N.V. Luzginova scite author profile

The cementite spheroidization process is investigated in hypereutectoid steels with different chromium (Cr) contents. A spheroidized structure in high-carbon steel is usually obtained by a divorced eutectoid transformation (DET) reaction, which occurs during slow cooling of austenite with fine cementite particles. A bimodal distribution of spheroidized cementite particles is experimentally observed. It is shown that Cr addition allows one to obtain the spheroidized structure after austenitization at a higher temperature and a longer annealing time as compared with low-Cr steel. It is found that the DET reaction takes place at low undercoolings compared with the pearlitic reaction. The occurrence of the DET reaction also depends strongly on the spacing between cementite particles during the austenitization process, i.e., on austenitization temperature and time.

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Current status and recent research achievements in ferritic/martensitic steels

Tavassoli

Diegele

Lindau

et al. 2014

Journal of Nuclear Materials

115

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The development and testing of the thermal break divertor monoblock target design delivering 20 MW m⁻² heat load capability

et al. 2017

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The design and development of a novel plasma facing component (for fusion power plants) is described. The component uses the existing "monoblock" construction which consists of a tungsten "block" joined via a copper interlayer to a through CuCrZr cooling pipe. In the new concept the interlayer stiffness and conductivity properties are tuned so that stress in the principal structural element of the component (the cooling pipe) is reduced. Following initial trials with off-the-shelf materials, the concept was realized by machined features in an otherwise solid copper interlayer. The shape and distribution of the features were tuned by Finite Element (FE) analyses subject to ITER Structural Design Criterion In-Vessel Components (SDC-IC) design rules. Proof of concept mock-ups were manufactured using a two stage brazing process verified by tomography and micrographic inspection. Full assemblies were inspected using ultrasound and thermographic (SATIR) test methods at ENEA and CEA respectively. High heat flux tests using IPP's GLADIS facility showed that 200 cycles at 20 MW/m 2 and five cycles at 25 MW/m 2 could be sustained without apparent component damage. Further testing and component development is planned.

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N.V. Luzginova

Review on the EFDA programme on tungsten materials technology and science

The Cementite Spheroidization Process in High-Carbon Steels with Different Chromium Contents

Current status and recent research achievements in ferritic/martensitic steels

The development and testing of the thermal break divertor monoblock target design delivering 20 MW m⁻² heat load capability

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About

N.V. Luzginova

Review on the EFDA programme on tungsten materials technology and science

The Cementite Spheroidization Process in High-Carbon Steels with Different Chromium Contents

Current status and recent research achievements in ferritic/martensitic steels

The development and testing of the thermal break divertor monoblock target design delivering 20 MW m−2 heat load capability

Contact Info

Product

Resources

About

The development and testing of the thermal break divertor monoblock target design delivering 20 MW m⁻² heat load capability