My name is Ikuya Fujiwara.
I am 22 years old.
My birthday is May 31th.
My hobby is reading books and playing baseball. I was in the baseball club from when I was 4th grade of the primary school till I was on the 3rd year of the high school.
Next, I will introduce my local.
I was born in Ichinomiya. Ichinomiya is a city located in Aichi prefecture, Japan. It was located in the center of Noble-heiya
and blessed with the clear stream in the Kiso River, the mild climate and the climate, and Ichinomiya City was prospering as
a financial center of the Owari northwest as a cathedral town in a Masumida shrine from the old days.
Because "Ichinomiya" in acountry in Owari came in the Heian Periode, a Masumida shrine a started to be called to
place-name in Ichinomiya .The city is often called Owari-Ichinomiya to avoid confusion with another Ichinomiya.
Ichinomiya is also very famous as a textile industry city.
But, I currently live in Fukui prefecture because I attend Fukui University.
In the university I am learning about textiles because my local textile industry is prosperous.
I belong to department of Frontier Technology and science, Graduate school of engineering.
Thank you for reading!!
I am 22 years old.
My birthday is May 31th.
My hobby is reading books and playing baseball. I was in the baseball club from when I was 4th grade of the primary school till I was on the 3rd year of the high school.
Next, I will introduce my local.
I was born in Ichinomiya. Ichinomiya is a city located in Aichi prefecture, Japan. It was located in the center of Noble-heiya
and blessed with the clear stream in the Kiso River, the mild climate and the climate, and Ichinomiya City was prospering as
a financial center of the Owari northwest as a cathedral town in a Masumida shrine from the old days.
Because "Ichinomiya" in acountry in Owari came in the Heian Periode, a Masumida shrine a started to be called to
place-name in Ichinomiya .The city is often called Owari-Ichinomiya to avoid confusion with another Ichinomiya.
Ichinomiya is also very famous as a textile industry city.
But, I currently live in Fukui prefecture because I attend Fukui University.
In the university I am learning about textiles because my local textile industry is prosperous.
I belong to department of Frontier Technology and science, Graduate school of engineering.
Thank you for reading!!
O U R S E R V I C E S
My experiment
The theme of my experiment is development of one-dimensional alignment technique of CNTs onto a conductive substrate using electrospinning method.Conventionally, metal is generally used as a conductive material, and among them, a material which is frequently used as an electrical conductor such as a wiring is copper having high electric conductivity. Silver has higher conductivity than copper, but it is expensive and is not often selected.
However, it is used in special devices such as artificial satellites, and in order to reduce the loss due to the skin effect at high frequencies, silver is thinly plated and sometimes used. In addition, aluminum being cheap, and the electric conductivity per unit mass being superior to copper, but the surface being oxidized, and losing conductivity because is easy to transform it when have heat in the connection part with the terminal because is soft, and coherency may be lost, the available scenes such as light lines from the transformer of the telephone pole which there is not to each home are limited to a problem such a fault. On the other hand, copper has been used in a wide range of fields due to its high electrical conductivity, low cost, good durability. However, strength of the copper is weakened as the go slimming, may sometimes can not withstand becomes weaker endurance against current.Therefore, in recent years, carbon nanotubes (CNTs) have attracted attention as a conductive material that replaces copper and other conductive metals. CNTs has high strength, flexibility, and high electrical and thermal conductivities. It is said to have a high current density of about 1000 times that of copper and a high thermal conductivity characteristic of about 10 times.However, the strong van der Waals interactions between CNTs make it difficult to achieve high CNT loadings, good dispersion, and alignment within polymer matrices. Therefore, in order to maximize the structural features of CNTs, it is first necessary to loosen the agglomerated CNT clumps. In other words, this high cohesiveness obstacles to the maximum in chemical physical operation of CNT and the use of CNT without a property, the characteristic as the nanostructure body appearing almost even if CNT was used if CNT is a cohesion state.
In this study, CNT arrangement technique for maximizing the structural features intrinsic to CNT, such as conductivity, heat conductivity, and opportunity strength, by arranging CNTs one-dimensionally by using nanofibers as guides of CNT For the purpose of development.
T E S T I M O N I A L S
Sherry Miller