Tokuhiko Nishida scite author profile

Tokuhiko Nishida

5Publications

52Citation Statements Received

1Citation Statement Given

How they've been cited

164

How they cite others

Affiliations

Nippon Steel, Yamagata Research Institute Of Technology, Institute of Metals Research

Publications

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Structures and physical properties of carbon fibers from coal tar mesophase pitch

et al. 1987

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Carbon fibers having various types of structures were prepared by spinning coal tar mesophase pitch, followed by thermosetting and heat treatment at high temperature. Two kinds of spinning—spinning with stirring the pitch above a capillary and without stirring—have been tried to form pitch fibers from coal tar mesophase pitch. Carbon fibers obtained from mesophase pitch and spun without stirring have a radial transverse structure where the graphite layers are arranged radially in the transverse cross section of the fibers. Carbon fibers made with a stirring system can have random, onion, and a novel “quasionion structure” by changing the spinning conditions. Carbon fibers spun with stirring are less graphitizable than those spun without stirring. No separation of the ten diffraction bands into 100 and 101 peaks and no appearance of a 112 peak were observed by x-ray diffraction when the fibers were heat treated at 2700°C, whereas carbon fibers spun without stirring show clear evidence of graphitization by heat treatment at 2700°C. Transverse magnetoresistance effects at 77 K, (Δρ/ρ)t have been measured to characterize the structure of the carbon fibers. The carbon fibers spun with stirring and heat treated at 2500°C generally exhibit a negative transverse magnetoresistance effect, whereas the carbon fibers spun without stirring exhibit a positive magnetoresistance. Good correlations are found among d002, Lc (002), transverse magnetoresistance, and resistivity at room temperature of carbon fibers spun under various conditions and heat treated at 2500°C. The tensile strengths (TS) of carbon fibers that are less graphitized are higher than those of carbon fibers with a higher degree of graphitization if tensile moduli (TM) are almost constant.

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Transverse structure of pitch fiber from coal tar mesophase pitch

Hamada

Nishida

Furuyama

et al. 1988

Carbon

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On the Secondary Hardening on Tempering in Vanadium Steels

Tanino

Nishida

1968

Trans. JIM

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A study was carried out to obtain a detailed knowledge about the change in microstructures in connection with the secondary hardening on tempering of a series of vacuum-melted 0.2% carbon steels containing vanadium up to about 0.5%.The main results are as follows: (1) High resistance for tempering in vanadium steels can be explained in terms of the suppression of dislocation climb and of the reduction of the growth rate of ferrite grains by vanadium atoms in solution particles are coherent with the ferrite matrix, and give rise to remarkable strengthening.(3) Vanadium carbide V4C3 gradually at subboundaries. (4) The orientation relationship between V4C3 and the ferrite matrix is similar to that sugrelationship. To summarize, the high strength of vanadium steels on tempering is attributed to the finely dispersed precipitates of coherent V4C3, a comparatively high density of retained dislocations, and the smallness of grain size. The fine dispersion of V4C3 particles can be attributed largely to the existence of high density of dislocations acting as the preferential nucleation sites.

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Direct Observation of the Microstructure Changes of Vanadium Steels During Tempering

Nishida

Tanino

1965

J. Japan Inst. Metals and Materials

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On the Fine Structures and the Strength of Continuously Cooled Vanadium Steels

Tanino

Nishida

Ôoka

et al. 1965

J. Japan Inst. Metals and Materials

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