Superplasticity in metals and ceramics / T.G. Nieh, J. Wadsworth, O.D. Sherby.

Call Number	620.1/633
Author	Nieh, T. G., author.
Title	Superplasticity in metals and ceramics / T.G. Nieh, J. Wadsworth, O.D. Sherby. Superplasticity in Metals & Ceramics
Physical Description	1 online resource (xiv, 273 pages) : digital, PDF file(s).
Series	Cambridge solid state science series
Notes	Title from publisher's bibliographic system (viewed on 05 Oct 2015).
Contents	Key historical contributions -- Types of superplasticity (FSS) -- Mechanisms of high-temperature deformation and phenomenologcal [sic] relations for fine-structure superplasticity -- Fine-structure superplastic metals -- Fine-structure superplastic ceramics -- Fine-structure superplastic intermetallics -- Fine-structure superplastic composites and laminates -- High-strain-rate superplasticity -- Ductility and fracture in superplastic materials -- Internal-stress superplasticity (ISS) -- Other possible superplasticity mechanisms -- Enhanced powder consolidation through superplastic flow -- Superplastic forming and diffusion bonding -- Commercial examples of superplastic products.
Summary	This 1997 book describes advances in the field of superplasticity. 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 challenge in attempts to understand the physical mechanisms that underpin it. The authors emphasise the materials aspects of superplasticity. They begin with a brief history of the phenomenon. This is followed by a description of the two major types of superplasticity - fine-structure and internal-stress superplasticity - together with a discussion of their operative mechanisms. In addition, microstructural factors controlling the ductility and fracture in superplastic materials are presented. 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. The technological and commercial applications of superplastic forming and diffusion bonding are presented and examples given.
Added Author	Wadsworth, Jeffrey, author. Sherby, Oleg D., author.
Subject	SUPERPLASTICITY. Ceramic materials Plastic properties.
Multimedia	https://doi.org/10.1017/CBO9780511525230

Total Ratings: 0

Copies
MARC Record
Reviews
Details


No records found to display.

03319nam a22004338i 4500

001

vtls001584972

003

VRT

005

20200921122300.0

006

m|||||o||d||||||||

007

cr||||||||||||

008

200921s1997||||enk o ||1 0|eng|d

020

$a 9780511525230 (ebook)

020

$z 9780521561051 (hardback)

020

$z 9780521020343 (paperback)

035

$a (UkCbUP)CR9780511525230

039

$y 202009211223 $z santha

040

$a UkCbUP $b eng $e rda $c UkCbUP

050

$a TA418.14 $b .N54 1997

082

$a 620.1/633 $2 20

100

$a Nieh, T. G., $e author.

245

$a Superplasticity in metals and ceramics / $c T.G. Nieh, J. Wadsworth, O.D. Sherby.

246

$a Superplasticity in Metals & Ceramics

264

$a Cambridge : $b Cambridge University Press, $c 1997.

300

$a 1 online resource (xiv, 273 pages) : $b digital, PDF file(s).

336

$a text $b txt $2 rdacontent

337

$a computer $b c $2 rdamedia

338

$a online resource $b cr $2 rdacarrier

490

$a Cambridge solid state science series

500

$a Title from publisher's bibliographic system (viewed on 05 Oct 2015).

505

$a Key historical contributions -- Types of superplasticity (FSS) -- Mechanisms of high-temperature deformation and phenomenologcal [sic] relations for fine-structure superplasticity -- Fine-structure superplastic metals -- Fine-structure superplastic ceramics -- Fine-structure superplastic intermetallics -- Fine-structure superplastic composites and laminates -- High-strain-rate superplasticity -- Ductility and fracture in superplastic materials -- Internal-stress superplasticity (ISS) -- Other possible superplasticity mechanisms -- Enhanced powder consolidation through superplastic flow -- Superplastic forming and diffusion bonding -- Commercial examples of superplastic products.

520

$a This 1997 book describes advances in the field of superplasticity. 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 challenge in attempts to understand the physical mechanisms that underpin it. The authors emphasise the materials aspects of superplasticity. They begin with a brief history of the phenomenon. This is followed by a description of the two major types of superplasticity - fine-structure and internal-stress superplasticity - together with a discussion of their operative mechanisms. In addition, microstructural factors controlling the ductility and fracture in superplastic materials are presented. 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. The technological and commercial applications of superplastic forming and diffusion bonding are presented and examples given.

650

$a SUPERPLASTICITY.

650

$a Ceramic materials $x Plastic properties.

700

$a Wadsworth, Jeffrey, $e author.

700

$a Sherby, Oleg D., $e author.

776

$i Print version: $z 9780521561051

830

$a Cambridge solid state science series.

856

$u https://doi.org/10.1017/CBO9780511525230

999

$a VIRTUA

No Reviews to Display

Summary	This 1997 book describes advances in the field of superplasticity. 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 challenge in attempts to understand the physical mechanisms that underpin it. The authors emphasise the materials aspects of superplasticity. They begin with a brief history of the phenomenon. This is followed by a description of the two major types of superplasticity - fine-structure and internal-stress superplasticity - together with a discussion of their operative mechanisms. In addition, microstructural factors controlling the ductility and fracture in superplastic materials are presented. 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. The technological and commercial applications of superplastic forming and diffusion bonding are presented and examples given.
Notes	Title from publisher's bibliographic system (viewed on 05 Oct 2015).
Contents	Key historical contributions -- Types of superplasticity (FSS) -- Mechanisms of high-temperature deformation and phenomenologcal [sic] relations for fine-structure superplasticity -- Fine-structure superplastic metals -- Fine-structure superplastic ceramics -- Fine-structure superplastic intermetallics -- Fine-structure superplastic composites and laminates -- High-strain-rate superplasticity -- Ductility and fracture in superplastic materials -- Internal-stress superplasticity (ISS) -- Other possible superplasticity mechanisms -- Enhanced powder consolidation through superplastic flow -- Superplastic forming and diffusion bonding -- Commercial examples of superplastic products.
Subject	SUPERPLASTICITY. Ceramic materials Plastic properties.
Multimedia	https://doi.org/10.1017/CBO9780511525230