Influence of carbon content on microstructure and properties of a steel matrix cermet

Alvaredo, P.; Bruna, Pere; Crespo, Daniel; Gordo, E.

doi:10.1016/j.ijrmhm.2018.04.006

Cited by 7 publications

(3 citation statements)

References 24 publications

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“…Materials selected for upper cylindrical shell and lower cylindrical shell of the pressure vessel components are carbon steel SA516-70, according to section III of ASME standards for higher temperature services [16,17]. Table 2 shows the material specification including chemical composition and mechanical property requirements for carbon steel plates at design temperature of 371 C [1].…”

Section: Methodsmentioning

confidence: 99%

Cylindrical Shell Analysis of Reactor Pressure Vessel for Rde

Sudadiyo

2021

gnd

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CYLINDRICAL SHELL ANALYSIS OF REACTOR PRESSURE VESSEL FOR RDE. This study deals with the analysis of cylindrical shell design for Reactor Pressure Vessel (RPV) of Reaktor Daya Eksperimental (RDE).The RDE is developed by BATAN as the preliminary of nuclear technology in Indonesia. RPV is a container for confining helium gas at pressure (3 MPa) and temperature (circa 250 C). In reactor operation, mechanical stresses act to the RPV as in consequence of internal pressure, external pressure, and different loads due to dead weight and helium content load. Therefore, if the RPV could not retain its material strength it will cause failure. The applications and validity of Fortran code (RPV_RDE.exe) for the design analysis are represented by two simulation cases, which show good calculation results of design outputs compared to analytical solutions by hand calculations. Design outputs have met the safety requirements (on ultimate tensile strength 485 MPa) for the minimum wall thickness of cylindrical shell in upper portion of 60 mm with Hoop stress 104.47 MPa and in lower portion of 100 mm with Hoop stress 62.81 MPa, respectively.

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Section: Methodsmentioning

confidence: 99%

Cylindrical Shell Analysis of Reactor Pressure Vessel for Rde

Sudadiyo

2021

gnd

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“…Further information on the effect of carbon addition on the microstructural parameters of the studied materials may be found in Refs. [25,[30][31][32].…”

Section: Microstructural Parametersmentioning

confidence: 99%

“…Since carbon addition is expected to promote hardening of the metallic binder, its influence is expected to be relatively higher in the grades containing a relatively higher amount of metallic phase. Nevertheless, changes in mechanical properties of the investigated samples should be described as the combined effect of carbon addition on both metallic binder hardening and effective amount of porosity [27,32].…”

Section: Macro Hardness Assessmentmentioning

confidence: 99%

Carbon addition effects on microstructure and small-scale hardness for Ti(C,N)-FeNi cermets

Besharatloo

Nicolás

Wheeler

et al. 2019

International Journal of Refractory Metals and Hard Materials

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The current study investigates the influence of carbon addition on the microstructural and micromechanical properties of Ti(C,N)-FeNi cermets with different ceramic/metal phase ratios. Evaluation of small-scale hardness is conducted by using high speed nanoindentation in conjunction with statistical analysis. It allows to gather extremely large data sets (40,000 imprints per grade and condition); and thus, detailed hardness mapping at the microstructure length scale. Subsequent statistical analysis was done by considering three mechanically distinct phases: Ti(C,N) particles, the metallic binder, and one exhibiting the composite behaviour (i.e. imprints probing two-phase regions). In general, it is found that porosity amount is reduced as ceramic/metal phase ratio decreases and carbon is added. Carbon addition is also observed to rise small-scale hardness, but only for two of the defined phases: metallic binder and the composite one. Similar trends are observed regarding the influence of ceramic/metal phase ratio and carbon addition on the inverse hardness-fracture toughness correlation measured under high applied loads.

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