The effect of boron and titanium addition on the behavior of steel alloys of base composition AISI304 as a nuclear radiation shielding material
Hafez, S., El-Kameesy, S., Eissa, M., Elshazly, R., ELFAWKHRY, M., Saed, A. (2019). The effect of boron and titanium addition on the behavior of steel alloys of base composition AISI304 as a nuclear radiation shielding material. EKB Journal Management System, 52(4), 36-44. doi: 10.21608/ajnsa.2019.5818.1131
Shaimaa Hafez; Samir El-Kameesy; Mamdouh Eissa; Raed Elshazly; Mohamed ELFAWKHRY; Aly Saed. "The effect of boron and titanium addition on the behavior of steel alloys of base composition AISI304 as a nuclear radiation shielding material". EKB Journal Management System, 52, 4, 2019, 36-44. doi: 10.21608/ajnsa.2019.5818.1131
Hafez, S., El-Kameesy, S., Eissa, M., Elshazly, R., ELFAWKHRY, M., Saed, A. (2019). 'The effect of boron and titanium addition on the behavior of steel alloys of base composition AISI304 as a nuclear radiation shielding material', EKB Journal Management System, 52(4), pp. 36-44. doi: 10.21608/ajnsa.2019.5818.1131
Hafez, S., El-Kameesy, S., Eissa, M., Elshazly, R., ELFAWKHRY, M., Saed, A. The effect of boron and titanium addition on the behavior of steel alloys of base composition AISI304 as a nuclear radiation shielding material. EKB Journal Management System, 2019; 52(4): 36-44. doi: 10.21608/ajnsa.2019.5818.1131

The effect of boron and titanium addition on the behavior of steel alloys of base composition AISI304 as a nuclear radiation shielding material

Arab Journal of Nuclear Sciences and Applications
Article 5, Volume 52, Issue 4, October 2019, Page 36-44  XML PDF (1.04 MB)
Document Type: Original Article
DOI: 10.21608/ajnsa.2019.5818.1131
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Authors
Shaimaa Hafez email 1; Samir El-Kameesy1; Mamdouh Eissa2; Raed Elshazly3; Mohamed ELFAWKHRY4; Aly Saed5
1Physics Department, Faculty of Science, Ain Shams University
2Professor of Steel Technology, CMDRI
3Physics Department, Faculty of Science, Al-Azhar University
4Steel Technology Department, Central Metallurgical Research and Development Institute (CMRDI)
5Nuclear Power Stations Department, Faculty of Engineering, Egyptian Russian University
Abstract
Borated stainless steel alloys are candidate neutron absorber materials for criticality control in disposal containers or dry storage canisters. Type 304 borated stainless steels are similar to conventional Type 304 stainless steels except that they contain a boron addition, which imparts a much higher thermal neutron absorption cross section than other austenitic stainless steels. Three grades of steel alloys with base composition of AISI304 (SS304Ti, SS304B and SS304TiB) were modified and produced using 30 kg pilot plant medium frequency induction furnace at the same conditions. The macroscopic-cross sections for neutrons higher than 10 keV, slow, and total slow neutrons were measured using 241Am-Be neutron source for the produced samples. The developed samples were found to have higher cross sections for neutrons higher than 10 keV, slow, and total slow neutrons than SS304. Additionally, gamma ray shielding properties were measured for several gamma ray energies that emitted from 232Th radioactive source. Among the investigated steels, the lowest corrosion rate was found in the modified steel containing B. Samples of the properly treated steels were subjected to microstructure observation, hardness, tensile and impact testing. The microstructure observation revealed an austenitic phase in all investigated steel alloys and a very large number of twins in the optical micrographs of the investigated samples. The strengthening effect of B or Ti and B is to great extent the reason of the solution hardening and precipitation strengthening effects of these elements as these elements are strong carbide or nitride formers.
Keywords
Boron; Titanium and boron-titanium stainless steel; Attenuation; Corrosion rate; structural and Mechanical properties
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