AMST'05 Advanced Manufacturing Systems and Technology: Proceedings of the Seventh International ConferenceElso Kuljanic Manufacturing a product is not difficult, the difficulty consists in manufacturing a product of high quality, at a low cost and rapidly. Drastic technological advances are changing global markets very rapidly. In such conditions the ability to compete successfully must be based on innovative ideas and new products which has to be of high quality yet low in price. One way to achieve these objecti ves would be through massive investments in research of computer based technology and by applying the approaches presented in this book. The First International Conference on Advanced Manufacturing Systems and Technology AMST87 was held in Opatija (Croatia) in October 1987. The Second International Conference on Advanced Manufacturing Systems and Technology AMSV90 was held in Trento (Italy) in lune 1990. The Third, Fourth, Fifth and Sixth Conferences on Advanced Manufacturing Systems and Technology were all held in Udine (Italy) as follows: AMST93 in April 1993, AMST96 in September 1996, AMST99 in June 1999 and AMST02 in June 2002. |
From inside the book
Results 1-5 of 57
Page
... Italy by Lithostampa for FORUM , Udine © 2005 by CISM , Udine In order to make this volume available as economically and as rapidly as possible the authors ' typescripts have been reproduced in the original forms . This method ...
... Italy by Lithostampa for FORUM , Udine © 2005 by CISM , Udine In order to make this volume available as economically and as rapidly as possible the authors ' typescripts have been reproduced in the original forms . This method ...
Page
Sorry, this page's content is restricted.
Sorry, this page's content is restricted.
Page
Sorry, this page's content is restricted.
Sorry, this page's content is restricted.
Page
Sorry, this page's content is restricted.
Sorry, this page's content is restricted.
Page
Sorry, this page's content is restricted.
Sorry, this page's content is restricted.
Contents
I | 1 |
II | 5 |
III | 17 |
IV | 27 |
V | 41 |
VI | 57 |
VII | 67 |
VIII | 87 |
XLVII | 413 |
XLVIII | 427 |
XLIX | 437 |
L | 445 |
LII | 455 |
LIII | 465 |
LV | 473 |
LVI | 483 |
IX | 99 |
X | 117 |
XI | 125 |
XII | 135 |
XIII | 143 |
XIV | 155 |
XV | 165 |
XVII | 175 |
XVIII | 183 |
XIX | 193 |
XX | 201 |
XXI | 211 |
XXIII | 221 |
XXIV | 235 |
XXV | 247 |
XXVII | 257 |
XXVIII | 267 |
XXIX | 279 |
XXXI | 287 |
XXXIV | 297 |
XXXV | 307 |
XXXVI | 317 |
XXXVII | 327 |
XXXVIII | 337 |
XXXIX | 347 |
XLI | 357 |
XLII | 367 |
XLIII | 377 |
XLIV | 387 |
XLV | 397 |
XLVI | 403 |
Other editions - View all
Common terms and phrases
Advanced Manufacturing Systems alloys analysis application approach characteristics chip CIRP CISM CISM Courses coefficient components cost Courses and Lectures cutting forces cutting speed cutting tool defined design of experiments developed diameter dynamic effect Engineering equation evaluation experimental feed FIGURE friction friction stir welding function geometric grinding wheel heat implementation improve increase industrial Kuljanic laser layer linear m/min machine tool material matrix measured mechanical metal method methodology micro milling monitoring neural network obtained operations optimization output performance phase PID controllers possible pressure problem procedure production pultrusion reduce robot rotation roughness SCADA sensor simulation sintering Six Sigma specific Springer Wien structure surface Systems and Technology Table temperature thermal thermocouples tool holder tool path tool wear University of Udine variables welding Wien New York workpiece