Chemical Technology
Article | July 14, 2022
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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Chemical Technology
Article | August 2, 2022
Over the next five to seven years, the chemical sector will place a greater emphasis on sustainability, and digitization will play a significant part in this. Reducing resource use, pollution, energy consumption, and waste are some of its main applications. Additionally, it will increase demand for a circular economy supported by IoT, AI, and other digital technologies.
Some of the systems now in place or being used in the sector include autonomous solutions that enable lower energy usage, dispatching systems for effective logistics and strategies for sustainable power and fuel consumption.
Chemical players making the switch to digital platforms have a chance to triumph if they move swiftly and update their operational models in accordance with a few common success characteristics. In fact, according to our study, making the correct decisions can increase total earnings before interest, taxes, depreciation, and amortization by 3 percent or more (EBITDA).
The Next Step of Operational Excellence
The same level of transformation is available with digital technology for optimal performance, together with success-enabling measures. The same level of corporate participation and realignment will also be necessary for the effective implementation of digital technology.
Finance and telecoms were early leaders in adopting digital technology faster than the chemical sector, which has just recently started to move in more significant numbers toward digitalization.
A circular economy in the sector is also being enabled by the use and evaluation of digital technology. The "Right to Fix" movement is being driven by governments and legislators in Europe and the US, and small and medium-sized businesses in the industry are expected to invest in technology that makes it easier to repair electronic items with the least amount of waste.
On a side note, by enabling the re-use of resources and products throughout the supply chain, digitalization with lean manufacturing (LM) would enable businesses to improve operational excellence and create value, thereby supporting the circular economy goal.
Conclusion
Given its extensive safety and regulatory requirements, the chemical sector has evolved slowly. However, as the global economy changes, some skills will become obsolete and others essential.
The interconnectedness of people, processes, and technology, as well as the requirement for real-time insight at the levels closest to the action, are among the basic principles of Industry 4.0. These values have existed for some time and are an extension of our teams' current operational excellence initiatives.
Digital transformation is not a technology endpoint but rather the following stage in the process and business evolution as the chemicals industry advances continuously.
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Chemical Technology
Article | July 20, 2022
Cybersecurity concerns must be considered in order for the chemical sector to succeed with digital commerce; simply listing your products on an online store and crossing your fingers won't cut it. It is crucial to pick a spouse who is aware of these hazards and has a strong defense in place. It is evident that the sector has massive potential for online sales, but selling chemicals online is different from selling common consumer goods online. Who your consumers are and how you gather and maintain data about them raise severe security and privacy problems.
Chemical company leaders have every right to be concerned about the privacy of their data, given that one cyber attack occurs every 11 seconds. However, they should still go online because there is too much business risk in not taking advantage of the digital opportunity.
Deloitte estimates that the chemical sector alone sold over $27 billion worth of goods online in 2020.
More than half (58%) of chemical purchasers reportedly stated that they would transfer providers if their demands, which include demands for a fantastic digital experience, were not delivered.
The objective is to limit risk and create a secure digital sales environment rather than dismissing e-commerce due to cybersecurity issues.
Setting up the appropriate IT infrastructure: Building for convenience and security is possible thanks to new IT technologies.
Emphasis on confirming identification: Always be aware of who you are dealing with, regardless of whether they came through a digital or physical means.
Offering simple (and safe) reorder alternatives to clients that have been verified.
It's ideal for business owners in the chemical sector who want to test selling online but are concerned about data collecting, security, and privacy for my company and customers.
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Chemical Technology
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.
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