Study on the Fatigue Crack Initiation and Growth Behavior in Bismuth- and Lead-Based Free-Cutting Brasses

Abstract: Several studies have been conducted on the fatigue behavior of copper and 7-3, and 6-4 brasses. However, there have been fewer studies on the fatigue behavior and fatigue crack growth (FCG) properties of free-cutting brass, primarily because emphasis has been placed on the development of lead-free free-cutting brass. In this study, fatigue experiments were performed in the atmosphere at room temperature using three types of free-cutting, two types of bismuth (Bi)-based (with different grain sizes), and lead (P… Show more

“…The cutting performance of free-cutting steel is determined by the size, morphology, and distribution of MnS inclusions [12]. Generally speaking, MnS inclusions with a small size and uniform distribution in the form of balls and spindles are the most favorable for the cutting performance of steel [13]. Therefore, effective control of the shape of MnS inclusions is the key to obtain high-quality free-cutting steel [5,14,15].…”

Effect of Bismuth Content and Heating Rate on MnS Inclusions in Free-Cutting Steel

“…The cutting performance of free-cutting steel is determined by the size, morphology, and distribution of MnS inclusions [12]. Generally speaking, MnS inclusions with a small size and uniform distribution in the form of balls and spindles are the most favorable for the cutting performance of steel [13]. Therefore, effective control of the shape of MnS inclusions is the key to obtain high-quality free-cutting steel [5,14,15].…”

Effect of Bismuth Content and Heating Rate on MnS Inclusions in Free-Cutting Steel