Thermal processing of advanced ceramic and metal powders is dominantly performed, due to its inherent characteristics, in a Rotary tube furnace. Rotary furnaces are known to be the preferred processing unit for flowable powdered or granular materials. The Rotary tube furnace, under the proper conditions, will be significantly more energy efficient than the pusher tunnel furnace, even at operating temperatures up to 3000°C.
Product designers and engineers have a number of prototyping options available, each with its...
Rotary furnaces are the go-to technology for high temperature processing of powdered materials....
Designing for energy efficiency when producing materials such as Carbon Fiber at high...
Success of process development is often influenced by decisions made early in the evaluation process. These decisions may later preclude certain equipment options that make the difference in quality or efficiencies of the commercial scale product.
A new white paper from Decision Lens teaches how world-class innovation teams create standard frameworks to evaluate and prioritize the strategic investments that deliver the highest returns on investment, streamlining and accelerating the R&D portfolio planning process.
In a new white paper from Carl Zeiss Microscopy, scientists from DME Nanotechnologie GmbH and Zeiss demonstrate the power of the AFM/SEM combination found in the Zeiss Merlin series microscopes for the analysis of helium ion beam exposed nanostructures.
Oxford Gene Technology (OGT), a provider of genetics research and biomarker solutions to advance molecular medicine, has produced a new white paper that is designed to help researchers looking to develop next-generation sequencing strategies. It covers resequencing, methods suitability, data analysis and time and cost considerations.
HEPA filter loading can compromise a biological safety cabinet's ability to maintain proper airflow. This white paper, by Labconco Corp., will review the current technologies used by various biosafety cabinet manufacturers to monitor and maintain proper airflows as HEPA filters load.
Characterization of the chemical composition of fibers is of high importance in both forensic science and the textile industry. As demonstrated by Bruker Optics in a recent white paper, the Fourier transform infrared (FT-IR) imaging capabilities of the LUMOS microscope, which require minimal sample preparation, are suitable for this type of analysis.
Bruker’s LUMOS microscope is equipped with a motorized attenuated total reflectance (ATR) germanium objective that is highly suitable for analysis of dark samples without the need for preparation. In this white paper from Bruker Optics, the analysis of dark streaks on a polycarbonate sample is simplified through the use of automation procedures.
As electronic devices get smaller, they are becoming more vulnerable to contamination through the presence of impurities. Using a Fourier transform infrared (FT-IR) microscope such as Bruker Optics’ LUMOS, contaminations in the low micrometer range can be identified. In this white paper, Bruker demonstrates how FT-IR can be used to determine surface contamination on the soldering contact of a surface mounted device.
Modeling and simulation tools can help researchers understand and optimize the design of lithium-ion batteries.
Bruker Optics presents recent white papers on analytical application methods using its line of Fourier transform infrared spectrometers and optical microscopes. Industrial applications include materials analysis, pharmaceutical process control, and environmental health.
Traditionally, content uniformity analysis for tablets has been performed off-line by liquid chromatography. Performed in batches, this approach is time-consuming. A new spectroscopy-based system called TANDEM, as detailed by Bruker Optics in a white paper, combines Bruker’s Matrix Fourier transform near-infrared spectrometer with a Dr. Schleuniger Pharmatron 10X conventional tablet tester to enable rapid, on-line, non-destructive tablet content uniformity characterization along with moisture and excipient analysis.
Modern forensics demands solutions that can analyze wide variety of materials and samples, both organic and inorganic. In a white paper, Bruker Optics discusses the ability of its Hyperion infrared microscope and Senterra Raman microscope to effectively analysis paint chips, fibers, drugs, residues, and other evidence. The strengths of each instrument, with regard to spectroscopic and optical capabilities, are described.
The dietary intake of pigs greatly affects the composition of pork fat, which is found in all processed pork meat products. One way to monitor pork fat firmness, a value that can easily be affected by certain types of common feed, is to measure the iodine value (IV). Bruker Optics has published a white paper that details how IV can be obtained quickly and accurately with a Tango Fourier transform near-infrared (FT-NIR) spectrometer.
Supplying both spectral and spatial information, hyperspectral imagers are useful for obtaining data over a wide area, such the dispersion field of a gas cloud. Bruker Optics discusses its new HI 90 Hyperspectral Imaging System in a white paper that demonstrates the effectiveness of an active-alignment plane mirror interferometer that is an improvement over cube-corner-based systems.
Because of its convenience and speed, scientific characterization of solids is often performed by Fourier transform infrared (FT-IR) spectroscopy unit with an attenuated total reflection (ATR) module. A recent white paper published by Bruker Optics describes how its new platinum diamond ATR module in an ALPHA FT-IR spectrometer can be used to perform an analysis on polyethylene terephthalate, a thermoplastic commonly used as a container for foods or beverages.