Results 171 to 180 of about 3,475 (224)
Atomistic insight into Al-Mg friction stir welding process via molecular dynamics simulation. [PDF]
Nguyen VT +5 more
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Assessing Feed-Forward Backpropagation Artificial Neural Networks for Strain-Rate-Sensitive Mechanical Modeling. [PDF]
Tuninetti V +9 more
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Research on the Formability of 2A12 Aluminum Alloy Sheet During High-Speed Hot Gas Bulging. [PDF]
Kang Z +9 more
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Effect of Combined Equal-Channel Angular Pressing and Rolling on the Microstructure and Mechanical Properties of Zn-0.5Ag-0.2Mg Alloy. [PDF]
Zhuo X +5 more
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Superplasticity and Superplastic Forming
Superplasticity is the ability of a material to exhibit extensive tensile elongation. its utilization can be realized through superplastic forming which is regarded as an enabling near-net shape manufacturing technique.
Indrajit Charit, Rajiv Mishra
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Superplasticity in electrodeposited nanocrystalline nickel
Electrodeposited nanocrystalline Ni films were processed with different levels of S, to evaluate the role of S on superplasticity. All the materials exhibited high strain rate superplasticity at a relatively low temperature of 777 K.
M J N V Prasad, A H Chokshi
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Micrograin Superplasticity: Characteristics and Utilization [PDF]
Micrograin Superplasticity refers to the ability of fine-grained materials (1 μm < d < 10 μm, where d is the grain size) to exhibit extensive neck-free elongations during deformation at elevated temperatures.
Farghalli A Mohamed, Mohamed Farghalli A
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Superplasticity and superplastic forming processes
Materials Science and Technology, 1985AbstractSuperplasticity, first observed some seventy years ago, remained a scientific curiosity until about twenty years ago. It is now recognized as a property which can be utilized in forming processes. There are two types of superplastic behaviour, known as fine–grained (or fine–structure) and internal–stress superplasticity.
O. D. Sherby, J. Wadsworth
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Superplasticity and Superplastic Tensile Behaviour of AA5083
Advanced Materials Research, 2014In the present investigation experimental and analytical characterization of the high temperature (superplastic) deformation of AA5083 alloy was carried out. Uniaxial tensile test was performed in a temperature range of 748 823K at different initial strain rates.
B. Yogesha +2 more
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