Additives
Adding on value to plastics Additives, the building blocks responsible for plastic materials versatility, have been receiving both good and bad reviews. Nonetheless, the billion-dollar market remains strong and is rising, says Angelica Buan in this report.
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lastic materials today will not have been as versatile and diverse in applications as if not for additives. Why plastics are in use in practically every industry sector is because of additives’ ability to transform basic polymers to safer, cleaner, tougher and more colourful materials. The additives that are commonly used today are classified as reinforcing fibres, fillers, and coupling agents; plasticisers; colourants; stabilisers (halogen stabilisers, antioxidants, ultraviolet absorbers, and biological preservatives); processing aids (lubricants and flow controls); flame retardants, peroxides; and antistatics. Question of safety versus the use Toxicity and safe handling of additives during manufacturing and processing of plastic products are the basis for regulations, to ensure that the usefulness will not outweigh the potential risks they could pose to the environment and human health. Leaching of these substances from plastics into the environment or food on contact, when used in packaging, is a major harbinger for safety standards. Concern on the counter benefit of antimicrobial additives to inhibit bacterial colonisation versus the potential of leaching is also being raised, amidst cases of illnesses that are resistant to antibiotics. But that is being addressed with new developments for non-leaching antimicrobials. A 2016 antimicrobial materials study published in the Macromolecular Bioscience journal presented the direct comparison of antimicrobial efficiency between leaching and non-leaching antimicrobial polymers on a highly relevant implant of central venous catheters (CVCs) using a well-established test called Certika.
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MAY 2016
Pigment additives add colour to plastics
The study, conducted by German experts led by Joerg Bruenke of QualityLabs, is significant, especially since the use of antimicrobial devices is increasing across medical and healthcare applications. What the study finds is that newly developed non-leaching antimicrobial CVCs are equivalent to conventional leaching CVC systems in their antimicrobial performance. However, the use of new non-leaching antimicrobial polymers represents a different mode of action, which is the aim to prevent infections also with antibiotic-resistant strains and reduced side effects, the team said. Flame retardants (FRs), another additive category, have been the subject of many health risk studies, such as a University of Cincinnati College of Medicine expert-led study in 2013 linking exposure to a halogenated FR class called polybrominated diphenyl ethers (PBDEs) with behaviour and cognitive difficulties during early childhood and even the development of cancer. Hence, halogen-free FRs are being introduced, such as ones using phosphorus, inorganic substances and nitrogen. And the utilisation rate for halogenfree FRs is growing because of their cost efficiency, environmental compatibility and flame-proofing reliability in the final application. FRs that utilise carbon nanotubes (CNTs) are the focus of recent breakthroughs. Scientists at the National Institute of Standards and Technology (NIST) have developed a CNT coating for foam used in upholstered furniture, reducing flammability of the foam by 35%. The CNT coating is fabricated by inserting nanotubes between two commonly-used polymers. Four of these tri-layers are then stacked on top of each other, creating a “clubhouse sandwich-like�