When Yoshitaka ONISHI joined SHI as a researcher, no one in the company could handle molecular dynamics (MD), a method for computer simulation of the physical motions of atoms and molecules. MD is an outstanding simulati카지노 검증 사이트echnique that allows handling of solids and liquids in states far from equilibrium.
“After joining SHI, I went to University for training to brush up on MD, but I still wasn’t able to handle MD for about five years after I came back. MD can only handle scales up to nanometer units, so it had a reputation inside 카지노 검증 사이트ompany of being interesting but unusable. Something was lacking to make it practical.”

It was at that point that ICHISHIMA, Mr. Onishi’s superior at the time, developed renormalized molecular dynamics (RMD) by applying renormalizati카지노 검증 사이트heory to MD. Mr. Ichishima derived the calculation formulas, and Mr. Onishi and his fellow researchers started out in the role of system operators.
The basic idea of ​​RMD is to refrain from exactly solving for micro phenomena, and to “renormalize” to macro phenomena. This enabled simulation of macro scale phenomena.
MD requires huge amounts of computing time, so calculation costs have been an issue for many years. According to Mr. 오니시, solving this problem led to dramatic improvements in development support, accuracy of problem handling, and speed.
“We focused 카지노 검증 사이트he numerous problems that couldn’t be calculated with commercial software. The most typical were the gears of gear reducers, and injection molding machines. Theoretically, these contain small parts so difficulty is high, but our method can even handle hydraulic excavators. It wasn’t so much trouble for me. The one who really struggled was Mr. Ichishima who derived the formulas for RMD. I was able to adapt a technique with established theory into something closer to practical needs in the field.”

Rapid advances in research are meaningless if they’re not useful for 카지노 검증 사이트ompany. So Onishi went to the divisions, and shifted to a more practical research footing.
“There were people in our divisions who took an interest in the research. Even when the software was full of bugs, they hung in there and didn’t get discouraged. As a result, it became possible to do more practical three-dimensional computer simulations. Today I can affirm with confidence that this is a practical useful technology.”

Assume, for example, that we have an equation 카지노 검증 사이트he right and an equation 카지노 검증 사이트he left. We perform iterative calculation until the values ​​on both sides match, but if the values ​​diverge, they will never converge, and the calculation will continue forever without ending. However, when RMD is used, the calculation never diverges, and the phenomenon of failure to converge never occurs.
“Previously, there was no analysis method that guaranteed contact accuracy through functional approximation of surface shape. Going forward, we want to continue evolving our company’s unique technologies, which are beyond the ability of other firms to imitate.”

Our researcher Yoshitaka KOBAYASHI enabled macroscale analysis of polymers by using the theory of RMD.
“When I first joined the company, I helped solve problems relating to the gears of gear reducers by using an RMD simulator developed by my superior, Mr. 오니시. However, as the range of application broadened, I got involved with development of polymer materials. Polymers have particles connected like beads on a string. As materials, they have properties like viscosity and elasticity. By applying the technique of renormalizati카지노 검증 사이트o the molecular dynamics of polymers, we successfully developed RMD for polymers.”

Mr. Kobayashi wanted people to use polymer RMD with actual machines, so he focused on developing an applicati카지노 검증 사이트o a device called a kneader.
“A kneader is a machine that kneads together polymer materials with two blades. In our divisions, there are employees known as ‘artisans,’ and they developed blades for superior kneading. There are many unclear points about why blades knead well, and I’m working with the divisions to develop indicators of the degree of blending.”

Here too, in-house cooperation of divisions is essential. Getting them to cooperate requires not just sparking their interest, but also powers of persuasion.

“I do development together with divisions, but I also had a lot of worries. That’s because it takes one or two months to do one analysis. My worries intensify while I’m waiting, wondering whether the results will come out correctly. I don’t want to cause trouble for the employees of the divisions, so there’s pressure.”

Even when results weren’t immediately forthcoming, the divisions steadfastly supported Mr. Kobayashi’s research.
“I can’t really say our previous collaborations with divisions have gone smoothly. It’s because we hadn’t fully built up the relationships to enable cooperation. I keenly realized that, to do R&D, you need to search out employees in the divisions who will cooperate with you in earnest.”

Research results on RMD have garnered recognition, and in 2021 an article appeared in Scientific Reports, published by Springer Nature. This paper showed 카지노 검증 사이트orrectness of applying RMD to three problems: calculation of 카지노 검증 사이트ollision of macroscopic elastic spheres, calculation of a phase transition due to latent heat, and mesoscale calculation near 카지노 검증 사이트ritical point.
“The article was written by Mr. 이시시마와 미스터. Matsumura—previous group leaders at the Technology Research Center who developed the foundations of the theory. Mr. Matsumura lived abroad when he was younger, so he had no problems writing the paper in English, but there were multiple reviews before it was published. Publication led to wide recognition of our research results, and that gave us greater credibility. Researchers all over the world saw our results, and we were thrilled because we could prove, within 카지노 검증 사이트ompany, that we aren’t doing dubious research (laughs).”

Actually, the article was rejected twice before it was published. The authors had to reexamine the points critiqued by the reviewers, resolve those problems, and prepare a foundation and theory whose content was 100% correct.
“I think it was really tough for Mr. 마츠무라. Because he was always investigating where the problems were. Thanks to publication of the article in Scientific Reports, the renormalizati카지노 검증 사이트heory has garnered attention from all over the world, and it has given us pride in our work.”

Mr. Kobayashi recalls many notable points in 카지노 검증 사이트ourse of events leading up to publication of the article.
“The important point in research is that it’s more about people than technology. If you do the research you think is interesting, but no one wants it, it’s just self-gratification. It’s important to take the initiative, listen to the problems of the divisions, and consider how the develop the research. If a calculati카지노 검증 사이트akes a few months, the other party may not be willing to wait. That’s an issue we’ll have to address going forward.”

SHI also has a unique simulati카지노 검증 사이트echnology called the “magnetic beads method” (MBM). Researcher Shuji MIYAZAKI explains:
“The magnetic beads method (MBM) is a magnetic field design and development tool for equipment like motors, magnetic shields, and magnetic gears. It's a magnetic field analysis technique requiring no spatial mesh, thereby enabling analysis of large-scale three-dimensional shapes. Since no spatial mesh is needed, the method allows magnetic field analysis while taking into account device movement and deformation. Analysis can also be done at points far away from the device. These abilities set the technique apart from other methods.”

Mr. Miyazaki began developing MBM as part of efforts to downsize and increase output of devices. As ​​devices were downsized, analysis had to be switched from two to three dimensions. Mr. Miyazaki was originally a designer, but his superior persuaded him to take up magnetic field analysis.
“It was tough. At the time, PC 성능은 poor, and calculations always took a long time. For a time, I moved away from MBM development. I was thinking of returning to it before my retirement, but higher CPU performance and GPGPU technology reduced computing time. So I resumed development, and we finally reached a level where the technique was usable for designing actual machines.”

Mr. Miyazaki resumed development 10년 전, and as result of increased speed and other improvements, took the method to a level enabling use in design of actual machines. Achievement of practical use is a great moment where one feels meaning in work as a researcher.
“After I joined 카지노 검증 사이트ompany, I belonged to a motor development team. My superiors and younger colleagues from those days now have leadership positions in the divisions. The fact that my old colleagues are doing design with a tool I made gives me a sense of worth and pride. When they say things like ‘You’ve made our jobs easier,’ it makes me really glad that I developed it.”

When design was done in two dimensions, there was sometimes deviation between the design and results. MBM is a revolutionary system that enables design in three dimensions, thus ensuring a match between design and results. One major objective at present is deploying these simulati카지노 검증 사이트echnologies throughout the entire SHI Group.
“If the producing side doesn’t actively sell the idea, it won’t really catch on in-house. The other person may be satisfied with 카지노 검증 사이트urrent approach, so it’s important to persuade them by clearly explaining the advantages of adopting the new system. In that sense, I think building human relationships with division employees is also an important element.”

Going forward, the Technology Research Center will continue research to elucidate phenomena and achieve optimization. To conclude, Mr. Onishi spoke of his dreams.
“Our ultimate goal is to realize an optimization system—incorporating a modeler with a high degree of freedom, and high-accuracy high-speed MBM—which automatically generates optimal shapes that human beings can’t think up. That will allow us to deliver better products to the world simply by waiting for innovati카지노 검증 사이트o occur inside a computer. However, creating such a system requires the wisdom of human beings. We must always have our antenna out for that. That’s the ultimate dream to shoot for because we’re the ones who developed MBM in-house.”

He says that a “sequel” is planned for the previously mentioned article on RMD. Also, machines and parts will continue to evolve in the future, and that’s only possible thanks to our researchers. As long as the people are there, research and development will continue forever.