Isothermal compression tests at 1 000°C and 0.1 s − 1 strain rate, in which mica or glass sheets were used as a lubricant, were conducted. Isothermal condition was achieved by placing high-heat-resistant (HHR) alloys between a workpiece and ceramic tools in the induction-heating configuration to prevent heat from escaping to the ceramic tools. To perform high compression tests, it was necessary to increase the diameter of the HHR alloy, for which a new single-turn coil was designed using FEM calculation coupled with deformation-temperature electromagnetic fields. In order to obtain the correct flow stress, inverse analysis was conducted using the FEM calculation, in which temperature and strain rate fluctuations were compensated. However, the compensation was insufficient when the distribution of temperature and strain rate was large. The use of glass sheets as a lubricant considerably reduced friction and uniform deformation was achieved. Thus, flow stress obtained using the inverse analysis became extremely reliable. The flow stress of mica obtained using inverse analysis with a constant friction coefficient was different from that of glass. Introducing new friction model that the friction coefficient changed from 0.02 to 0.3, the flow stress of mica was consistent with that of glass. Therefore, the flow stress obtained using the inverse analysis for the new configuration proposed in this study proved to be reliable.
We prepared gold thin films on smooth SYSiO2 substrates by electron cyclottz ) ri resonance plasma . spattering method . Ihe 丘lms deposited on Si substrates werc investigated by FE − SEM and UV 」 vis spectrophotorneter . Ihe transition f 沁 m discontinuous伺 ms to oontinuous 倒 ms was discussed . Optical ext 孟 nction at normahncidenoe were measured f( )r the gold thin mms deposited on SiO2 substrates . As the deposition time increased , the magnitude ofred − shifヒof loca}surface plasmon resonance ( LSPR )peak was enhanced comparcd to general gold nanopartic 亘 es . W 巳 discussed the relation betWeen the shapes of pa ticles and the shi 丘 ofLSPR
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