Perforated materials are utilized in different applications as they can control the passage of light, heat, air, solids, liquids, sound and electromagnetic waves.
At the Georgia Institute of Technology, scientists have created a range of hydrogel-based nanoparticles that can be used for developing photonic crystals.
Oxy-fuel combustion offers several potential advantages for steel reheat furnaces, including thermal efficiency and decreased energy losses.
EMI/RFI shielding can be achieved by using perforated metal, which was chosen based on performance evaluation.
In 1863, Reich and Richter discovered indium. The element was named after the bright indigo line that it emits in its atomic spectrum.
When contemplating the use of perforated metal, the ability to offer a preferred level of strength can be very significant.
Some versions of infrared spectroscopy need almost no preparation at all, therefore, creating “ideal samples” is reasonably straightforward.
By Sarah Moore
14 Nov 2019
The development of magnesium alloy has conventionally been fueled by the aerospace sector’s demand for lightweight materials to work under increasingly challenging conditions.
Raman spectroscopy is a subcategory focused on the distinct infrared or visible light scattering caused by the molecular-level transfer of energy from a light beam to a sample.
By Brett Smith
18 Oct 2019
China is responding to increased demand for electronics products by increasing its production capacity, having the impact of driving growth in the closely linked technical ceramics market through its reliance on ceramic components.
By Sarah Moore
18 Oct 2019