Article | March 5, 2020
Polymers have been used in many consumer and industrial areas for many years. They have several advantage compared to metals such as low density, chemical resistance and easy production. However, polymers have generally lower wear and scratch resistance than other materials and therefore these properties must be carefully controlled. Since the beginning of the 20th century polymers found their place in many applications in daily life and industry. Their production is relatively simple and they can be formed into many different shapes. The market of polymers is developing fast and new polymers appear very frequently.
Article | February 11, 2020
Everyone is very familiar with the phrase when buying a house: All that really matters are three things - location, location, and location. This same principle applies to extractables and leachables chemistry analysis – the three things that truly matter are identification, identification, and identification. The greatest growth in the past ten years in demonstrating the safety of medical devices and container closure systems for drugs has been using analytical chemistry to determine what chemicals can leach from the device and what the patient is exposed to during its intended use.
Article | June 11, 2021
Intelligent Operations can play a vital role in creating connected content environments, however, many companies – especially within oil and gas – having been slow on the uptake.
Businesses that implement digital transformation initiatives often gain a competitive advantage over their rivals, as they benefit from reductions in human error, increases in productivity and further support for compliance efforts.
This report, produced in collaboration with OpenText, dives into the results of our Intelligent Operations in Oil and Gas Survey 2020, revealing where the industry is in terms of its adoption of Intelligent Operations and the hurdles it needs to overcome to truly embrace digital platforms and solutions.
Article | May 19, 2021
The market size for polymeric and resin binders in the global printing ink marketwas estimated to be over 1,200,000 MT in 2020, with a CAGR of about five percent. A major driver of this growth comes from the packaging industry, due to increases in consumer spending and online shopping, as well as demand for processed and packaged foods and beverages.
In addition, increased use of water-based inks is promoting market growth, off-setting environmental and health concerns regarding solvent-based inks in addition to strict environmental protection policies. Water-based inks are projected to overtake solvent-based inks due to environmental regulations, the reduction of volatile organic compounds (VOCs) in the pressroom, and improvements in overall print quality.
Ink formulations are complex mixtures, consisting of four basic component classes: pigments, polymeric binder resins, solvents or an aqueous dispersant media, and additives, such as surfactants, waxes, and rheology modifiers that enhance print quality. The purpose of the resin binder is to disperse and carry the ink pigment to the substrate, stabilize the pigment and additives dispersion to prevent settling, and provide print properties such as ink transfer behavior, setting, and drying characteristics. The binder also contributes surface appearance and gloss, strength and flexibility, chemical and solvent resistance, and also rub resistance. Ink binders can be categorized into the following polymer and resin types: acrylics, polyurethanes, polyamides, modified resins, hydrocarbon resins, and modified cellulosics.