Effect of Boride Layer on PM HSS AISI M2 on the Mechanisms Acting in the Transverse Rupture Strength Test

Abstract: Herein, it was conducted a study in order to examine the main fracture characteristics in the transverse rupture strength test (TRS) of a high speed steel (HSS) AISI M2 produced by powder metallurgy (PM) and with boriding treatment. Four conditions have been studied: as-sintered, borided, normalized and borided + TiN. The TRS tests were conducted in accordance with ASTM B528-12 standard. Density, Vickers hardness and transverse rupture strength properties were evaluated. Fractography was observed by scanning e… Show more

“…The insertion of boron, which resulted in iron borides, can explain the increase in surface hardness 3 , as reported by 4 , an increase of up to 5 times the surface hardness as a result of the boriding process at 1000 °C for 4 h. The increase in hardness values shown in Table 3 can be attributed to the borided layer produced, as also noted by 43 . A borided layer thickness of approximately 50.6 µm can also be seen in Figure 4, corroborating the data from 35 , which obtained a borided layer of approximately 51 µm on PM HSS AISI M2 steel. While 44 obtained experimentally a Fe 2 B boriding layer thickness from 20 to 160 μm when both the process temperature and treatment time varied from 850 to 1000 ºC and from 2 to 8 hours, respectively.…”

“…The recast and intermediate layers hardness, as well as the substrate hardness, were measured by the Vickers method in a Shimadzu HMV-2T E microhardness tester with a load of 25 gf 30,35 and dwell time of 15 seconds. The hardness indentations were performed in the sample's cross-sections following a minimum indent spacing of 20 μm and were repeated three times.…”

Effects of Sodium Octaborate on AISI 4140 Steel Machined by Die-sinking EDM

“…The insertion of boron, which resulted in iron borides, can explain the increase in surface hardness 3 , as reported by 4 , an increase of up to 5 times the surface hardness as a result of the boriding process at 1000 °C for 4 h. The increase in hardness values shown in Table 3 can be attributed to the borided layer produced, as also noted by 43 . A borided layer thickness of approximately 50.6 µm can also be seen in Figure 4, corroborating the data from 35 , which obtained a borided layer of approximately 51 µm on PM HSS AISI M2 steel. While 44 obtained experimentally a Fe 2 B boriding layer thickness from 20 to 160 μm when both the process temperature and treatment time varied from 850 to 1000 ºC and from 2 to 8 hours, respectively.…”

“…The recast and intermediate layers hardness, as well as the substrate hardness, were measured by the Vickers method in a Shimadzu HMV-2T E microhardness tester with a load of 25 gf 30,35 and dwell time of 15 seconds. The hardness indentations were performed in the sample's cross-sections following a minimum indent spacing of 20 μm and were repeated three times.…”

Effects of Sodium Octaborate on AISI 4140 Steel Machined by Die-sinking EDM