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Superplasticity in metals and ceramics pdf.
The first observations of this phenomenon were made as early as 1912 407.
A knowledge of fundamental issues in ceramic superplasticity has advanced to the stage that the technological application of superplastic deformation and specifically biaxial gas pressure deformation has now been demonstrated 74 75.
Superplasticity at very high strain rates i e approximatel y 0 1 1 s 1 is an area of strong emphasis that is expecte d to lead to increased applications of superplastic forming technology.
Superplasticity in metals ceramics and intermetallics.
Superplasticity 6 1 introduction superplasticity is the ability of a polycrystalline material to exhibit in a generally isotropic manner very high tensile elongations prior to failure t 0 5t m 406.
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Main superplasticity in metals and ceramics cambridge solid state science series superplasticity in metals and ceramics cambridge solid state science series t.
This book describes advances in the field of superplasticity.
The observations of superplasticity in metals including aluminium magnesium iron titanium and nickel ceramics including monoliths and composites intermetallics including iron nickel and titanium base and laminates are thoroughly described.
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Since its initial report in 1986 the science of ceramic superplasticity has steadily advanced.
Historically there has been no universally accepted definition for super plasticity.
This is the ability of certain materials to undergo very large tensile strains a phenomenon that has increasing commercial applications but also presents a fascinating scientific.
Since then superplasticity has been extensively studied in metals.
The ceramic base materials made superplastic to date are based on the principles developed for metallic alloys and claims of observations of both types of superplasticity have been made for.
Most frequently terms.
Ity in metals ceramics intermetallics and composites.