Chemical Technology
Article | July 20, 2022
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.
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Chemical Technology
Article | July 20, 2022
From novel process technologies to sustainable plastics— the chemical industry is scaling up its digital initiatives. This has opened new doors for organizations to explore opportunities to increase efficiency and streamline the process.
Admittedly, the chemical industry has been a little slower in implementing digital transformation. But COVID-19 has vastly increased the momentum of digitization among chemical plants.
According to a KPMG survey, 96% of industry CEOs saw digital transformation accelerate in their organizations, with 48 percent saying it advanced by a few years. In addition, according to a recent Manufacturing Leadership Council (MLC) survey, 82% of respondents agreed that the pandemic had "created a new sense of urgency" in driving investment in new technologies and digitalization.
Digital transformation solutions offer tremendous potential in the chemical sector. It can play a significant role in driving more value. So let's dig deeper and look at key technologies in bringing digital transformation to the chemical industry.
Circular Economy
Chemical manufacturers cannot exist within their own four walls any longer. They recognize the importance of working with their customers and other businesses and organizations to conserve resources and protect the environment. Chemical companies may source raw materials from recyclers as part of a circular economy, which necessitates fool proof solutions to confirm their quality and availability. Circular economy consortiums may advocate for reducing environmental threats such as ocean plastics or exposure to hazardous chemicals, opening up new avenues for innovation.
Customers are constantly looking for new ways to reduce waste and protect their ecosystems. For example, farmers may benefit from solutions that can instantly analyze soil quality, weather, and crops to determine the best products and schedule for applying fertilizers, crop protectants, or new seeds. Using this data, they use only what they need, generate less waste, and maximize output.
Error-Proof Operations
Chemical firms are also embracing technology to achieve operational excellence. They've discovered the benefits of using machine learning andIoT technologies to automate standard back-end processes. Technologies such as these reduce the need for human intervention — and thus the possibility of human error. Blockchain technology can also significantly reduce counterfeit chemicals' use, which is especially important for chemical manufacturers who supply products to the pharmaceutical or agricultural industries. In addition, blockchain technology can enable track-and-trace processes that require less work and waste while protecting the enterprise's reputation.
Staying Sharp in the Dynamic Market
Staying agile in an uncertain M&A environment is a top priority for some businesses. For example, chemical firms must be able to quickly divest assets, adjust portfolios, and adapt operations in response to market changes. Technology can provide executives with the visibility into operations, shipments, and market conditions required to make critical decisions and remain agile.
Data Analytics
The chemical industry is leveraging cloud-based storage systems to store and share confidential data anytime and anywhere. Additionally, data analytics solutions can analyze all the data effectively to provide valuable insights to the industry. This will help you make meaningful decisions in real-time.
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Chemical Management
Article | July 8, 2022
ONE OF THE GREATEST achievements of the last 30 years has been the fall in the number of people living in extreme poverty.In 1999, 1.9bn of the world’s population were living on less than $1.90, the Word Bank’s definition of extreme poverty. Despite setbacks caused by the pandemic, this had fallen to 698m by October 2020.
Income levels alone are not enough to escape the life-threatening agony of extreme poverty. There is no point in having money if the essential goods and services to spend your money on are not available.
Critical to poverty alleviation has been sufficient supply of all the things that people in the rich world take for granted. The raw materials to make the vast majority of manufactured goods include petrochemicals and polymers.
Nearly all the major manufacturing chains would not have been able to function without petrochemicals.
Think of medical equipment, syringes, blood bags, hospital gowns, face masks, pill bottles and medicine blister packs. None of the above could have been produced without petrochemicals.
As people emerged out of extreme poverty and as economies became wealthier, modern-day medical services became more widely available.
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Chemical Management
Article | May 6, 2021
BUYERS OF polypropylene (PP) and other polymers and petrochemicals have had an incredibly difficult pandemic.
Firstly, the converters and brand owners expected doom and gloom last March. At the time it seemed logical to expect a cratering of demand as the global economy pretty much imploded.
Just looking at forecasts for GDP, parallels were drawn with the Global Financial Crisis when collapses in growth led to a cratering of polymers demand. The US is a good example where PP demand declined by 12% in 2008 over 2007. Demand then fell by a further 5% in 2009 over 2008.But what we all missed was the complete dislocation of polymers and petrochemicals demand from GDP. As economies registered historic declines, consumption went up.
PP demand went through the roof, firstly for food packaging and hygiene applications.Then consumption for the durable goods made from PP also smashed through the rafters as we bought white goods (PP is used to make components of washing machines), consumer electronics (PP is used to make some electronic components) and carpets (PP fibres are used here).
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