XRF ensures quality control in plastic production by monitoring catalysts, additives, and hazardous substances for industry compliance.
This article outlines IGD's new VOC detection products and their benefits.
The onset of COVID-19 worldwide highlighted the need for more and better hygiene infrastructure. A British company, BioInteractions, is leading the charge with its innovative antimicrobial medical materials.
In this article, Mo-Sci discusses how the spray drying technique is utilized in the production of glass powders and how Mo-Sci's custom processing services can help in the manufacture of glass powders.
With the worldly population reaching an all-time high, the demand for food has been growing exponentially. This escalation in demand is causing the food industry to also grow worldwide, resulting in the industry witnessing various types of challenges and complexities.
By Ibtisam Abbasi
24 Nov 2021
Lasers have been used to weld together plastic parts for decades, but until recently the technology had one major disadvantage: it could not be used to weld clear polymers.
By Brett Smith
22 Nov 2021
Laser surface engineering methods apply precise laser energy to metal surfaces to increase hardness and wear resistance. A recent study published in Metals found that combining laser surface engineering techniques with nitriding created superior wear resistance for AISI P21 steel used for plastic molds.
By Ben Pilkington
22 Nov 2021
Plastic waste is seriously harming our planet’s health. Single-use, broken, lost, and discarded plastic items alike do not decompose in nature, instead polluting our soil and waterways for thousands of years.
By Ben Pilkington
22 Nov 2021
In this interview, we will explore the need for advanced solutions to semiconductor manufacturing challenges as well as how Hardinge Inc. addresses various semiconductor manufacturing applications with innovative products.
Polymer-based dielectrics are widely used in different electrical and electronic devices like capacitors, power transmission cables, and microchips. To adapt to different work conditions, a range of distinct properties like dielectric and thermal parameters are desired for polymers, which can be tuned by customizing the chemical and morphological structure or adding nanofillers/additives to form nanocomposites.