http://chineseinput.net/에서 pinyin(병음)방식으로 중국어를 변환할 수 있습니다.
변환된 중국어를 복사하여 사용하시면 됩니다.
Tensile Properties and Fatigue Strength of Ultrafine Grained Pure Copper
Goto, Masahiro,Han, Seung Zeon,Kim, Sang Shik,Kawagoishi, Norio,Lim, Cha Yong Trans Tech Publications, Ltd. 2007 Key Engineering Materials Vol.353-358 No.3
<P>Oxygen-free copper was processed by equal channel angular pressing with different numbers of ECAP process cycles, NP. Tensile strength was increased with an increase in NP, but it tended to saturate after NP = 4. Conversely, elongation was dramatically decreased by first pressing, but it tended to saturate up to NP = 3, followed by slight increasing trend after NP = 4. Fatigue tests of specimens processed with NP = 4 and 8 were performed. The change in surface morphologies during fatigue was monitored successively. In addition to this, the change in surface hardness was measured. Significant decrease in surface hardness due to cyclic stresses was measured. The physical basis of fatigue damage of UFG copper was discussed based on the experimental results.</P>
Goto, Masahiro,Teshima, N.,Han, Seung Zeon,Yakushiji, T.,Kim, Sang Shik Trans Tech Publications, Ltd. 2008 Materials science forum Vol.584 No.-
<P>In order to study the effect of trace impurities on high-cycle fatigue damage of ultrafine grained (UFG) copper, fatigue tests were carried out for two samples: oxygen-free copper (OFC, 99.99 wt% Cu) and deoxidized low-phosphorous copper (DLP, 99.95 wt% Cu). After the processing by equal channel angular pressing (ECAP) using eight passes, equiaxed grains with an average size of 250 nm were formed for both the samples. Fatigue strength of UFG copper was enhanced by the impurities. The formation behavior of surface damage and the change in surface hardness was monitored. A close relationship was observed between the change in hardness and the formation behavior of surface damage. The physical background of the effect of trace impurities on the fatigue damage was discussed from the viewpoints of surface damage formation behavior.</P>
Bioinformatics Application of Chemical Transformation Rules in Metabolic Reactions
( Susumu Goto ),( Masahiro Hattori ),( Yugo Shimizu ),( Masaaki Kotera ),( Toshiaki Tokimatsu ),( Yuki Moriya ),( Zen Ichi Nakagawa ),( Minoru Kanehisa ) 한국응용생명화학회 2008 Journal of Applied Biological Chemistry (J. Appl. Vol.51 No.5
Effect of Loading Type on S-N Fatigue Behavior of SPRC340 Steel Sheet
권재기,김영주,Masahiro Goto,김상식,한승전 대한금속·재료학회 2009 METALS AND MATERIALS International Vol.15 No.6
In the present study, the effect of loading type on S-N fatigue behavior was examined using a 0.7 mm thick SPRC340 (Fe-0.08C-0.7Mn-0.5Si-0.12P-0.03S) steel sheet product. In contrast with the commonly held belief that the apparent fatigue resistance under bending is higher than that under uniaxial loading, the present specimens tended to show lower fatigue resistance under bending than under uniaxial loading. This trend appeared to be associated with several factors, including multi-site crack initiation on both sides of the specimen in bending, increasing error in the elastic bending stress calculation, and cyclic hardening during fatigue. The effects of loading type, including uniaxial loading and bending, on the S-N fatigue behavior are discussed.