Effect of Hot Forging and Boron Content on the Mechanical Properties of Dual Phase Steel

Farahat, Ahmed Ismail Zaky; Ayyad, S.; El‐Desouky, A.; Farouk, W.M.; Kassab, Alain J.

doi:10.21608/asat.2013.22115

Cited by 1 publication

(1 citation statement)

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“…This effect of boron is related to its ability to segregate to austenite grain boundaries and inhibit the grain boundary nucleation of ferrite. Its action, therefore, is to delay the formation of ferrite relative to the formation of lower temperature transformation products to increase the yield of martensite [13,14].…”

Section: Introductionmentioning

confidence: 99%

Weldability of Dual Phase Steel Containing Boron

Morsy

Khafagy

Farahat

2020

KEM

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Carbon steel containing boron-dual phase was produced by casting and were heated to 1200 °C for hot forging to produce plates of 10 and 6 mm thick. The plates produced were heated to the inter-critical annealing temperature for 15 min. and then water quenched followed by tempering process. The microstructure of the produced steel is ferrite with islands of martensite. Welding was done to the heat treated steel plates (6mm) using SMAW process and applying AWS-E11016 electrode and as a result an over-tempered region in the heat affected zone was formed with a significant reduction of the ultimate tensile strength of the welded joint. Reduction of heat input resulted in an increase in the joint strength. Welding of the hot rolled plates with a subsequent heat treatment resulted in formation of homogenous joint with good mechanical and metallurgical properties. Application of Electron Beam Welding to this dual phase steel resulted in a welded joint with good mechanical properties comparable to that of the base metal. The results were discussed based on microstructure analysis and hardness distribution of the welded joints.

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Section: Introductionmentioning

confidence: 99%