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8/12/2019 resilient_ship_design_course_2014_tno.pdf
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DEFENCE, SAFETY AND SECURITY
RESILIENT SHIP
DESIGN COURSEAGAINST UNDER WATER AND ABOVE WATER THREATS
13-16 MAY 2014
AMSTERDAM
TNO has developed a combinedprogramme for their leading
courses on resilient design against
underwater and above water
threats. Four days of in depth and
valuable theory will be combined
with demonstrations and examples
of implementation from industry.
FOR WHOM?
The course is aimed at
Survivability experts
Designers of naval vessels
Naval ship manufacturing industry
Managers of new naval projects Project engineers who make specificati-
ons of naval equipment and installations
Engineers who monitor naval building or
upgrade projects
Those responsible for technical
procurement
Classification society
PURPOSE OF THE COURSE
The main purpose of the course is to learn
the basics of designing against modern
above water and underwater threats in a
cost and mass effective way. The course is
specifically focused on early design stagesin which crucial decisions have to be made
within short periods of time. Participants
will learn the principles of ship survivability,
so that they are able to design themselves,
to communicate with specialists or to judge
an underwater shock problem or above
water threat. The knowledge can also be
applied to upgrade ships for new threats.
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D E FE NC E , SA FE T Y A ND SE C U R IT Y D E FE NC E , SA FE T Y A ND SE C U R IT Y
Governing loads on structural elements
Response of the structure: SDOF under
blast
Approach for blast resistant design,
structural details and simulation tools
Composite materials
Ballistics
Basic ballistics: failure mechanisms,
energy dissipation, modeling, penetra-
tion mech anics
Fragments, bullets, shaped charges and
countermeasures
Fragment ejection from warhead
Behind armour effects
Test methods
Protection solutions
Fire and countermeasures
Hazard identification and design fires
Modeling of fire Active and passive fire fighting
System analysis
System lay-out and network analysis
Automation, recoverability,
reconfiguration and OODA-loop
Damage control optimisation
Practical elements
Ballistic test in TNOs Laboratory of
Ballistics Research
Demonstration of a shock test in the
state-of-the-art TNO Shock Lab
Exercise in a case study
Participants will be provided with basic
software tools for blast and fragment
protection and fire safety engineering.
LECTURERS
Hans van Aanhold
Senior research scientist, with TNO since
1991. Performed and conducted projects
related to underwater shock modelling and
testing, vibration s and compo site
structures.
COURSE PROGRAMME
Threats
Description of anti-ship missiles
Grenades, shaped charges and bullets
Close-in explosions like on USS Cole
Mines and torpedoes
General ship survivability design
Relevant aspects that determine
survivability, design goals, guidelines,
possibilities for vulnerability reduction
From staff requirements to equipment
shock specifications
lntegrating vulnerability reduction in ship
design, practical issues and pitfalls.
Underwater shock
Phenomena and effects
Mechanics of a single mass-spring-dam-
per system: natural frequency, vibration
response, shock response
Shock Response Spectrum Shock resistant designs: spring mounting
arrangements, dos and donts
Mechanics of a two mass-spring-damper
system: natural frequency, vibration
response, shock response
Modal shock response analysis
Introduction dynamic analysis methods
Behaviour of springs
Shock specifications
Laboratory shock test methods
Relation with other shocks: earthquake,
impact, dropping, transport
Blast response
Basics of blast
External blast
Blast phenomena in a ship
Bert Bosman
Senior project engineer, with TNO since
1982. Performed and conducted projects
related to dynamic shock and vibration
testing of structures as well as desktop
studies.
Erik Carton
Senior scientist ballistic protection and
materials. As materials scientist active in
blast and impact phenomena, including
explosive metal working technologies, for
over 15 years. Generated energy-based
engineering models that describe projec-
tile- target intera ction for sever al ballis tic
material types (metals, fabrics, ceramics).
Andr van Erkel
Team leader Ship protection and survivabi-
lity of maritime platforms TNO. Expert in
ship vulnerability. Involved in this area for
nearly 30 years and focused on: structural
modelling, blast modelling, explosive
testing of fu ll scale s hips, rad ar protection ,
metal failure modelling with universities
and successfully developed and patented
blast resistant bulkheads and doors.
Kirk Green
Project manager, with TNO since 2008.
Point of contact for qualification, and
research driven, shock testing undertaken
at TNO. Also responsible for shock mount
characterisation programs and many
consequences.
Jaap Parent
(Netherlands Ministry of Defence
Materiel Organisation)
Senior officer Vulnerability Reduction. Jaap
manages R&D projects on vulnerability
and related topics, and supports the
Netherlands MoD Staff, the Navys
Operational Command, DMO designers and
project engineers on vulnerability matters.
Clarel Smit
Clarel has major experience with analysing
the effect s of weapons used agai nst
warships, and with improving ships to
withstand these effects. He is responsible
for the development of a methodology forvulnerability analyses. Senior scientist, with
TNO since 1989
Wim Trouwborst
Senior scientist and project manager, with
TNO since 1986. Performed and conduc-
ted project s related to u nderwate r shock
modelling and analysis and composite
structures.
Andr Vaders
(Netherlands Ministry of Defence Materiel
Organisation)
Senior Expert Structural Mechanics.
Expert member of the NLD-UK BNCP-R24
team for the a spects sh ock, vulne rability
and structures and member of the
NLD-DEU Shock Expert Group.
Rogier van der Wal
Scientific researcher. Started with TNO in
2000 on ship vulnerability and has been
working on ship structures against fire and
ballistics ever since. Provided integral
solutions for the Royal Netherlands Navy to
maximise survivability of both the Joint
Support Ship and Patrol Vessels.
Guest lecturers from industry will
contribute with practical lectures.
Design against underwater shock
Simulation of an internal explosion in a reforced ammunition storage
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DEFENCE, SAFETY AND SECURITY
TNO.NL
WEBSITE
www.tno.nl/resilientshipdesigncourse/
CONTACT
For further information, please contact:
Louise Michon
(for administrative inquiries)
T +31 88 866 33 50
Rogier van der Wal
(for technical content)
T +31 88 866 13 32
TNO Structural Dynamics
P.O. Box 49
2600 AA Delft
The Netherlands
COURSE LEVEL AND LANGUAGE
The required level of education for both
courses is a Higher National Certificate in
engineering or a University degree in
Engineering. A basic understanding of
mechanics and/or mechanical vibrations is
recommended. The course language will be
English.
DATES
The Resilient Ship Design Course will take
place 13-16 May 2014. Excursions to the
TNO Shock Lab and the Laboratory for
Ballistics Research will be in the afternoon
of Wednesday the 14th of May. Course
times are from 08:30 to 17:00.
VENUE AND ACCOMMODATION
Course venue is The Cristofori Concert Hall,
Prinsengracht 583, Amsterdam. Ways to getto the venue and suggest ions for nearby
hotels are given on the course website.
THE COURSE SURPASSED MY EXPECTATIONS.
THE COURSE HAS BEEN MORE PRACTICAL THAN
EXPECTED WHICH IS A PLUS.
COURSE MATERIAL IS VERY GOOD (COLOURED
PRINT-OUTS & USB STICK)
IT WAS OBVIOUS THAT THE PRESENTERS WERE
NOT JUST PROFESSIONAL EXPERTS BUT ALSO
ENTHUSIASTIC ABOUT THEIR SUBJECTS.
VERY GOOD AND VALUABLE
DEMONSTRATIONS.
Comments on previous editions
COST
2900 excl. VAT and excl. hotel accommoda-
tion but incl. a hard copy of course proceed-
ings, lunches and beverages. There is an
early bird discount of 10% for applications
placed before the 31st of January 2014.
CANCELLATION
Cancellations received in writing two months
before the event takes place will be subject
to an administration charge of 500.Cancellations received after this time cannot
be accepted and are subject to the full event
fee. Delegates may be substituted. Should
the number of applications not exceed 20,
then TNO preserves the right to cancel the
course no later than six weeks before start
of the course, in which case paid registra-
tion fees will subsequently be refunded.
REGISTRATION
You can register by sending an e-mail
stating your name, company/organisation
and address to [email protected]. After
reception of your registration, we will send
you payment instructions. Your registration
will be confirmed after reception of your
payment.