Hisataka Tanaka scite author profile

The authors investigated the data retention properties of NiOy resistors exposed to sputtered particles and found that they depended on the bias polarity used to program the data. Only the data in the high resistance state programmed by applying positive bias to the top electrode were easily damaged. This suggests that the “reset” process can take place when the anodic side of the conductive filaments, which were formed during the “forming” process, is insulated. In addition, the data retention test for thermal stress suggests that the reset process can take place thermally.

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Prediction of cutting forces and machining error in ball end milling of curved surfaces -I theoretical analysis

Ikua

Tanaka

Obata

et al. 2001

Precision Engineering

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Temperature Variation in the Cutting Tool in End Milling

Sato

Tamura

Tanaka

2011

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This paper describes the cyclic temperature variation beneath the rake face of a cutting tool in end milling. A newly developed infrared radiation pyrometer equipped with two optical fibers is used to measure the temperature. A small hole is drilled in the tool insert from the underside to near the rake face, and an optical fiber is inserted in the hole. One of the optical fibers runs through the inside of the machine tool spindle and connects to the other optical fiber at the end of the spindle. Infrared rays radiating from the bottom of the hole in the tool insert during machining are accepted and transmitted to the pyrometer by the two optical fibers. Eor a theoretical analysis of the temperature in end milling, a cutting tool is modeled as a .lemi-infinite rectangular corner, and a Green's function approach is used. Variation in tool-chip contact length in end milling is considered in the analysis. Experimentally, titanium alloy Ti-6Al-4V is machined in up and down milling with a tungsten carbide tool insert at a cutting speed of 214 m/min. In up milling, the temperature beneath the rake face increases gradually during the cutting period and reaches a maximum just after the cutting. In contrast, in down milling, the temperature increases immediately after cutting starts; it reaches a maximum and then begins to decrease during cutting. This sugge.9ts that the thermal impact to the cutting tool during heating is larger in down milling than in up milling, whereas that during cooling is larger in up milling than in down milling. Temperature variation is measured at different depths from the rake face. With increasing depth from the rake face, the temperature decreases and a time lag occurs in the temperature history. At 0.6 mm from the major cutting edge, the temperature gradient toward the inner direction of the tool insert is about 300°CI0.5 mm. The calculated and experimental results agree well. ''4 Keywords: end milling, temperature, measurement an infrared measuring system to assess the effect of tool wear and axial depth of cut on cutting temperatures. Although many studies have examined milling temperatures Journal of Manufacturing Science and Engineering

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Wound-inducible WUSCHEL-RELATED HOMEOBOX 13 is required for callus growth and organ reconnection

Ikeuchi

Iwase

Ito

et al. 2021

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Highly efficient tissue repair is pivotal for surviving damage-associated stress. Plants generate callus upon injury to heal wound sites, yet regulatory mechanisms of tissue repair remain elusive. Here, we identified WUSCHEL-RELATED HOMEOBOX 13 (WOX13) as a key regulator of callus formation and organ adhesion in Arabidopsis (Arabidopsis thaliana). WOX13 belongs to an ancient subclade of the WOX family, and a previous study shows that WOX13 orthologs in the moss Physcomitrium patens (PpWOX13L) are involved in cellular reprogramming at wound sites. We found that the Arabidopsis wox13 mutant is totally defective in establishing organ reconnection upon grafting, suggesting that WOX13 is crucial for tissue repair in seed plants. WOX13 expression rapidly induced upon wounding, which was partly dependent on the activity of an AP2/ERF transcription factor, WOUND-INDUCED DEDIFFERENTIATION 1 (WIND1). WOX13 in turn directly upregulated WIND2 and WIND3 to further promote cellular reprogramming and organ regeneration. We also found that WOX13 orchestrates the transcriptional induction of cell wall-modifying enzyme genes, such as GLYCOSYL HYDROLASE 9Bs, PECTATE LYASE LIKEs and EXPANSINs. Furthermore, the chemical composition of cell wall monosaccharides was markedly different in the wox13 mutant. These data together suggest that WOX13 modifies cell wall properties, which may facilitate efficient callus formation and organ reconnection. Furthermore, we found that PpWOX13L complements the Arabidopsis wox13 mutant, suggesting that the molecular function of WOX13 is partly conserved between mosses and seed plants. This study provides key insights into the conservation and functional diversification of the WOX gene family during land plant evolution.

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Opposite bias polarity dependence of resistive switching in n-type Ga-doped-ZnO and p-type NiO thin films

Kinoshtia

Okutani

Tanaka

et al. 2010

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A hypothesis based on the model that explains the resistance change effect of resistive random access memory by redox reaction is proposed. This hypothesis leads to the conclusion that the relationship between the polarity of the applied bias voltage and the resultant resistance change in p-type semiconductors is opposite to that for n-type semiconductors. The bias polarity dependence of the resultant resistance change in ZnO and Ga-doped ZnO (GZO), which are n-type semiconductors, and that in NiO, which is a p-type semiconductor, were investigated using conducting atomic force microscopy. Opposite bias polarity was confirmed to induce GZO and NiO into the same resistance state, which is consistent with the hypothesis.

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Hisataka Tanaka

Bias polarity dependent data retention of resistive random access memory consisting of binary transition metal oxide

Prediction of cutting forces and machining error in ball end milling of curved surfaces -I theoretical analysis

Temperature Variation in the Cutting Tool in End Milling

Wound-inducible WUSCHEL-RELATED HOMEOBOX 13 is required for callus growth and organ reconnection

Opposite bias polarity dependence of resistive switching in n-type Ga-doped-ZnO and p-type NiO thin films

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