last modified:
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This concerns a Instruction |
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ECTS credit points: 3 |
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Faculty of Mechanical Engineering and Marine
Technology |
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Section of Transport Technology |
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Lecturer(s):
Verheul, ir.
C.H. |
Tel.: 015 – 27 82889 |
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Catalog
data:
Mechanical
systems, dynamics, kinematics, statics, Multi body systems, transport
systems, crane dynamics, design process, virtual prototyping |
Course year: |
MSc 1st
year |
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Course language: |
English |
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In case of Dutch: Please contact the lecturer about an English
alternative, whenever needed. |
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Semester: |
1A / 2A |
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Hours per week: |
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Other hours: |
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Assessment: |
Computer test |
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Assessment period: |
1A, 2A |
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(see academic
calendar) |
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Prerequisites (course
codes): |
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Follow up (course
codes): |
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Detailed description
of topics:
The instruction
consists of a 5-day course in a block of 2 and a block of 3 complete days in
the period of two weeks consecutive weeks.
During the instruction, students
are taught to be able to independently use a high-end multi body modelling
and simulation software in a complex mechanical dynamics project. To educate
the engineering task of professionally using a multi body programme, a
selection of transport technical systems and problems are modelled and
investigated.
Examples of mechanical systems and
problems that will be modelled and analysed are: - Linkage mechanisms, -
Kinematics and dynamics of crane systems,
- Cable systems in transport
equipment,
- Conveyor belt systems.
The level and contents of the
course are equivalent to an ADAMS user course supplied to industrial
customers. |
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Course material: |
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References from
literature: |
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Remarks assessment,
entry requirements, etc.:
A basic
understanding of the dynamics of systems consisting of moving rigid bodies
(Multi Body System Dynamics) is assumed.
Assessment is performed by
observation of the ability to independently use the ADAMS software for a
given complicated dynamics task ate the end of the 5 day course. |
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Learning goals:
Gaining
sufficient knowledge of (the use of) numerical methods and dynamical and
mathematical consequences of modelling a mechanical system to enable
independent use a multi body simulation software (with application in
MSC.ADAMS) to perform a complex dynamics task. |
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Computer use:
The course is
performed on computers and consists of 40 % instructions and 60 % hands-on
use of simulation software on computers. |
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Laboratory project(s): |
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Design content:
The student must
be able to translate mechanical systems into a functional system of multibody
components |
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