Studies on the influence of grain refining and modification on microstructure and mechanical properties of forged A356 alloy

► For grain refinement and modification studies Ti, B and Sr were used . The Master alloys used are Al-3Ti, Al-3B and Al-10Sr. ► For the preparation of forged tensile specimen, pneumatic power hammer was used. ► Test includes microstructural and mechanical properties study like, 0.2%PS, UTS, %E, %R,...

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Published inMaterials science & engineering. A, Structural materials : properties, microstructure and processing Vol. 528; no. 13; pp. 4747 - 4752
Main Authors Mallapur, D.G., Udupa, K. Rajendra, Kori, S.A.
Format Journal Article
LanguageEnglish
Published Kidlington Elsevier B.V 25.05.2011
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Abstract ► For grain refinement and modification studies Ti, B and Sr were used . The Master alloys used are Al-3Ti, Al-3B and Al-10Sr. ► For the preparation of forged tensile specimen, pneumatic power hammer was used. ► Test includes microstructural and mechanical properties study like, 0.2%PS, UTS, %E, %R, Young's modulus and VHN of forged A356 alloy. ► The experimental results reveal the effect of forging on the mechanical properties study of forged A356 alloy. ► Results show SEM photomicrographs of forged A356 alloy. Microstructure and mechanical properties of the forged A356 alloy have been investigated in this paper. Results reveals that at micro level forged structure was more refined than as in the as cast conditions. This is due to the work hardening effect, where the original structure is destroyed during the forging and recrystallization helped in creating large number of nucleating sites leading to fine grain structure. From the investigations on the mechanical properties, we deduce that the PS, UTS and hardness of forged materials are obviously higher than those of the ones treated with as cast condition without and with the addition of grain refiners and modifier.
AbstractList ► For grain refinement and modification studies Ti, B and Sr were used . The Master alloys used are Al-3Ti, Al-3B and Al-10Sr. ► For the preparation of forged tensile specimen, pneumatic power hammer was used. ► Test includes microstructural and mechanical properties study like, 0.2%PS, UTS, %E, %R, Young's modulus and VHN of forged A356 alloy. ► The experimental results reveal the effect of forging on the mechanical properties study of forged A356 alloy. ► Results show SEM photomicrographs of forged A356 alloy. Microstructure and mechanical properties of the forged A356 alloy have been investigated in this paper. Results reveals that at micro level forged structure was more refined than as in the as cast conditions. This is due to the work hardening effect, where the original structure is destroyed during the forging and recrystallization helped in creating large number of nucleating sites leading to fine grain structure. From the investigations on the mechanical properties, we deduce that the PS, UTS and hardness of forged materials are obviously higher than those of the ones treated with as cast condition without and with the addition of grain refiners and modifier.
Highlights ao For grain refinement and modification studies Ti, B and Sr were used. The Master alloys used are Al-3Ti, Al-3B and Al-10Sr. ao For the preparation of forged tensile specimen, pneumatic power hammer was used. ao Test includes microstructural and mechanical properties study like, 0.2%PS, UTS, %E, %R, Young's modulus and VHN of forged A356 alloy. ao The experimental results reveal the effect of forging on the mechanical properties study of forged A356 alloy. ao Results show SEM photomicrographs of forged A356 alloy. Microstructure and mechanical properties of the forged A356 alloy have been investigated in this paper. Results reveals that at micro level forged structure was more refined than as in the as cast conditions. This is due to the work hardening effect, where the original structure is destroyed during the forging and recrystallization helped in creating large number of nucleating sites leading to fine grain structure. From the investigations on the mechanical properties, we deduce that the PS, UTS and hardness of forged materials are obviously higher than those of the ones treated with as cast condition without and with the addition of grain refiners and modifier.
Author Kori, S.A.
Mallapur, D.G.
Udupa, K. Rajendra
Author_xml – sequence: 1
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  surname: Mallapur
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  givenname: K. Rajendra
  surname: Udupa
  fullname: Udupa, K. Rajendra
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  givenname: S.A.
  surname: Kori
  fullname: Kori, S.A.
  organization: R & D Centre, Department of Mechanical Engineering, Basaveshwar Engineering College, Bagalkot, Karnataka, India
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Issue 13
Keywords Modification
Forged A356 alloy
Mechanical properties and microstructure
Grain refinement
Aluminium base alloys
Work hardening
Ultimate strength method
Mechanical properties
Hardness
Forging
Recrystallization
Fine grain structure
Microstructure
Language English
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PublicationTitle Materials science & engineering. A, Structural materials : properties, microstructure and processing
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Snippet ► For grain refinement and modification studies Ti, B and Sr were used . The Master alloys used are Al-3Ti, Al-3B and Al-10Sr. ► For the preparation of forged...
Highlights ao For grain refinement and modification studies Ti, B and Sr were used. The Master alloys used are Al-3Ti, Al-3B and Al-10Sr. ao For the...
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SubjectTerms Aluminum
Aluminum base alloys
Applied sciences
Elasticity. Plasticity
Exact sciences and technology
Forged
Forged A356 alloy
Forges
Forging
Grain refinement
Intermetallic compounds
Mechanical properties
Mechanical properties and methods of testing. Rheology. Fracture mechanics. Tribology
Mechanical properties and microstructure
Metals. Metallurgy
Microstructure
Modification
Recrystallization
Title Studies on the influence of grain refining and modification on microstructure and mechanical properties of forged A356 alloy
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