The performance of an ink or toner is immediately apparent to the naked eye. The less visible aspects of ink and toner fine-tuning relate to a wide range of parameters from viscosity and surface tension to drying time, opacity and specific gravity – so comprehensive, flexibly customized measurement solutions are highly beneficial. Find the measuring instrument that meets your particular needs in the instrument list below – or let us help you find the best solution by contacting us directly.
Anton Paar Products
Abbemat 3X00 Compact Refractometers
Abbemat Performance and Performance Plus Line
Ball Mill BM500
Benchtop Raman spectrometers: Cora 7X00
Dynamic shear rheometer measuring head: DSR 502
Handheld density meter: DMA 35 Basic
Heated sample changer: Xsample 630
High Pressure Digestion: HPA-S High Pressure Asher
HTR Compact: Rheometer autosampler for high sample throughput
HTR: Rheometer automation for high sample throughput and complex sample handling
HTX: Measurement of viscosity, density, concentration of liquids, highly automated and expandable
Micro Combi Tester (MCT³)
Microindentation Tester (MHT³)
Microwave digestion system: Multiwave GO Plus
Microwave Digestion: Rotor 16HF100
Microwave Digestion: Rotor 16MF100
Microwave Digestion: Rotor 24HVT80
Microwave Evaporation: Rotor 8EVAP
Microwave extraction: Rotor 16SOLV HF100
Microwave extraction: Rotor 16SOLV MF100
Microwave-assisted Drying: Rotor 1DRY
Nano scratch tester: NST³
Nanoindentation tester: NHT³
p/T Sensor Accessory
Pin-on-disk tribometer: TRB³
Portable benchtop Raman spectrometers: Cora 5X00
Portable density meter: DMA 35
Pressure Sensor Accessory
Revetest® Scratch Tester (RST³)
Rheometer: MCR 102, MCR 302, MCR 502
Rheometer: MCR 72 and MCR 92
Rolling-ball viscometer Lovis 2000 M/ME
Rotational Rheometer: RheolabQC
Rotational Viscometer ViscoQC 100
Rotational Viscometer ViscoQC 300
Ultra nanoindentation tester: UNHT³
Vacuum Tribometer (VTHT / VTRB)
Anton Paar Applications
Concentration Measurement of Sodium Hydroxide Solutions by Refractive Index
The concentration of sodium hydroxide in water can be easily and quickly determined by refractive index measurement.
Improve Digestion Quality and Save Money – Microwave Digestion rules out Open Digestion
Reliable elemental analysis results need robust sample preparation to destroy sample matrices or to separate matrix from analytes. The sample preparation step is by far the most error-prone and critical step of the analytical procedure.
Refractive Index Measurement of Ionic Liquids
Ionic liquids are special designer solvents as they are nonvolatile and liquid at ambient temperature, leading to a wide range of applications. Their refractive index helps to control the quality and also to characterize them.
Have a Good Trip
Refractometers are widely used in the automotive industry, e.g. to control the quality of oils, chemical liquids and solids such as plastics and glasses.
Nanoindentation and Nanoscratch of Oxide Coatings on Thin Film Polymer Substrates
Nanoindentation approach to mechanical testing of extremely soft materials
Nanotribological properties of Diamond like carbon thin flexible films on ACM rubber
Spherical Nanoindentation of Polyacrylamide Hydrogels using the Bioindenter (BHT)
The Ultra Nanoindentation Tester: New generation of thermal drift free indentation
Identifying three different particle sizes in one sample with DLS
Particle suspensions often contain more than one size of particle. However, many particle analyzers cannot resolve particle mixtures, instead they detect an average of all sizes. The Litesizer™ 500 can detect three sizes in one sample.
Nanoparticles for Ceramics: Size, Stability & pH
In nanoparticle suspensions that will be used in ceramics, particle size and stability are of vital importance. Suspension stability is essential to ensure that the particles to stay in suspension, and maintain constant particle size.
Temperature-dependent GISAXS studies on thin films
The temperature-induced decomposition of a thin film structure has been studied using the SAXSpoint system with the new temperature-controlled GISAXS stage.
An insight into the Structure of Copolymer Surfactants
The structure of inhomogeneous (core-shell) nanoparticles was studied with the SAXSpoint system. The internal structure of Pluronic P123 micelles in water was determined by calculating the radial electron density profile.
SAXSpoint with MetalJet Source
SAXSpoint now integrates the high-brightness MetalJet X-ray source enabling ultra-fast SAXS measurements in the laboratory.
In-situ GISAXS heating experiments on self-assembled Gold nanoparticles
Thermal morphology changes of self-assembled Gold nanoparticles have been studied using the SAXSpoint system with the temperature controlled GISAXS stage.