multilayered thin films, as it provides information on the thickness and density of individual layers of the sample material as well as the roughness of the interphases. Greatest accuracy for XRR thickness measurements is generally achieved for samples containing 1-200 nm thick surface layers with under 5 nm RMS roughness. Thicker films and coatings with rougher surfaces can also be characterized, but the accuracy of thickness determination decreases as the thickness and roughness of the film or film stack increase. >150 mm wafers are typically cut to fit the sample holder. Please let us know if you need testing for larger wafers that cannot be cut into pieces. The available temperature range for XRR measurements is 25-1100 °C, and crystallinity can be studied as a function of temperature. The measurements can be performed under a normal atmosphere, inert gas, or vacuum. Measurements are typically performed using one of the following instruments: Rigaku SmartLab, Panalytical X'Pert Pro MRD, Bruker D8 Discover. Please let us know if you have a preference for a specific instrument.
183–271 €
Read moreLinear thermal expansion of solids with a rod dilatometer
ASTM E228
A dilatometer is used to determine the linear thermal expansion of a material as a function of temperature. The temperature range of the measurement is generally between 25 °C and 1,600 °C. There is also an option to perform the test in a cryogenic atmosphere, which ranges from -175 °C to 300 °C. The typical heating rate is 3 °C/min. As a result of the measurement, you will get the coefficient of thermal expansion (CTE) and the absolute change in sample length, both as a function of temperature. The testing can be performed in various atmospheres, including air, argon, CO2, N2, and O2. Please contact us to get a quote. The price will depend on the testing conditions, so please specify them as precisely as possible.
Read more
Peroxide value of food and feed
ISO 3960
The peroxide value (PV) measures hydroperoxides formed as a result of the autoxidation of unsaturated fatty acids in food and feed products. Accumulation of autoxidation products affects sensory quality and is potentially harmful to human and animal health, making PV an important quality indicator in the food industry. Autoxidation reactions occur at different rates during the manufacturing, storage, and use of food and feed, but are generally sped up with elevated temperatures and exposure to light. This method includes an extraction step, after which the determination of peroxide value is performed on the extracted fat or oil. The method is suitable for all food and feed products that contain fat.
60 €
Read moreOxygen transmission rate (OTR) of packages
ASTM F1307
This test is designed to measure the oxygen transmission rate of finished packages, including cups, bottles, trays, and containers. Two replica measurements are included in the displayed price. Temperature can be adjusted from 15 to 55 °C, and relative humidity can be either 0% or between 5 and 90% RH. This test is not suitable for films. Please see the oxygen transmission rate (OTR) of films and sheeting if you need testing for film samples. Please specify the sample dimensions and testing conditions upon ordering.
745 €
Read moreGasoline testing package according to EN 228 standard
EN ISO 12185, EN ISO 20846, EN ISO 2160, …
Standard EN 228 outlines the testing requirements and methods for gasoline quality testing. The following tests are included in the package: Standard Parameter Requirements EN ISO 5164 RON Min. 95 EN ISO 5163 MON Min. 85 EN 237 Lead content Max. 5 mg/l EN ISO 12185 Density at 15 °C 720–775 kg/m3 EN ISO 20846 Sulfur content Max. 10 mg/kg EN 16136 Manganese content Max. 2 mg/l EN ISO 7536 Oxidation stability Min. 360 minutes EN ISO 6246 Washed gum content Max. 5 mg/100ml EN ISO 2160 Copper corrosion Class 1 ASTM D4176 Appearance Bright and clear EN ISO 22854 Hydrocarbon composition Benzene max. 1 v%, aromatics max. 35 v%, olefins max. 18 v%, oxygenates* EN 13016-1 Vapor pressure at 37.8 °C (DVPE) Depends on volatility class** EN ISO 3405 Distillation characteristics Final boiling point max. 210 °C, distillation residue max. 2 v%, evaporated volumes*** * For gasoline with max. 3.7 m% of oxygen, allowed oxygenate contents are methanol 3 v%, ethanol 10 v%, iso-propanol 12 v%, iso-butanol 15 v%, tert-butanol 15 v%, ethers with five or more carbon atoms 22 v%, and other oxygenates 15 v%. For gasoline with max. 2.7 m% of oxygen, allowed oxygenate contents are methanol 3 v% and ethanol 5 v%. ** For volatility class A: 45–60 kPa, B: 45–70 kPa, C: 50–80 kPa, D: 60–90 kPa, E: 65–95 kPa, and F: 70–100 kPa *** Percentage evaporated at 70 °C (E70): winter 22–50 v%, summer 22–48 v%, at 100 °C (E100): 46–71 v%, and at 150 °C (E150): min. 75 v%
2,171 €
Read moreFerric carboxymaltose characterization with synchrotron X-ray methods
This testing package combines several synchrotron-based X-ray techniques to characterize intravenous ferric carboxymaltose products in accordance with US Food and Drug Administration (FDA) and European Medicines Agency (EMA) guidance, which require the manufacturer to demonstrate that the tested product is of similar quality to an already approved reference product. Synchrotron measurements are used instead of conventional ones to ensure the necessary signal-to-noise ratio and resolution for highly disordered and/or nanoscale materials. The following analyses are included: Determination of iron species' oxidation states (e.g., Fe3+), coordination geometry, electronic structure, and qualitative identification of the local chemical environment with XANES (X-ray absorption near edge structure)., Quantitative local atomic structure, including neighbouring atom types, coordination numbers, bond distances, and structural disorder with EXAFS (extended X-ray absorption fine structure)., Identification of the precise polymorphic form of the core (e.g., akaganeite-type FeOOH) and calculation of unit cell parameters and crystallite dimensions with HR-XRPD (high-resolution X-ray powder diffraction) & PDF (pair distribution function)., Measurement of distinct length-scale regimes to distinguish the crystalline inner core size from the total particle dimensions, with possible sensitivity to the amorphous surface layer with SAXS (small-angle X-ray scattering) & PDF., Evaluation of the overall shape of nanoparticles with SAXS to confirm whether the scattering bodies are compact, elongated, or branched.. The results are compiled into a single test report that correlates findings across the different techniques and compares them with the expected reference parameters.
Read more
Biomass molecular weight analysis (SEC/GPC)
The molar mass distribution of biomass samples soluble in pure water or organic solvents (DMF, DMSO, and THF) is measured using size exclusion chromatography with a refractive index detector (SEC-RID). The system is calibrated with polystyrene and dextran standards. A Pullulan standard is also available upon request. In the case of lignin samples, molar mass distribution is analyzed using SEC coupled with an ultraviolet detector at 256 nm wavelength. The lignin is dissolved in a suitable solvent before analysis, and the SEC system is calibrated with a polystyrene sulfonate standard. A borate buffer is used to set the pH for the eluent. The weight-average molecular weight (Mw) and number-average molecular weight (Mn) are reported. For absolute molecular weight, a GPC system coupled with a multi-angle light scattering (MALS) detector can be used. The mobile phase for this system is THF. An additional cost applies to this method.
335–554 €
Read morePowder flowability characterization
ASTM D6393
Determination of powder flowability index (Carr index) according to the ASTM D6393 standard for bulk solids characterization. The analysis is performed with the Hosokawa Powder Tester and includes the measurement and calculation of the following parameters: Angle of repose, Aerated bulk density, Packed bulk density, Compressibility, Angle of spatula, Cohesiveness/Uniformity. The Carr Index of Flowability is calculated based on these parameters and expressed as a number between 0 and 100, with higher numbers indicating better flowability. The results from the individual tests will also be reported. Test conditions, including temperature and relative humidity, can be tailored to match the sample material's typical processing environment. A floodability analysis, which is the tendency to act like a liquid when there is air between the particles, can also be performed. Contact us for more information and to request a quote.
662–850 €
Read more”Whenever we need something a bit more special than the basic analyses, we turn to Measurlabs.”
Päivi Isomäki, Head of Quality & IT, Pharmia Oy
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