new arrivals @ perpustakaan kejuruteraan - books - UiTM Library
new arrivals @ perpustakaan kejuruteraan - books - UiTM Library
new arrivals @ perpustakaan kejuruteraan - books - UiTM Library
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36 TA<br />
418.9<br />
.N35<br />
I54<br />
2009<br />
(Level 5)<br />
37 TA<br />
418.14<br />
.S86<br />
2011<br />
(Level 5)<br />
38 TA<br />
455<br />
.C43<br />
A38<br />
2012<br />
(Level 5)<br />
Nanostructured Materials, Thin<br />
Films and Hard Coatings for<br />
Advanced Applications / edited<br />
by L. Kolakieva & R.<br />
Kakanakov<br />
Superplastic forming of<br />
advanced metallic materials /<br />
edited by G. Giuliano<br />
Advances in science and<br />
technology of Mn+1AXn phases<br />
/ edited by I. M. Low<br />
_<br />
_<br />
1<br />
1<br />
1<br />
1<br />
This special collection of peer-reviewed papers<br />
focuses on the technology, characterization and<br />
equipment required for handling nanocomposite<br />
films and hard and superhard coatings. It also<br />
covers subjects related to the development,<br />
properties and methods for the characterization<br />
of nanostructured materials for: solid-state<br />
electronics and energy technologies;<br />
nanocomposite films, hard and superhard<br />
coatings, tribological / corrosion-resistant<br />
coatings; surfaces and interfaces; nano-sensors,<br />
nanodevices and nanosystems, Equipment for<br />
deposition and characterization of<br />
nanocomposite Ultra fine-grained films metals and can industrial show application exceptional of<br />
ductility, known as superplasticity, during sheet<br />
forming. The higher ductility of superplastic<br />
metals makes it possible to form large and<br />
complex components in a single operation<br />
without joints or rivets. The result is less waste,<br />
lower weight and manufacturing costs, high<br />
precision and lack of residual stress associated<br />
with welding. This produces components ideal<br />
for aerospace, automotive and other<br />
applications. This book summarizes key recent<br />
research on this important process. Part one<br />
reviews types of superplastic metals, standards<br />
_ 1 1 for MAX superplastic phases are forming, a <strong>new</strong> class processes of materials and that<br />
exhibit a unique combination of characteristics of<br />
both ceramics and metals. MAX phases are<br />
nano-layered ceramics with the general formula<br />
Mn+1AXn where "M" is an early transition metal,<br />
"A" is a group-A element and "X" is either carbon<br />
or nitrogen. Similar to ceramics, they possess<br />
low density, low thermal expansion coefficient,<br />
high modulus and high strength, and good high<br />
temperature oxidation resistance. Like metals,<br />
they are good electrical and thermal conductors,<br />
readily machinable, tolerant to damage and<br />
resistant to thermal shock.<br />
I.M. Low has compiled 15 peer-reviewed<br />
FKJM<br />
FKJM<br />
FKJM