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DLab Dialog Day 2023: Designing Care for Future Society

DLab Dialog Day 2023: Designing Care for Future Society
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Hajime Nitta , Yuki Tazaki , Takashi Tomura , Tamio Nakano , Toshihiro Isobe , Hiraku Sakamoto , Renge Jibu , Hiroichi Yanase , Yuka Tanimoto , Shinjiro Kanae , Naoto Ohtake , Kazuya Masu , Junko Mokuno , Takumi Ohashi , Takao Kuramochi , Noriyuki Ueda , Kaoru Kuwata , Jun Aida , Kotaro Funakoshi , School Of Materials , Determinants Of Health , Institute For Liberal Arts , Technology Agency , Chemical Technology , Department Of Materials Science , School Of Engineering ,

Three teams receive DLab Challenge Research Grant 2022

Three teams receive DLab Challenge Research Grant 2022
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Takumi Ohashi , Toshihiro Isobe , Kotaro Funakoshi , Isao Satoh , Naoto Ohtake , Dlab Challenge Research Grant , Dlab Research Grant , Transdisciplinary Design Research For Future Megathrust Earthquake , Tokyo Tech , Social Innovation Global Networks , Research Grant , Academic Year , Director Isao Satoh , Director Naoto , Challenge Research Grant , Victim Left Behind , Transdisciplinary Design Research , Future Megathrust Earthquake , Victim Left , Challenge Research ,

New Crystalline Oxide may Prevent Overheating of Composite Materials

New Crystalline Oxide may Prevent Overheating of Composite Materials
Written by AZoMJan 6 2021
Researchers from the Tokyo Institute of Technology have recently produced an innovative material that exhibits special thermal expansion properties.
Image Credit: Tokyo Institute of Technology.
With this technique, a special crystalline oxide comprising phosphorus, sulfur, and zirconium can be produced. This crystalline oxide has two separate mechanisms of negative thermal expansion. This material is also the first to exhibit this property, and its application may help prevent damage to composite materials, like computer chip components, that experience sudden temperature changes.
Upon heating, most of the materials tend to expand as the atoms get separated. The coefficient of thermal expansion (CTE) is used to measure the expansibility of materials under heat. A majority of the existing industry-grade materials have a positive CTE, which negatively impacts their perf ....

Toshihiro Isobe , Tokyo Institute Of Technology , Tokyo Institute , Crystalline Oxide , Prevent Overheating , Composite Materials , Image Credit , Associate Professor Toshihiro Isobe , Associate Professor , டோக்கியோ நிறுவனம் ஆஃப் தொழில்நுட்பம் , டோக்கியோ நிறுவனம் , படிக ஆக்ஸைட் , கலப்பு பொருட்கள் , படம் கடன் , இணை ப்ரொஃபெஸர் ,

Researchers Synthesize Novel Material with Unique Thermal Expansion Properties

Researchers Synthesize Novel Material with Unique Thermal Expansion Properties
Written by AZoMDec 21 2020
At the Tokyo Institute of Technology, researchers have recently produced an innovative material that exhibits special thermal expansion properties.
Image Credit: Toshihiro Isobe, Tokyo Institute of Technology.
The technique employed by the researchers allows the synthesis of a special crystalline oxide that contains phosphorus, sulfur and zirconium and shows two separate mechanisms of negative thermal expansion.
This material is the first one to exhibit this property and its application might help prevent damaging of composite materials, like computer chip components, which experience sudden temperature variations.
A majority of the materials have the ability to expand upon heating, as the atoms move away from one another. The expansibility of the materials when heated is quantified by making use of the coefficient of thermal expansion (CTE). Most of t ....

Toshihiro Isobe , Expansion Properties Image Credit , Tokyo Institute Of Technology , Tokyo Institute , Synthesize Novel Material , Unique Thermal Expansion Properties , Image Credit , Associate Professor , விரிவாக்கம் ப்ராபர்டீஸ் படம் கடன் , டோக்கியோ நிறுவனம் ஆஃப் தொழில்நுட்பம் , டோக்கியோ நிறுவனம் , தனித்துவமான வெப்ப விரிவாக்கம் ப்ராபர்டீஸ் , படம் கடன் , இணை ப்ரொஃபெஸர் ,

Novel crystalline oxide may solve the problem of overheating in composite materials

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VIDEO: The atomic waltz in the crystalline lattice in this interactive video, which helps understand this fascinating mechanism of atomic rearrangement in response to heat more clearly!
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Credit: Toshihiro Isobe
Scientists at Tokyo Institute of Technology recently synthesized a novel material that displays unique thermal expansion properties. The method used by the scientists enables the production of a unique crystalline oxide containing zirconium, sulfur, and phosphorus, that exhibits two distinct mechanisms of negative thermal expansion. This is the first known material to show this property and its application may help avoid damage to composite materials, such as computer chip components, facing unexpected temperature changes. ....

Toshihiro Isobe , Scientists At Tokyo Institute Of Technology , Tokyo Institute Of Technology , Tokyo Institute , விஞ்ஞானிகள் இல் டோக்கியோ நிறுவனம் ஆஃப் தொழில்நுட்பம் , டோக்கியோ நிறுவனம் ஆஃப் தொழில்நுட்பம் , டோக்கியோ நிறுவனம் ,