Abstract
The effects of silicon (Si) on the mechanical properties and fracture toughness of heavy-section ductile cast iron were investigated to develop material for spent-nuclear-fuel containers. Two castings with different Si contents of 1.78 wt.% and 2.74 wt.% were prepared. Four positions in the castings from the edge to the center, with different solidification cooling rates, were chosen for microstructure observation and mechanical properties’ testing. Results show that the tensile strength, elongation, impact toughness and fracture toughness at different positions of the two castings decrease with the decrease in cooling rate. With an increase in Si content, the graphite morphology and the mechanical properties at the same position deteriorate. Decreasing cooling rate changes the impact fracture morphology from a mixed ductile-brittle fracture to a brittle fracture. The fracture morphology of fracture toughness is changed from ductile to brittle fracture. When the Si content exceeds 1.78 wt.%, the impact and fracture toughness fracture morphology transforms from ductile to brittle fracture. The in-situ scanning electronic microscope (SEM) tensile experiments were first used to observe the dynamic tensile process. The influence of the vermicular and temper graphite on fracture formation of heavy section ductile iron was investigated.
Highlights
Silicon is an extremely sensitive element in heavy section ductile iron, which affects the formation of chunky graphite [1,2,3]
Campomanes [4,5,6,7,8,9] studied the influence of silicon content on ductile iron, and found that lower silicon content can reduce the performance of chunky graphite iron, especially in its capacity to demonstrate good impact performance at low temperatures
The aim of this paper is to investigate the effects of Si on microstructures and mechanical properties as well as fracture toughness of heavy section ductile cast iron
Summary
Silicon is an extremely sensitive element in heavy section ductile iron, which affects the formation of chunky graphite [1,2,3]. The proper content of silicon can increase the nodularity and improve the mechanical properties of heavy section ductile iron, and inhibit graphite floatation and chunky graphite formation [10,11,12,13]. Many researchers have studied the influences of Si on the microstructures and mechanical properties of ductile cast iron [14], systematic research on effects of Si on large-scale heavy section ductile cast iron is scarce
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