Информация за научни конференции и семинари, посветени
на математичното моделиране и компютърната симулация
( декември, 2014)
Many
problems facing designers and engineers are dynamic in nature. The response
of a structure cannot be simply assessed using static assumptions. The
nature of the problem may be to understand the resonant frequencies of your
design, so that key driving frequencies such as equipment rotational speed,
acoustic or external pressure frequencies, ground motion frequency content or
vehicle passing frequency. Your
design may face external driving forces from adjacent components; cams, push
rods, pistons or from vehicle input sources such as a bumpy road, wave
loading, air pressure or inertial forces. Whatever
the nature of the challenge, this objective of this course is to break down
the dynamic problem into clearly defined steps, give an overview of the
physics involved and show how to successfully implement practical solutions
using Finite Element Analysis. E-learning
classes are ideal for companies with a group of engineers requiring training.
E-learning classes can be provided to suit your needs and timescale. Contact
us to discuss your requirements. Upcoming Courses CFD for Structural Designers and Analysts
|
Five-week online
training course
Recordings of all classes are available to attendees to
view at their convenience, so there is no need to attend every live session.
one 2.5-hour session per week
Engineering Board PDH Credits:12.5 hours*
REGISTER
TODAY TO SECURE YOUR PLACE
Many designs now use composite structures or components, taking
advantage of the increased structural strength and stiffness to weight ratios,
simpler manufacturing process or more innovative design capability that composites
bring. The nature of the composite used can range from cheap and freely
available glass fiber reinforced systems to exotic and specifically tailored
carbon or kevlar systems, with many forms of manufacturing process available.
The challenge for the designer and analyst is to determine the
resulting stiffness and strength of the design. Faced with the complexity of
real world structural systems the analyst has to make decisions on the type of
idealization and level of detail required in the FEA analysis.
Due to the nature of the composite the stress components can
include many more terms than a conventional metallic material for
example.Whatever the nature of the challenge, this objective of this course is
to break down the composite analysis process into clearly defined steps, give
an overview of the physics involved and show how to successfully implement
practical solutions using Finite Element Analysis.
This course is aimed at practicing engineers who wish to learn
more about how to apply finite element techniques to composite analysis in the
most effective manner. Ideally a student should have some experience of FEA
analysis, but this is not essential. The material that is presented is
independent of any particular software package, making it ideally suited to
current and potential users of all commercial finite element software systems.
This course is a must for all engineers aiming to use FEA as a reliable
predictive tool for composite analysis.