Optimering av kranarmar : Kahlman produkter AB

Rothschedl, Christian, Netshagen, Tobias

January 2002

No description available.

Kahlman produkter AB

Transportanodrningar

UniGraphics

Hållfasthet

CFD-simulering av luft- och temperaturflöde i ett apparatskåp

Svedjeland, Magnus

January 2004

No description available.

CFD

CAD

Kraftelektronik AB

UniGraphics

Kylning

Concept development of a single wishbone independent rear suspension

Klomp, Matthijs, Nygren, Anders

January 2005

No description available.

Fordonsteknik

Chassi

Unigraphics

SAAB

Produktutveckling

Hjulupphängning

Optimering av kranarmar : Kahlman produkter AB

Rothschedl, Christian, Netshagen, Tobias

January 2002

No description available.

Kahlman produkter AB

Transportanodrningar

UniGraphics

Hållfasthet

CFD-simulering av luft- och temperaturflöde i ett apparatskåp

Svedjeland, Magnus

January 2004

No description available.

CFD

CAD

Kraftelektronik AB

UniGraphics

Kylning

Concept development of a single wishbone independent rear suspension

Klomp, Matthijs, Nygren, Anders

January 2005

No description available.

Fordonsteknik

Chassi

Unigraphics

SAAB

Produktutveckling

Hjulupphängning

Testing the Intelligent Machining Worksation

D'Souza, Sachin

27 November 2002

No description available.

Engineering, Industrial

IMW

VNC

Tool paths

PartElement

UDMM

env

Unigraphics

INTEGRATION OF UNIGRAPHICS AND COST ADVANTAGE FOR AIRCRAFT ENGINE PARTS CONFIGURATION

Chintamaneni, Prashantkumar

January 2000

No description available.

Engineering, Industrial

unigraphics advantage

cost advantage

aircraft

engine parts

configuration

AUTOMATIC SETUP SELECTION AND OPERATION SEQUENCING FOR COMPUTER-AIDED MANUFACTURING SOFTWARE

Neerukonda, Narender

January 2005

No description available.

CAD

CAM

CAPP

CIM

CNC

Process Sequencing

Operation Clustering

Unigraphics

XML

Java

JNI

A simplified analysis of the vibration of variable length blade as might be used in wind turbine systems

Tartibu, Kwanda

January 2008

Vibration is an inherent phenomenon in dynamic mechanical systems. The work undertaken in this thesis is to identify natural frequencies of a variable length blade. Therefore designers can ensure that natural frequencies will not be close to the frequency (or integer multiples) of the main excitation forces in order to avoid resonance. For a wind turbine blade, the frequency range between 0.5 Hz and 30 Hz is relevant. The turbine blade is approximated by a cantilever, therefore, it is fully constrained where attached to a turbine shaft/hub. Flap-wise, edge-wise and torsional natural frequencies are calculated. The MATLAB program “BEAMANALYSIS.m” has been developed for the finite element analysis of a one dimensional model of the beam. Similarly, a three dimensional model of the beam has been developed in a finite element program Unigraphics NX5. The results found using the MATLAB program are compared with those found with NX5. Satisfactory agreement between the results is found for frequencies up to almost 500 Hz. Additionally, the frequencies one might expect in an experiment are identified. Experimental modal analysis has been performed on a uniform and stepped beam made of mild steel to extract the first five flap-wise natural frequencies. The results found have been compared to numerical results and the exact solution of an Euler-Bernoulli beam. Concurrence is found for the frequency range of interest. Although, some discrepancies exist at higher frequencies (above 500 Hz), finite element analysis proves to be reliable for calculating natural frequencies. Finally, the fixed portion and moveable portion of the variable length blade are approximated respectively by a hollow and a solid beam which can be slid in and out. Ten different configurations of the variable length blade, representing ten different positions of the moveable portion are investigated. A MATLAB program named VARIBLADEANALYSIS.m was developed to predict natural frequencies. Similarly three dimensional models of the variable length blade have been developed in the finite element program Unigraphics NX5. / This work was supported by the Research office of CPUT.