Company Filing History:
Years Active: 2017
Title: Kenta Hiwatari: Innovator in Non-Ohmic Resin Materials
Introduction
Kenta Hiwatari, located in Hyogo, Japan, is a distinguished inventor known for his contributions to material science. With a focus on resin materials with non-ohmic properties, Hiwatari's work has the potential to significantly impact the electronics industry.
Latest Patents
Hiwatari holds one patent titled "Resin material having non-OHMIC properties, method for producing same, and non-OHMIC resistor using said resin material." This innovative resin material is characterized by a composition that offers favorable characteristics as a varistor. It boasts a high degree of molding freedom and impact resistance, making it suitable for various applications. The resin material comprises an insulating matrix made from a first resin, alongside an island-form conductive dispersed phase made from a second conductive resin that is incompatible with the first. This unique design ensures that the ceramic particles, which exhibit non-ohmic properties, are electrically contacted via the conductive dispersed phase, enhancing the overall functionality of the material.
Career Highlights
During his tenure at Otowa Electric Co., Ltd., Hiwatari has made significant strides in the field of material science. His innovative thinking and dedication to research have fostered advancements in the development of electronic components, specifically focused on enhancing the performance and durability of resin materials used in various applications.
Collaborations
Kenta Hiwatari has collaborated with notable colleagues, including Toshihiko Suzuki and Naoyuki Tsukamoto. Their collective expertise and knowledge in material science have undoubtedly contributed to the successful development of Hiwatari’s innovative patent and furthered the research at Otowa Electric Co., Ltd.
Conclusion
Kenta Hiwatari's work in the field of non-ohmic resin materials exemplifies the innovative spirit of inventors committed to advancing technology. His contributions not only demonstrate the importance of collaborative efforts in research but also illustrate how unique material properties can transform the capabilities of electronic components.