Thin-film resistance temperature detectors are thin film-like devices that are generally made of platinum and used for temperature measurement. This is possible because an increase in temperature is proportional to an increase in platinum resistance. Therefore, this linear relationship can be modeled and applied to measure temperatures reliably.
By Blaise Manga Enuh
5 Dec 2022
The implementation of radiation shielding is dependent on the passage of intrinsically and extrinsically ionizing radiation via matter. The intensity and permitted radioactive dosage for a given site are defined, and the aim is to calculate the type of shielding and its constituent material.
By Ibtisam Abbasi
1 Dec 2022
When developing batteries, engineers often experience thermal runaway issues. A comprehensive thermal management plan is essential to optimize performance, extend battery life, and prevent thermal runaway.
By Ibtisam Abbasi
30 Nov 2022
Advanced automotive industry workflows demand high accuracy, traceability, and reproducibility. As a result, automobile manufacturers are looking for new solutions to ensure optimal component compatibility and performance. One of the solutions that more and more manufacturers are adopting is optical 3D metrology.
In industrial measurement, accuracy is crucial to ensure the integrity of the entire production process. Non-contact scanning is increasingly becoming the preferred method to perform measurements of whole objects in a precise manner quickly.
By Samudrapom Dam
28 Nov 2022
The global automotive manufacturing sector is one of the biggest industries worldwide. Each year, 60 million vehicles are produced, which account for roughly 50% of global oil consumption. The industry also employs 4 million people and even more indirectly through the businesses it supports.
By Sarah Moore
24 Nov 2022
Promising materials with superior electrochemical characteristics, such as Polyoxometalates composites, have long been valued by scientists due to their wide range of uses and enormous potential to fulfill the demands of modern industry.
Inspired by nature, researchers are now looking at biological materials like biofilms, bone, skin, and bark as model systems to develop novel living materials that can grow, self-repair, and adapt to environmental changes.
By Cvetelin Vasilev
17 Nov 2022
A hydrophilic and oleophobic surface repels oil. This innovative surface property has received increasing attention since it excels at anti-fogging, detergent-free cleaning, and oil and water separation.
Since natural fibers like cotton are resource-intensive to manufacture, and petroleum-based fibers like nylon and polyester are not ecologically friendly, it’s time to start considering more sustainable options in the textile industry.