Search results for "Application"
showing 10 items of 5559 documents
TRANSIENT SEMICONDUCTOR DEVICE SIMULATION INCLUDING ENERGY BALANCE EQUATION
1992
An efficient numerical method for the solution of hot‐carrier transport equations describing transient processes in submicrometer semiconductor devices is proposed. The calculations of transient processes in submicrometer MOS transistor were carried out and compared with the results obtained by conventional drift‐diffusion model.
Computational nuclear quantum many-body problem: The UNEDF project
2013
The UNEDF project was a large-scale collaborative effort that applied high-performance computing to the nuclear quantum many-body problem. The primary focus of the project was on constructing, validating, and applying an optimized nuclear energy density functional, which entailed a wide range of pioneering developments in microscopic nuclear structure and reactions, algorithms, high-performance computing, and uncertainty quantification. UNEDF demonstrated that close associations among nuclear physicists, mathematicians, and computer scientists can lead to novel physics outcomes built on algorithmic innovations and computational developments. This review showcases a wide range of UNEDF scien…
Application dans le temps de la convention de La Haye du 19 octobre 1996
2014
International audience; Civ. 1re, 20 mars 2013, 2 arrêts, n° 11-24.388 et 11-28.025, D. 2013. 837 ; AJ fam. 2013. 298, obs. A. Boiché
TIO2 brookite: Properties, synthesis and applications
2017
Brookite is one of the less studied polymorphic phases of titanium dioxide. Indeed, synthetic procedures affording brookite as a pure phase were not straightforward and have been only recently optimized. For this reason, brookite has received particular attention in the last years, especially as a promising photocatalytic material for environmental remediation and for the synthesis of valuable organic products. The present chapter will review the main synthetic methods reported in literature to produce brookite as a pure phase or mixed with rutile and/or anatase. Morphological, structural and electronic properties both of pure or variously modified brookite will be presented. The particular…
Study on the application of CAM techniques on CNC lathes with Y axis and driven tools
2021
Abstract CNC lathes with Y axes and driven tools are machine-tools with complex kinematic. Using CAM techniques to program these machines is a cumbersome process and could easily lead to collisions. Collisions may occur not only between tools and workpiece but also between the mobile elements of the CNC lathe. While CAM software package can identify the first type of collisions, for the second type supplementary measures must be taken. This work presents the build of a kinematic model of such a CNC lathe and how can the CAM techniques be improved by using this model.
Special Section Guest Editorial:Special Section on Quality Control by Artificial Vision: Nonconventional Imaging Systems
2015
This PDF file contains the editorial “Special Section Guest Editorial:Special Section on Quality Control by Artificial Vision: Nonconventional Imaging Systems” for JEI Vol. 24 Issue 06
Special Section on Quality Control by Artificial Vision
2008
This PDF file contains the editorial “Editorial: Special Section on Quality Control by Artificial Vision” for JEI Vol. 17 Issue 03
Decision-making Tool for Moving from 3-axes to 5-axes CNC Machine-tool
2016
Abstract Nowadays most of the parts within machine-building industry are machines on CNC machine-tools. According to their mechanical and kinematic structure, CNC machine-tools can be divided into 3-axes and 5-axes ones. Each type has its advantages and drawbacks and choosing between them could be a very difficult process. This paper presents a decision support tool for aiding the process of selecting between using and/or buying either a 3-axes CNC milling machine or a 5-axes milling machine, based upon fuzzy logic. The tool was built using the Fuzzy Logic Toolbox and the fuzzy graphical user interface (GUI) within Matlab software package.
SOFTWARE FOR DRILLING TOOL DESIGN AND MANUFACTURING
2007
Abstract The paper presents a software that allows the design and manufacturing of cutting tools for boring. The methodology contains several steps that can be taken only by using the software modules. The main stages are the geometrical and dimensional design of the cutting tool, the design and generation of the abrasive profiled disks, the management of abrasive disks and disk package, the generation of the manufacturing technology, the verification of the cutting tool using virtual simulation, testing the manufacturing process using virtual simulation, generating the CNC files and finally the transmission of the CNC files in real time to the CNC machine tool so that the tools can be manu…
Designing an Innovative Face-Milling Cutter
2013
The paper consists in a research in the design of an innovative face-milling cutter, in terms of product lifecycle management (PLM), with the help from creative design methods, such as TRIZ. The model of the lifecycle management of the cutting tools was presented, emphasizing the functional analysis and creative design phase. Based on this analysis, a new constructive variant of the milling cutter was designed and simulated with finite element method, highlighting its advantages compared with classic construction variants.