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Today and in the near future we protectively install commercial-off-the-shelf (COTS) equipment in our flight, land vehicles and shipboard locations where vibration and shock can be severe. We laboratory test the protected equipment (1) to assure twenty years equipment survival and possible combat, also (2) to meet commercial test standards, IEC documents, military standards such as STANAG or MIL-STD-810G, etc. Few if any engineering schools teach about such protection or such testing.
Hence this specialized course.
presented by
Steve Brenner
March 11-13, 2008
(9am - 5pm)
at
Thales Cryogenics BV
Hooge Zijde 14
5600 HA Eindhoven, The Netherlands
Course description
Discussion, supported by projected visuals and video clips. Commencing with a review of basic vibrations, sources and causes, we will explore vibration measurements, analysis and calibration. We’ll compare sinusoidal vs. random vibration testing systems, specifications, standards and procedures. We will discuss ESS, HALT and HASS. We’ll emphasize vibration and shock test fixture design, fabrication, experimental evaluation and usage. Also shock measurement, shock response spectrum (SRS) and shock testing. Review of modal testing. We emphasize topics you will use immediately.
Objectives
After this short course, you will be able to
- measure vibration and shock,
- calibrate vibration and shock measurement systems,
- convert field measured data into a test program,
- interpret vibration and shock test requirements,
- supervise vibration and shock tests,
- specify and experimentally evaluate vibration and shock test fixtures,
- perform ESS, HALT and HASS.
When you visit a lab or review a test program, you will have a good understanding of the requirements and execution of a dynamics test and so be able to ask meaningful questions and understand the lab’s responses.
For whom intended
I need practical knowledge about mechanical vibration and mechanical
shock test, measurement, analysis, designing for dynamics also calibration
and/or control because my work requires me to:
• I instrument land, sea and air vehicles
as well as fixed-based equipment, in order to measure mechanical
vibration and/or shock in service and during transport.
• I analyze dynamic responses to mechanical
vibration and shock inputs during normal and abnormal transport.
• My title may be mechanical engineer, mechanical
designer or packaging engineer. I design (ruggedize) products that must withstand
factory handling + transport + normal
and abnormal
usage.
I design
products
to dynamic requirements, which I don't fully understand. Then I send a prototype
to our lab for testing. I really don't understand what our lab does. I'd
better
find out.
• I write contracts for procuring high-rel equipment.
I need to understand HALT, ESS and HASS. When do these acronyms apply? How do
I insure that potential contractors will appropriately implement the random
vibration requirements of these acronyms? What is
g2/Hz?
• I work in an environmental test lab.
We perform vibration and shock tests on prototype hardware. These
tests may be part of developing a new product, of determining vibration
levels for future production ESS (environmental stress screening)
or production tests, or of investigating in-service or transport
failures.
• I calibrate various vibration and shock
sensors (including accelerometers) and analyze vibration and/or
shock.
• I design to control (reduce) the intensity of vibration
and/or shock, which otherwise may damage equipment that cannot be made sufficiently
rugged to survive all inputs.
• I maintain machinery whose vibration
signature can warn of approaching failure.
If you thought, "aha - that's what I'm supposed to do" to
any of the job descriptions listed above, then the instructor says, "This
course is intended for you." It will help you move up your own "learning curve."
A smaller group, for whom the instructor also intends
this course: supervisors of any of the above listed activities.
Perhaps you were thrust into this responsibility without adequate
training. Maybe your predecessor had no opportunity to alert you
to potential difficulties. You certainly need to know what your
people are talking about. Possibly you had no formal training for
your present responsibilities. You need to explain your department's
activities to your superiors in the technically correct language.
Perhaps you need to decide between "in house" and "outside" testing.
Course Outline
Introduction for management and participants
-
Purpose of environmental
testing, particularly vibration and shock
-
Purpose of environmental
stress screening (ESS)
-
Types of vibration tests:
resonance search/dwell, fatigue, specification
-
Approximate scheduling so
managers can audit special topics
Quiz for evaluation of attendee
prior knowledge
Classical sinusoidal vibration never observed
in service; useful concept
-
Introduction: terminology,
structural resonant behavior, passive and active isolation
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Sinusoidal vibration measurements:
units, sensors, readouts, errors
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Calibration of sensors and
systems; traceability to NIST
Most machinery vibration is complex; introduction
to
spectrum analysis
Sinusoidal vibration testing
-
Electrohydraulic and electrodynamic
shakers; theory, tradeoffs, limits
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Power amplifier theory,
operation, limitations, distortion effects
-
Controls for sinusoidal vibration
testing
-
Sinusoidal vibration test
practice
-
Interpretation of standards;
e.g. MIL-STD-810
-
Controversial test methodology:
tracking filters, switching and averaging among sensors
Introduction to random vibration
-
Sources of random vibration
in service and transportation
-
No possible equivalence to
sinusoidal vibration
-
Terminology and definitions
-
Spectral density measurement
and analysis - the frequency domain. What is g2/Hz?
-
Probability density - the
time domain
Random vibration test practice
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Interpreting and implementing
standards, e.g. MIL-STD-810
-
Equalization before testing;
methods and limits
-
Controls
-
Electronic protection for
test items and shaker system
- Simultaneous multaxis vibration testing
Combined environment (CERT)
testing; reliability tests, e.g. MIL-STD-781
Environmental stress screening (ESS) of
electronics hardware production
Highly accelerated life testing (HALT),
environmental stress screening (ESS) and highly accelerated stress
screening (HASS) of electronics hardware production.
-
Single vs. multi-axis vibration.
-
Pneumatic repetitive-shock
(RS) machines.
-
Acoustic excitation of printed
wiring boards (PWB).
Vibration and shock test fixtures; fixtures for
stress screening
-
Recommended designs, materials,
fabrication methods
-
Experimental evaluation before
use
-
Practical limits: transverse
motion; specimen size and weight
Accomodating oversized loads
Instrumentation for measuring shock in
service and during tests
Shock spectrum analysis; shock
response spectrum
Shock testing standards and methods
Modal testing
Witnessing of tests
Course summary; optional final examination;
award of certificates
Text Materials
Each participant receives a copy of Wayne's 2005 text 'A minimal-mathematics Introduction to the Fundamentals of Random Vibration and Shock Testing, HALT, ESS & HASS, also Measurements, Analysis & Calibration', including a CD containing a number of video clips pertaining to sine and random vibration and shock behavior and testing.
Fee and Registration
The cost of participation is € 2.300,-- (ex. VAT). This includes course material, refreshments and lunch.
Please visit j.j. bos b.v website for registration and payment. You can also e-mail vibration@jjbosbv.nl.
Course Location
Thales Cryogenics BV
Hooge Zijde 14
5600 HA Eindhoven, The Netherlands
telephone number:
+31 (0)182-619333
fax number:
+31 (0)182-611770
Hours
9am to 5pm
Suggestion for
Accommodation
Hotel Novotel Eindhoven
Anthony Fokkerweg 101
5657 EJ Eindhoven
Direct aan de A2, afrit nr. 29
tel.:+31 40 252-6575
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Steve
Brenner
Steve has been working
in the field of environmental simulation and reliability testing
for over 30 years, beginning in the late sixties with reliability
and design verification testing on the Lunar Module, the Space
Shuttle in the eighties and semiconductor manufacturing equipment
in the nineties, Steve has always been involved with the latest
techniques for verifying equipment integrity through testing.
Steve began his career as an Environmental test engineer with
Grumman Aerospace Corporation in New York, then worked as design
verification and reliability engineer for the Air Force, as an
Environmental Test Engineer for Lockheed Missiles and Space
company, and finally spent 18 years with Kaiser Electronics in San
Jose, where he managed the Environmental Test Lab and was
involved with the design of hardware intended for severe environments.
Steve has been working as an independent consultant in the reliability
testing field since 1996. His client base includes American
and European companies with products: telecommunications,
automated test equipment, airborne displays, network equipment,
medical equipment, semiconductor manufacturing equipment,
automation, aircraft instrumentation, workstations, ruggedized
commercial electronic products (COTS), fiber optics components
and systems. Steve's experience includes the entire range
of climatic and dynamic testing, including ESS, HALT, HASS and
long term reliability testing. |
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"I was a student of Mr.
Brenner's HALT class. The class included a good overview of
theory infused with well thougt out practical application.
Mr. Brenner effectively addressed areas of concern, presented
the material skillfully and made good use of time. I highly
recommend Mr. Brenner."
Dennis Schmalz, Environmental
Test/Reliability Engineer, Pemstar Inc. |
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"Having
worked with Steve Brenner for the last 11 years, I have seen
first hand the depth of his expertise in environmental test
and evaluation. His knowledge first becomes apparent with
an interpretation of test requirements and a unique ability
to synthesize test plans and procedures. But more than theoretical
knowledge, Steve has performed almost every environmental
test I can think of. His communications both written and oral
are clear and concise. I can't think of a better expert to
teach a course on Climatic Testing."
Lawrence
M. Cuprys, Director of Engineering, Visual Products Group,
Kopin Corporation
Los Gatos, California |
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