Faster, greener and cheaper. These are currently the keywords within the printing industry, which is undergoing rapid innovations. TU/e researcher Ruben Nicasy developed an innovative method to determine how ink is absorbed by paper or cardboard in order to further improve print quality. His research yielded remarkable results on penetration depth, swelling stages and latex.
/ Nicole Testerink
Ruben Nicasy swiftly flips through the pages of his hot-off-the-press dissertation with his thumb and pauses at a page full of colored graphs. "Look, a glossier type of paper makes the colors stand out just a bit more." Ever since he became immersed in the world of printing a few years ago, a sheet of paper is anything but ordinary for him, the young Flemish physicist enthusiastically explains. On Wednesday, June 26, Nicasy will defend his research at the Department of Applied Physics and Science Education.
He flips back a little further and shows a black-and-white illustration of how it all began. "In the year 105 AD, the Chinese T’sai Lun discovered that you can make paper out of various fibrous materials, such as tree bark, bamboo and cotton. He turned these into a pulp, from which he eventually extracted the moisture. The different steps Lun used to create paper still form the basis of our modern paper production. How cool is that?"
Wet package
Over the past few decades, many changes have been made to improve paper quality, Nicasy explains. "An ordinary sheet of paper is actually something pretty special. The complexity starts with the fibers, because every tree is different. Each fiber has its own unique properties; there are hundreds of different ones. Some fibers are a little longer, others a little sturdier or thicker. And all’of them affect the paper very differently." In addition to the fibers, fillers are added to improve the paper’s properties. The paper may also receive a finishing treatment. "Packages that are delivered to your home increasingly come in paper packaging. But you don’t want a damaged or wet package on your doorstep. That is why packaging paper must be water-resistant, but at the same time, it needs to be printable and recyclable. Much research is therefore being done into multifunctional eco-friendly coatings. Printing ink is also a focus of research: we’re seeing more and more water-based or plant-based inks free of harmful solvents."According to Nicasy, knowledge of the behavior of paper fibers is essential for the implementation of sustainable innovations within the paper and printing industry. "There is still a lot of uncertainty about how exactly ink is absorbed by the individual paper fibers, for example. Does it penetrate through the fiber or does it run along the surface? Through fundamental paper fiber research, we aim to provide the paper and printing industry with tools to develop new applications."
Ultra-fast ink absorption
And so, Nicasy set out to find a method to map ink penetration in detail. But that was easier said than done. "Ink is absorbed very quickly. The latest industrial printers can print more than a hundred pages per minute. It’s a very dynamic process. And besides, the paper is very thin, and opaque."The approach he ended up using - he developed an ultra-fast NMR imaging method (UFI-NMR) to track the ink droplet on the paper - is unique, Nicasy reluctantly admits. Nuclear Magnetic Resonance (NMR), known from the medical imaging technique MRI, can say a lot about a material’s properties. "The ultra-fast aspect in particular is a breakthrough. We used a special GARField NMR that was developed and built from scratch within our research group. There are only a few of these devices in the whole world. By adjusting the electromagnetic pulse sequence, we can now create an image every 10 milliseconds."
Pioneering work
This new method immediately yielded some remarkable results. He unabashedly starts talking about penetration depth, swelling phases and latex. "For the first time ever, we were able to distinguish ink absorption in multiple phases. First, we see capillary absorption of the aqueous components - rising moisture - and then the paper fibers swell. The water passes along the fibers, trapping any air present. During the final phase, the trapped air escapes and the ink dries. Our measurements show that swelling has a huge impact on the penetration process in special compressed papers."In addition, Nicasy spent a lot of time studying latex particles, one of the main components of water-based ink. "By changing the number of latex particles, we were able to modify the ink’s physical properties. The more particles, the further they penetrated. This is an undesirable effect with ink bleeding through to the back of the paper. So we found that we can use latex to control the penetration depth."
Nicasy’s measurements form a wealth of data that should eventually lead to a predictive model for the printing industry. That way, we can see in advance how an ink will react with a paper, and how we can modify ink and paper to achieve the best print quality. I’m happy that two PhD candidates will be continuing my work. Using UFI-NMR, they will also focus on ink absorption of coated paper and improvements to the ink itself." So yes, he feels a little proud, he concludes with a twinkle in his eye. Because as a "smooth operator," he has done a fair share of pioneering work in the field of printing.
PhD in the picture
What is that on the cover of your dissertation?"Latex particles, magnified thousands of times; on top of that, in red, the particle concentration we determined using the new NMR method. Many different profiles mixed together: a dynamic process."
You’re at a birthday party. How do you explain your research in one sentence?
Smirking: "It’s easy to explain my research in a very different way, but I haven’t actually received that many silly comments. I did have to choose my Google search terms carefully. In short, I developed an NMR method to visualize ink penetration in paper so that we can use these insights to optimize the printing process."
How do you blow off steam outside of your research?
"I’m an avid korfball player. I enjoy the game itself but also the fun afterwards. Our Flemish club "De Pudze Zadlappen" often hangs out at the pub after a match. And last year, I ran my first marathon, in Ghent. That gave me a great sense of satisfaction."
What tip would you have liked to receive as a beginning PhD candidate?
"Keep precise records of your experiments and store your data in an organized way. Never think of results as being unimportant; often, you only see the importance of a measurement in hindsight. It cost me a lot of frustration and time to find the results of these "trivial" experiments again."
What is your next chapter?
"Since this spring, I’ve been working as a researcher at the pharmaceutical company Johnson & Johnson. I’ve been able to put my NMR expertise to use; instead of paper, I’m now looking at the stability of medicines in tablet form. I’m always looking for new challenges, and after four years at university, I was eager to explore the corporate sector.