July 2021
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Read MorePart 1 of this contribution, published in the May 2021 edition of Rubber World, investigated a real manufacturer’s process that was set to produce medical tubing. It was found (through trials at the extruder, then through simulations) that the equipment available to the manufacturer was too large for the relatively low output that was required for this project, and consequently the polymer was degrading on the screw surface. It was ultimately determined through simulation that a smaller extruder, with a screw optimized for the low rate, would work better.
Read MoreMold design processes today benefit from sophisticated
design software that creates 3D models easily exported to
manufacturing, CAM programming and metal cutting
Performance material usage is increasing in the manufacture of tires. These materials are composed of various additives with different properties that require a high level of expertise to maintain their properties throughout the production process and to deliver the desired, consistently high level of required quality. This is just one aspect that increases complexity in the manufacturing process. Market demands for more cost-effective products are also constantly increasing. Operating costs eserve special attention because process optimization is paramount on every manufacturer՚s agenda. Specialty chemicals group Evonik Industries and plant automation supplier Zeppelin Systems are working closely together to show how the use of innovative products and processes can both improve the performance properties of tires, while making their manufacture even more economical.
Read MoreThe largest range of silicone and epoxy hybrid resins for the 3D printing of wearable devices, biomedical equipment and soft robotics has been developed by researchers from the Singapore University of Technology and Design (SUTD). In a study published in Applied Materials Today, the range of tunable functionally graded materials, which displayed over five orders of magnitude of elastic modulus, demonstrated excellent interfacial toughness, higher precision in complex structures and better fabrication control for the integration of mechatronic components.
Read MoreWhen you step back and take a broader view of that industry, it can be viewed as a three-legged stool with three key elements: process/machinery, latex and chemical dispersions. These elements work in concert to provide a baseline for eventual success. This article will discuss the third element: dispersions.
Read MoreBio-based itaconate butadiene rubber has been introduced by the Beijing University of Chemical Technology. This project was researched by professor Liqun Zhang’s team at the university. They started the research in 2008. After 13 years of hard work, a new generation of high performance and bio-based itaconate butadiene rubber has been successfully developed. Epoxy group functionalized poly(dibutyl itaconate-co-butadiene- glycidyl methacrylate) (PDBIBG) is the first class of macromolecular chain structures based on an itaconic acid resource which can realize the high value-added utilization of biomass resources and promote green and sustainable development within the rubber industry.
Read MorePatents as compiled for the rubber industry in July
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