MSC Training Catalogue Nordic 2020 - MSC Software
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TRAINING 2020
MSC Training Catalogue
Nordic 2020
Hängpilsgatan 6, SE-426 77, Västra Frölunda, Sweden
Tel: +46 (0)31 7485990
Email: info.se@mscsoftware.com
www.mscsoftware.com/nordic
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TRAINING 2020
Content
About MSC Software .................................................................................................................................................. 5
Solutions ................................................................................................................................................................................ 5
Specialist Solutions ................................................................................................................................................................. 7
Acoustic calculations .............................................................................................................................................................. 7
Material data and simulations of composites ........................................................................................................................ 7
Manufacturing process simulation......................................................................................................................................... 7
Computational fluid dynamics ............................................................................................................................................... 7
Autonomous driving simulation ............................................................................................................................................. 8
MSC Ecosystems .................................................................................................................................................................. 8
Student Edition ...................................................................................................................................................................... 8
FEA Masters Program............................................................................................................................................................. 8
Training .................................................................................................................................................................................. 9
Offering .................................................................................................................................................................................. 9
Registration ............................................................................................................................................................................ 9
MSC Learning Center.............................................................................................................................................................. 9
Calendar ............................................................................................................................................................................... 11
Actran ........................................................................................................................................................................ 14
ACT101- Introduction into Actran ........................................................................................................................................ 14
Adams ........................................................................................................................................................................ 15
ADM701 - Basic Full Simulation ........................................................................................................................................... 15
ADM703A+B+C – Advanced Adams Solver .......................................................................................................................... 15
ADM704A – Advanced Parametric Model Building in Adams View ..................................................................................... 16
ADM704B – Automating Tasks using Adams View ............................................................................................................... 17
ADM710 - Flex Body Dynamics and Modal Stress Recovery using Adams ........................................................................... 17
ADM711 – Control System Integration with Adams using MATLAB and Easy5 ................................................................... 19
ADM720 – Frequency Domain Analysis using Adams Vibration .......................................................................................... 19
ADM730 – Design of Experiments (DOE) and Stochastics (Monte Carlo) Analysis using Adams ......................................... 20
ADM740 – Vehicle Modelling and Simulation using Adams Car .......................................................................................... 20
ADM741 – Vehicle Drivetrain Modelling using Adams Driveline ......................................................................................... 21
ADM750 – Gear, Belt, and Chain Modelling with Adams Machinery ................................................................................... 22
Cradle ....................................................................................................................................................................... 23
CRA101 – SC/Tetra Basic ...................................................................................................................................................... 23
CRA201 – scSTREAM Basic (Building & Architecture)........................................................................................................... 24
CRA202 – scSTREAM Basic (Electronics)............................................................................................................................... 25
CRA301 – Introduction to scFLOW ....................................................................................................................................... 26
Digimat ....................................................................................................................................................................... 27
DIG201 - Digimat Standard Training – Structural Engineering ............................................................................................. 27
DIG201 - Digimat Standard Training – Material Engineering ............................................................................................... 27
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Dytran ........................................................................................................................................................................ 28
DYT101 – Explicit Structural and Fluid-Structure Interaction Analysis using Dytran ............................................................ 28
DYT103 – Occupant Safety ................................................................................................................................................... 29
Easy5 ......................................................................................................................................................................... 30
EAS101 - Easy5 Dynamic System Modelling Simulation and Analysis using Easy5 (Intro Class)........................................... 30
EAS103 - Easy5 Modelling Simulation of Fluid Power Systems using Easy5......................................................................... 30
EAS105 - Modelling Simulation of Gas Systems using Easy5 ................................................................................................ 31
Flightloads ................................................................................................................................................................ 32
FLD120 – Introduction to MSC Nastran Aeroelasticity using Flightloads and Patran........................................................... 32
Marc ........................................................................................................................................................................... 33
MAR101 – Marc Introductory Course .................................................................................................................................. 33
MAR102 - Marc/Mentat Advanced Course .......................................................................................................................... 33
MAR103 – Marc Experimental Elastomer Analysis .............................................................................................................. 34
MAR106 – Electromagnetic Analysis using Marc ................................................................................................................. 34
MAR120 - Marc/Patran Introductory Course ....................................................................................................................... 35
MAR299 - Marc Programming Course ................................................................................................................................. 35
MaterialCenter ........................................................................................................................................................... 36
MAT101 - Introduction to MaterialCenter ........................................................................................................................... 36
MAT102 – MaterialCenter for the Materials Engineer......................................................................................................... 36
MSC Nastran ............................................................................................................................................................. 37
NAS101A - Basic MSC Nastran Linear Static, Normal Modes and Buckling Analysis ............................................................ 37
NAS101B - Advanced Linear Analysis using MSC Nastran .................................................................................................... 37
NAS102A - MSC Nastran Dynamic Basic Analysis ................................................................................................................. 38
NAS 102B - Advanced Dynamic Analysis using MSC Nastran ............................................................................................... 39
NAS103 - Nonlinear Analysis ................................................................................................................................................ 40
NAS104 - Thermal Analysis with MSC Nastran ..................................................................................................................... 41
NAS105 - Practical Finite Element Modelling Techniques using MSC Nastran..................................................................... 42
NAS106A - Superelement Analysis with MSC Nastran ......................................................................................................... 42
NAS 106B - Advanced Substructure Analysis using MSC Nastran - Secondary Superelements ........................................... 43
NAS107 - Optimisation with MSC Nastran ........................................................................................................................... 43
NAS110 - Working with Custom MSC Nastran Solution Sequences using DMAP................................................................. 44
NAS111 – Aeroelasticity using MSC Nastran ........................................................................................................................ 45
NAS 113 - Composite Material Analysis with MSC Nastran ................................................................................................. 45
NAS 115 - Fluid Structure (Acoustic) Analysis using MSC Nastran ....................................................................................... 46
NAS120 - Linear Structural Analysis with MSC Nastran and Patran ..................................................................................... 46
NAS122 - Dynamic Structural Analysis with MSC Nastran and Patran ................................................................................. 47
NAS123 – MSC Nastran Implicit Nonlinear (SOL 600) Analysis ............................................................................................ 47
NAS 124 - Thermal Analysis using MSC Nastran (SOL400) ................................................................................................... 48
NAS126 – Explicit Nonlinear Analysis using MSC Nastran and Patran ................................................................................. 48
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NAS127 - Rotordynamic Analysis using MSC Nastran .......................................................................................................... 49
NAS133 - Contact Analysis using MSC Nastran and Patran .................................................................................................. 50
NAS319A - Fatigue & CAE Integration .................................................................................................................................. 51
NAS319B - Fatigue & Dynamics - The Reliability of Vibrating Systems ................................................................................ 52
NAS 319C - Practical Implementation of Fatigue Methods with MSC Nastran, Patran and Other Applications .................. 52
NAS400 - Implicit Nonlinear Analysis using MSC Nastran and Patran.................................................................................. 53
Patran ......................................................................................................................................................................... 54
PAT301 - Introduction to Patran .......................................................................................................................................... 54
PAT302 - Advanced use of Patran ........................................................................................................................................ 54
PAT304 – Introduction to Patran Command Language (PCL) ............................................................................................... 55
PAT 318A - Basic Durability and Fatigue Life Analysis Using MSC Fatigue ........................................................................... 55
PAT 318B - Advanced Durability and Fatigue Life Analysis Using MSC Fatigue .................................................................... 56
PAT325 - Composites Analysis using Laminate Modeller ..................................................................................................... 57
Python ........................................................................................................................................................................ 58
PYT101 – Python Programming Language for MSC Applications ......................................................................................... 58
PYT102 – Python for Adams Engineers ................................................................................................................................ 59
Simufact .................................................................................................................................................................... 60
SMF101 - Introduction to Simufact Forming ........................................................................................................................ 60
SMF102 – Simulation of mechanical joining processes using Simufact Forming ................................................................. 60
SMF201 - Introduction to Simufact Welding ........................................................................................................................ 61
Sinda .......................................................................................................................................................................... 62
SND501 - Network Thermal Analysis using MSC Sinda ........................................................................................................ 62
SND502 - Thermal Analysis using Patran with MSC Sinda .................................................................................................... 63
SND503 - Spacecraft Thermal Analysis using THERMICA V4 ................................................................................................ 64
Contacts ............................................................................................................................................................................... 65
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About MSC Software
Simulating Reality, Delivering Certainty
MSC Software develops simulation software technology that enables engineers to validate and optimize their designs using virtual
prototypes. Customers in almost every part of manufacturing use our software to complement, and in some cases even replace the
physical prototype “build and test” process that has traditionally been used in product design.
As a trusted partner, MSC Software helps companies improve quality, save time and reduce costs associated with design and test of
manufactured products. Our products accurately and reliably predict how products will behave in the real world to help engineers
design more innovative products - quickly and cost effectively.
MSC Software's technology is used by leading manufacturers for linear and nonlinear finite element analysis (FEA), acoustics, fluid-
structure interaction (FSI), multi-physics, optimization, fatigue and durability, multi-body dynamics, and control systems simulation.
MSC pioneered many of the technologies that are now relied upon by industry to analyze and predict stress and strain, vibration &
dynamics, acoustics, and thermal analysis in our flagship product, MSC Nastran.
MSC Software Corporation is part of Hexagon, a leading global provider of information technologies that drive productivity and
quality across geospatial and industrial enterprise applications.
Hexagon’s solutions integrate sensors, software, domain knowledge and customer workflows into intelligent information
ecosystems that deliver actionable information. They are used in a broad range of vital industries.
Hexagon (Nasdaq Stockholm: HEXA B) has approximately 18,000 employees in 50 countries and net sales of approximately 3.1bn
EUR. Learn more at hexagon.com and follow us @HexagonAB.
Solutions
Over our rich history, MSC has developed or acquired many other well-known
CAE applications including Patran, Adams, Marc, Dytran, Fatigue, SimXpert,
SimDesigner, SimManager, Easy5, Sinda, Digimat, Simufact, Actran and MSC
Apex. We are committed to the continued development of new CAE technology
that integrates disciplines and technologies from standalone CAE tools into
unified multi-discipline solvers and user environments. These “next generation”
products enable engineers to improve the reliability and accuracy of their
virtual prototypes by including multi-physics and multi-discipline interactions.
MSC is also the CAE industry’s leader in extending simulation to the engineering
enterprise. Our customers recognize the need to scale the benefits of virtual
prototyping and testing from pockets of experts to mainstream engineering
and product development, and MSC offers the only Simulation Data and
Process Management platform in the world that has been successfully
deployed in industries including automotive, aerospace, shipbuilding, energy,
electronics, and more. MSC Software employs 1,200 professionals in 20
countries.
MSC Software makes products that enable engineers to validate and optimize their designs using virtual prototypes. Customers in
almost every part of manufacturing use our software to complement, and in some cases even replace the physical prototype “build
and test” process that has traditionally been used in product design.
MSC Apex
MSC Apex Modeler: CAD specific direct modelling and meshing solution that streamlines CAD clean-up, simplification and
meshing workflow
MSC Apex Structures: A fully-integrated and generative, structural analysis solution for engineers and analysts
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Integrated Solutions
Marc: Solution for advanced nonlinear structural analysis, contact, complex material models and multiphysics analysis
Adams: Multibody dynamics simulation solution
Adams Machinery: Solution for mechanical drive systems
Easy5: Advanced controls & systems simulation
Solver Solutions
MSC Nastran: Solver for multidisciplinary simulation such as linear and nonlinear structure analysis in the areas of statics,
dynamics, acoustics and optimisation.
MSC Fatigue: Calculation of endurance and lifespan
Dytran: Simulation of structures and fluids in the short time dynamics area
Sinda: Advanced thermal simulation
Co-Simulation
CoSim: Solution providing co-simulation between the following software solvers: scFLOW-Adams, scFLOW-Marc and
Adams-Marc
Modelling Solutions
Patran: Pre- and postprocessor for modelling, geometry manipulation and loads and boundary specification
Mid-sized Business
MSC Nastran Desktop: Modular solution for structure analysis of any kind
FEA, AFEA, TFEA: Linear, nonlinear and thermal analysis
Engineering Lifecycle Management
SimManager: Web-based hardware independent system for the administration and automation of simulation data and
processes
MaterialCenter: Web-based Materials Lifecycle Management System for managing material models, data and processes
with full traceability
Toolkits
Adams Gear Generator: Environment for creation of simplified or moderately detailed involute spur, helical and high
fidelity gears
Adams Gear AT: plug-in to simulate high performance transmissions and dynamics of high fidelity gears
Adams Bearing AT: plug-in to model bearings
Adams Leafspring: plug-in to model leafsprings
Adams Advanced Wind Turbine Modelling (AdWiMo): Customised tool for modelling of wind turbines
Adams Tracked Vehicle (ATV): Customised tool for modelling of tracked vehicles
Adams EncVPG: plug-in to read encrypted virtual proving grounds
Nastran Seismic: Straight forward specification of the combined static and dynamic environments to which earthquake
resistant structures are subjected
Nastran Hybrid Static Aeroelasticity (HSA): Efficiently integrate computational fluid dynamics (CFD) result data and MSC
Nastran’s aeroelasticity analysis capabilities.
More information is available at http://www.mscsoftware.com/services/toolkit-solutions
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Specialist Solutions
Acoustic calculations
Free Field Technologies (FFT) develops and supports the Actran family of acoustic CAE products. Actran is a
premier acoustics software solution for simulating acoustics, vibro-acoustics and aero-acoustics quickly, easily,
and accurately.
More information is available at www.fft.be
Material data and simulations of composites
The company e-Xstream is a specialist for micro mechanisms and multiscale simulation and concentrates on
the calculation of composites.
The Software Digimat is able to construct and simulate the reaction of non-linear composites. This is
important for the users of Finite Element (FE) - Software as they want to determine the influence of the
microstructure of a material on the stability of the end product.
In combination with the simulation tools of MSC, e-Xstream enables the simulation of a variety of materials. The core aspects lie within
the exact determination of material failure, micro mechanic material calculation and non-linear, multi scalable structure modelling.
More information is available at www.e-xstream.com
Manufacturing process simulation
Simufact Engineering is a specialist for the design and optimization of manufacturing processes by means
of process simulation.
By applying solutions Simufact Forming, Simufact Welding and Simufact Addtive Simufact customers tap
additional potential for their manufacturing processes. They benefit from higher process stability, more
product quality and shorter time-to-market cycles.
More information is available at www.simufact.com
Forming Technologies is a world leading provider of software solutions for the design, feasibility, and
costing of sheet metal components. FTI software, such as COSTOPTIMIZER, FASTFORM, BLANKWORKS
and CATSTAMP, has provided OEMs and supliers in the automotive, aerospace, electronics and appliance
industries with innovative solutions designed to reduce development time and material costs.
More information is available at www.forming.com
Computational fluid dynamics
Software Cradle is an innovative provider of computational fluid dynamics (CFD) simulation software.
Software Cradle develops and provides services with general-purpose 3D thermo-fluid analysis systems
with two types of mesh gridding methods: scSTREAM and HeatDesigner with a structured mesh and
SC/Tetra and scFLOW with an unstructured mesh.
More information is available at www.cradle-cfd.com
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TRAINING 2020
Autonomous driving simulation
VIRES Simulationstechnologie is an innovative provider of advanced driver assistance and active safety
systems (ADAS) simulation software.
VIRES Simulationstechnologie develops and provides services around VIRES Virtual Test Drive. A highly
modular software product which is used for the development and testing of advanced driver assistance
and active safety systems, leading to solutions for autonomous driving technology.
More information is available at www.vires.com
MSC Ecosystems
Student Edition
MSC Software's Student Editions provide students with the simulation tools to accurately and reliably predict how the designs will
behave in the real world. Employers are constantly relying on simulation software to help eliminate slow and costly physical testing,
and with experience right out of school, students will be ready to begin a career in no time! You can download free licences for MSC
Nastran, Patran, Adams, Marc, Actran, Digimat and MSC Apex. All licenses can be downloaded in the “student centre“ on the MSC
Software website. Students will need to present an electronic copy of a valid student ID.
More information is available at http://www.mscsoftware.com/student-editions
FEA Masters Program
MSC has partnered with UNED, Spain's largest online university to offer you the chance to obtain an advanced degree in Finite
Element Method and CAE Simulation. The National Distance Education University (UNED) is the leader in the implementation of
cutting edge technologies applied to distance learning with over 205,000 students worldwide. It is one of the largest universities in
Europe. The course is designed to help you acquire knowledge, develop critical thinking and analytical skills at every stage of your
program. It helps prepare you for the multidisciplinary challenges you will face in the new global economy, and position yourself for
professional recognition, increased pay and new roles at your current or future employer.
More information is available at http://www.mscsoftware.com/page/fea-masters-program
MSC Academic Learning Center
MSC Software’s Academic Learning center provides students, researchers, and professor’s access to the entire curriculum of training
courses for Adams, Easy5, Marc, Patran and MSC Nastran via e-Learning online training courses in the MSC Academic e-Learning
subscription. The subscription includes a named user account to the MSC Learning Center and access to training for a year from time
of purchase. The subscription also includes updates for all training courses and additions of training courses for other MSC Software
products.
More information is available at http://www.mscsoftware.com/msc-academic-learning-center
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TRAINING 2020
Training
Offering
MSC offers basic and specialised training in the use of our simulation tools to maximize your investments in our software. Whether
you need an introduction to our simulation tools or expert instruction in specialised applications, we offer the courses you want, with
the expertise you deserve.
The trainings in Sweden will be held in Gothenburg.
Flexible Training
Our Trainers will not only demonstrate the use of the software, they will also help you find the best solutions for your specific
needs.
To ensure this promise we offer three different types of training:
Public Classroom Training
All courses are available in our state-of-the-art classroom facilities and individual computer graphics laboratories at training
centres throughout the world. Our courses place heavy emphasis on hands-on computer laboratory work to accelerate practical
skills development for all MSC Software products.
Training at Your Facility
If you have a number of employees who need training, we offer the cost effective option of bringing our class to your facility.
Available worldwide, onsite training is ideal for groups of engineers or those who need customised instruction on MSC products.
To maximize productivity in the use of our simulation tools, instructors can tailor the curriculum with company-specific or
industry-specific examples, and address challenges and process issues familiar to attendees from your organization.
Customised Courses
If our standard seminar offerings do not meet your training requirements, MSC can develop a course or set of courses tailored to
your specific needs. A customised course might include a combination of topics from several standard courses or specialised
material not found in any of our standard seminars. MSC will work with your staff to design the course you need.
Registration
This Catalogue contains a selected range of courses that are offered in Sweden. Some courses are already scheduled for any further
queries or to book training please contact us at info.se@mscsoftware.com.
To ensure that we can plan our courses adequately please contact us and register no later than 14 days prior to the planned begin of
the course.
Prices mentioned below are per person and a minimum of three attendees are required for a public classroom training to go ahead.
Prices for training at your facility or customised courses can be provided on request.
MSC Learning Center
The MSC Learning Center is for the engineer who quickly needs to be productive with MSC Software technologies to simulate
product designs, MSC now offers an online e-Learning subscription so that you can get the training you need, anytime you need it!
With e-Learning subscriptions you get access to:
• MSC’s training curriculums on-Demand, on your own schedule and without travel via a computer, tablet, or smartphone.
• Reduce fees and increased access to training
• Access to the MSC Communities to engage with MSC subject matter experts for your training questions
More information is available at http://www.mscsoftware.com/msc-learning-center
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TRAINING 2020
The MSC Learning Center is for the engineer who quickly needs to be productive with Benefits:
MSC software technologies to simulate product designs, MSC now offers an online e-
Learning subscription so that you can get the training you need, anytime you need it! • Flexibility, convenience and easy access
• Gain insight and knowledge form MSC
The MSC Learning Center is designed to address our customer needs: Experts
• Stay up to date with the latest features in
• Shortage of trained and qualified engineers with simulation skills MSC Software Products: Acatran, Adams,
• Training that caters to various learning styles Easy5, Patran, Marc, MSC Apex, MSC
• On-Demand Online training Nastran and SimManager
• Increased access and decreased cost for training • Learn best practices and efficient
workflows for common procedures and
• No travel accommodations or office leave with e-Learning
simulations
• Certification Exams for validating simulation skills • Refresh and/or gain new skill sets that
• MSC Communities for trainees to collaborate with MSC Experts can improve or save time in your day to
day simulation and analysis tasks
MSC e-Learning subscription:
• Or if you are in the middle of a project
and need to gain insight on a new task or
Subscribers to the MSC e-Learning Subscription will receive the following for 1 year from
simulation method quickly drop into the
time of purchase:
MSC Learning Center to browse through
• Individual named user account for the MSC Learning Center the courses and topics of interest to
quickly get up to speed to effectively and
• Access to all training curriculums for Actran, Adams, Easy5, Patran, Marc, MSC
efficiently streamline your efforts on
Apex, MSC Nastran, MaterialCenter and SimManager your project.
o Online courses are made up several modules • Access to the entire curriculum of
o Each module contains lecture, demos, audio from subject matter training courses for Adams, Easy5,
experts, workshops, and review questions that prepare you for the Patran, Marc and MSC Nastran
exams • Collaboration with simulation community
• Certification exams that, upon achieving a passing score, you will receive a through discussion forums
certificate for and/or you can post to your public community profile • Certification Exams – prove proficiency in
simulation skills and methods and MSC
• Access to the MSC Communities that allow you to:
software product proficiency
o Ask MSC subject matter experts questions about training material
• Configured Portals – ability to
o Collaborate within your company or with the broader MSC simulation
add/manage custom content,
community
• Price € 1 500 per named user
Value:
• With access to the e-Learning subscription you get unprecedented access to
training with reduced fees and no need to travel or leave the office
• using the traditional live instructor-led training approach, attending all of the
courses in the subscription would cost in excess of €30k and 128 days not
including travel
• If you are only interested in one course you still experience incredible savings
o Average cost of a course is € 1 500 and 3 days
• With the e-Learning subscription you get access to 50 courses with over 1000+
hours of training material that is guaranteed to improve your simulation skills
For a free trial register at: https://learningcenter-mscfreetrial.sabacloud.com
10TRAINING 2020
Calendar
January
Week Mon Tue Wed Thu Fri Sat Sun
1 1 2 3 4 5
2 6 7 8 9 10 11 12
NAS 101A NAS 101A NAS 101B
MAR 101 MAR 101 MAR 101
3 13 14 15 16 17 18 19
PAT 301 PAT 301 PAT 301
4 20 21 22 23 24 25 26
5 27 28 29 30 31
Febuary
Week Mon Tue Wed Thu Fri Sat Sun
5 1 2
6 3 4 5 6 7 8 9
ADM 740 ADM 740 ADM 740 ADM 740
7 10 11 12 13 14 15 16
8 17 18 19 20 21 22 23
PAT 302 PAT 302 PAT 302
9 24 25 26 27 28 29
NAS 102A NAS 102A NAS 102B NAS 102B
March
Week Mon Tue Wed Thu Fri Sat Sun
9 1
10 2 3 4 5 6 7 8
ADM703A+B+C ADM703A+B+C ADM703A+B+C
11 9 10 11 12 13 14 15
ADM 701 ADM 701 ADM 701 ADM 701 ADM 701
12 16 17 18 19 20 21 22
NAS 106A NAS 106A NAS 106B
13 23 24 25 26 27 28 29
NAS 107 NAS 107 NAS 107
14 30 31
ADM 710
April
Week Mon Tue Wed Thu Fri Sat Sun
14 1 2 3 4 5
ADM 710 ADM 710
15 6 7 8 9 10 11 12
16 13 14 15 16 17 18 19
MAR 102 MAR 102
17 20 21 22 23 24 25 26
18 27 28 29 30
313131 NAS 133 NAS 133
April
11TRAINING 2020
April
May
Week Mon Tue Wed Thu Fri Sat Sun
18 1 2 3
19 4 5 6 7 8 9 10
ADM 711 ADM 711 ADM 730
20 11 12 13 14 15 16 17
PYT 101 PYT 102 PYT 102
21 18 19 20 21 22 23 24
22 25 26 27 28 29 30 31
NAS 319A NAS 319B NAS 319C
June
June
Week Mon Tue Wed Thu Fri Sat Sun
23 1 2 3 4 5 6 7
24 10 11 12 13 14 15 16
ADM 740 ADM 740 ADM 740 ADM 740
25 17 18 19 20 21 22 23
26 24 25 26 27 28 29 30
27 29 30
July
July
Week Mon Tue Wed Thu Fri Sat Sun
27 1 2 3 4 5
28 6 7 8 9 10 11 12
29 13 14 15 16 17 18 19
30 20 21 22 23 24 25 26
31 27 28 29 30 31
August
Week Mon Tue Wed Thu Fri Sat Sun
31 1 2
32 3 4 5 6 7 8 9
33 10 11 12 13 14 15 16
NAS 110 NAS 110 NAS 110
34 17 18 19 20 21 22 23
NAS 106A NAS 106A NAS 106B
35 24 25 26 27 28 29 30
PAT 301 PAT 301 PAT 301
36 31
ADM 701
12TRAINING 2020
September
Week Mon Tue Wed Thu Fri Sat Sun
36 1 2 3 4 5 6
ADM 701 ADM 701 ADM 701 ADM 701
37 7 8 9 10 11 12 13
ADM 710 ADM 710 ADM 710
38 14 15 16 17 18 19 20
NAS 101A NAS 101A NAS 101B
39 21 22 23 24 25 26 27
MAR 101 MAR 101 MAR 101
40 28 29 30
October
Week Mon Tue Wed Thu Fri Sat Sun
40 1 2 3 4
41 5 6 7 8 9 10 11
NAS 400 NAS 400 NAS 400
42 12 13 14 15 16 17 18
NAS 102A NAS 102A NAS 102B NAS 102B
43 19 20 21 22 23 24 25
PYT 101 PYT 102 PYT 102
44 26 27 28 29 30 31
ADM 740 ADM 740 ADM 740 ADM 740
November
Week Mon Tue Wed Thu Fri Sat Sun
44 1
45 2 3 4 5 6 7 8
PAT 325 PAT 325 MAR 102 MAR 102
46 9 10 11 12 13 14 15
ADM703A+B+C ADM703A+B+C ADM703A+B+C
47 16 17 18 19 20 21 22
ADM 711 ADM 711 ADM 730
48 23 24 25 26 27 28 29
NAS 133 NAS 133
49 30
December
Week Mon Tue Wed Thu Fri Sat Sun
49 1 2 3 4 5 6
50 7 8 9 10 11 12 13
NAS 120 NAS 120 NAS 120 NAS 120
51 14 15 16 17 18 19 20
NAS 319A NAS 319B NAS 319C
52 21 22 23 24 25 26 27
53 28 29 30 31
Ch
13TRAINING 2020
Actran
ACT101- Introduction into Actran
Objective
This seminar will cover the basic capabilities of Actran for Vibro-Acoustic and Aero-Acoustic application.
Content
Introduction
Actran general organisation, introduction concepts, introduction modelling process and launching
Vibro-Acoustic direct simulation
Vibro-Acoustic modal simulation
Fluid/Structure coupling
Random excitations
Composite materials
Modelling prestress effects
Aero-Acoustic simulations
Aero-Acoustics general organisation
Aero-Acoustics advanced
Workshops
Prerequisites
Basic theoretical knowledge of acoustics is recomended.
Dates On Request
Duration 4 Days
Price €2300+VAT
14TRAINING 2020
Adams
ADM701 - Basic Full Simulation
Objective
This seminar will cover the basic essentials required to get new users up and running with Adams.
Content
Model Hierarchy
Adams View Interface
Post Processing
Co-ordinate systems
Geometry Manipulation
Measures
Initial Conditions and Velocities
Degree of Freedom Constraints
Friction Modelling
Motions
Function Builder
Forces
Simulation Scripts
Bushings
Contact
Sensors
Design Variables
Splines
Simple Design Studies
Prerequisites
None
Dates 09.03.2020-13.03.2020
31.08.2020-04.09.2020
Duration 5 Days
Price €2875+VAT
ADM703A+B+C – Advanced Adams Solver
Objective
This class is intended for moderately experienced Adams users wanting to expand their knowledge of advanced modeling
elements and techniques, integrator theory and user-written subroutines in Adams Solver. An emphasis will be put on tying
theoretical concepts back to Adams Solver solution settings (ERROR, HMAX, FORMULATION, MAXIT, etc.). Strategies for creating
robust models and sensible solution control settings will be a focus of the course. The various phases of solution (statics,
kinematics, dynamics) will be covered in detail and best practices for each will be identified.
Writing user-written subroutines with focus on force subroutines is also included in the training. Initial setup with pre-existing
libraries and dealing with user input is considered along with usage of the many built-in utility subroutines. Students are
expected to be comfortable with simple programming tasks in C or Fortran; this class does not provide a formal nor
comprehensive introduction to the C or Fortran programming language.
Controlling model topology during simulation
Differential equations for integrating quantities and describing system dynamics
Implementing simple control algorithms
Performing standalone Adams Solver simulations in batch mode
15TRAINING 2020
Using Adams Linear as a tool to inspect the system-level linear modes
Implementing test data via splines
Advanced simulation logic using SENSORs
Complex constraints (GCON element)
Splines
Simple design studies
Mathematical descriptions of constraints, body and forces
Theoretical workings of the static, kinematic and dynamic solvers in Adams
Numerical methods for root finding, explicit and implicit integration
DEBUG/EPRINT interpretation for model debugging
Error handling strategies for statics and dynamics
Solver settings for robust static analyses
Integrator settings for robust dynamics
Solution convergence techniques
Modeling best practices
Using existing Adams Solver libraries for user-written subroutines
Interface differences between Fortran and C
Querying system states using utility subroutines
Handling initialization and differencing calculations
Call back subroutines
Threadsafe computation considerations
Prerequisites
A working knowledge of Adams as covered in ADM701
Dates 03.03.2020-05.03.2020
10.11.2020-12.11.2020
Duration 3 Days
Price €1725+VAT
ADM704A – Advanced Parametric Model Building in Adams View
Objective
This course is intended for users who want to parameterize their models in order to determine how different modeling
parameters influence the design and how to iterate on those to achieve the optimal design using design studies, design of
experiments (DOE) and optimization capabilities in Adams View.
Content
Introduction to parameterization
Understanding expressions used in a parameterized model
o Built-in AdamsView functions (location, orientation, modeling, etc.)
o Accessing database objects and their component values
Creating a parametric model using:
o Construction points
o Design variables
o Expression builder
o Graphical tools
o Table editor
Performing multi-run simulations to better understand and improve overall system behavior
o Design study
o Design of experiments (DOE)
o optimization
Creating design objectives and design
Constraints for your system. Interpreting results of a multi-run simulation.
o Plotting
Summary tables
Prerequisites
A working knowledge of Adams as covered in ADM701
16TRAINING 2020
Dates On request
Duration 2 Days
Price €1150+VAT
ADM704B – Automating Tasks using Adams View
Objective
This seminar covers the process of customising Adams through the use of macros and developing customer specific dialogue
boxes.
Content
Adams View command language and structure
o Commands – keywords, parameter names, parameter values
o Conditional constructs (if/then/else, for loops, etc.)
o Using command files to perform tasks
The macro language and macro structure
How to create and access macros to automate common tasks
Creating custom dialog boxes
o Using the dialog box builder
o Defining labels, fields, buttons, options menu, etc.
o Become familiar with underlying commands
Creating custom menu.
Putting it all together to build a custom interface
Prerequisites
A working knowledge of Adams as covered in ADM701.
Dates On request
Duration 2 Days
Price €1150+VAT
ADM710 - Flex Body Dynamics and Modal Stress Recovery using Adams
Objective
You will learn how to use Adams Flex to incorporate flexibility into your Adams models. The course is primarily focused on using
component modal synthesis via the Modal Neutral File (MNF) and Adams View. Previous FEA experience is a plus, but not a
requirement. You will be comfortable using Adams Flex after taking this course.
Content
Modal Flexibility: Theoretical background, combined rigid-flexible equations of motion
Importing a flexible body into a rigid-body model
Working with flexible body models in Adams View (mode manager, connect flexible part to rigid parts, add
forces/torques, use measures)
Adams Solver dataset and Adams View command language syntax
using flexible body models with stand-alone Adams Solver (edit .adm files, generate .mtx files, submit simulations)
Performing static, dynamic, and eigenvalue analyses
Exporting loads from Adams View
Methods for optimizing MNFs
Comparing results of rigid and flexible models (plotting, animation)
Validating Adams Flex results with FEM results and hand-calculations
Modelling considerations
Debugging
Modelling contact with a flexible body
using a modal force (MFORCE) to define a pressure load
Publishing simulation results on the web (generate movies, table of eigenvalues, snapshot images, include model files)
Reviewing several application examples
17TRAINING 2020
Reviewing/Discussing methods for generating MNF from FEA packages
Adams ViewFlex
Prerequisites
A working knowledge of Adams as covered in ADM701
Dates 31.03.2020-02.04.2020
08.09.2020-10.09.2020
Duration 3 Days
Price €1150+VAT
18TRAINING 2020
ADM711 – Control System Integration with Adams using MATLAB and Easy5
Objectives
You will learn how to connect your Adams models to control systems developed in MATLAB or Easy5. Techniques for combining
linear, nonlinear, continuous, and sampled control systems with your Adams model will be presented, along with tutorials.
Converting your MATLAB or Easy5 model into a native Adams entity via Control System Import to run the combined model
completely within Adams will also be discussed. Other topics presented in the course include an overview of all System
Elements, including State Variables, Differential Equations, Linear State Equations, and General State Equations to develop
models (e.g., control systems) supplemental to your mechanical model.
Content
Adams Controls terminology
Defining inputs/outputs for Adams models to tie to controls
Adams Interface elements provided by Adams Controls for MATLAB, and Easy5
Function evaluation mode and co-simulation mode
Interactive and batch mode simulations
using initialization commands
Control system examples with differential equations, transfer functions, linear state equations, and general state
equations
Examples using Control System Import with Easy5 and MATLAB
Prerequisites
A working knowledge of Adams as covered in ADM701.
Dates 06.05.2020-07.05.2020
17.11.2020-18.11.2020
Duration 2 Days
Price €1150+VAT
ADM720 – Frequency Domain Analysis using Adams Vibration
Objectives
This course is intended for users who want to perform frequency-domain analysis. Using Adams Vibration, you can study forced
vibrations within the Adams model at isolated instances. The results from Adams Vibration can be used in noise/vibration/
harshness (NVH) studies.
Content
Defining the input channels from which you will actuate (shake) the model: Kinematics (Disp., Vel., and Accel.), Force,
State Variables.
Working through examples that demonstrate each available option for actuating the system: Swept sine, PSD, Rotating
Mass, User-defined.
Defining the output channels from which to analyze the simulation.
Performing vibration analysis in batch mode using Python.
Vibration analysis of modeling containing flexible bodies.
using Desing Evaluation to minimize frequency response
Brief section on theory
Prerequisites
A working knowledge of Adams as covered in ADM701 and ADM704.
Dates On request
Duration 1 Day
Price €575+VAT
19TRAINING 2020
ADM730 – Design of Experiments (DOE) and Stochastics (Monte Carlo) Analysis using Adams
Objective
This seminar is intended for users who want to learn about their model designs in an efficient manner. This is accomplished
using Design of Experiments (DOE) techniques for learning about the design and communication of the results across companies
and departments. An optimal DOE technique is demonstrated, setting users up for further studies such as optimization and
robustness analysis.
Content
Create Factors and Responses in your model
Parametrics
Classical DOEs
Results interpretation
using the ASCII Conduit
using Adams Insight
Monte Carlo Analysis and Correlation
Prerequisite
A working knowledge of Adams as covered in ADM701.
Dates 08.05.2020
19.11.2020
Duration 1 Day
Price €575+VAT
ADM740 – Vehicle Modelling and Simulation using Adams Car
Objective
This seminar is divided into two sections. The first covers the requirements for the standard user such as running suspension
tests, vehicle manoeuvres and interrogating the results. The second covers the process of modifying the standard templates
and building new functioning templates such as those for the steering, suspension and wheels.
Content
Description about user modes and data hierarchy
Overview of database hierarchy
Learning the concept of subsystems and assemblies
Create new suspension and full vehicle models
Create user specific events with the Driving Machine
Setup suspension and full vehicle simulations
How to use handling and durability tire
Perform suspension and full vehicle simulations
Create plot configuration files
Good practice in creating a fully parametric vehicle model
Create and modify templates
Create and modify different type of parts
Learn how to use communicators
Learn how to create new requests within the same subsystem as well as between different subsystems
Create and modify different property files
Create and modify automotive elements such as spring, dampers, bushings, bump stop, etc.
Overview on how to implement flexible bodies
Prerequisite
A working knowledge of Adams as covered in ADM701. General vehicle knowledge (vehicle dynamics, suspension design, etc.)
preferred.
Dates 03.02.2020-06.02.2020
11.06.2020-14.06.2020
20TRAINING 2020
27.10.2020-30.10.2020
Duration 4 Days
Price €2300+VAT
ADM741 – Vehicle Drivetrain Modelling using Adams Driveline
Objective
This course is intended for users who need to create assemblies of suspensions and full vehicles, including driveline components,
and then analyze them to understand their performance and behavior. Presented in the class are all of the basics of building
models in Adams Driveline (engine, gearbox, prop shafts, and differentials), running simulations and simple plotting with Adams
PostProcessor.
Content
• Understanding features of Adams Driveline
• Modeling Components in Adams Driveline
o Understanding different components- Gear Forces, Gear Pairs, Gearbox Assembly, Gearbox Assembly, Gearbox
Assembly, Differential , Differential-Limited Slip Diff, Torque Converter, Flexible Connection Components, other
Modeling Components
o Exercise on Modeling Gearbox and Driveline components
• Driveline Analysis
o Driveline Analyses – Understanding different analyses in Adams /Driveline
o Setting up Initial-Velocity Analysis
o Specific Test analysis – Running analyses and Post-processing and investigating results in Adams Post-Processor
• Full Vehicle Analysis
o Communicators - setup the power train/driveline model for a full vehicle
o Preparation for Quasi-Statics- understanding requirements that need to be fulfilled in order to support Quasi-
Static setup analysis
o Performing full vehicle analysis
o Post-processing and investigating results in Adams Post-Processor
Prerequisite
A working knowledge of Adams as covered in ADM740
Dates On request
Duration 1 Day
Price €575+VAT
21TRAINING 2020
ADM750 – Gear, Belt, and Chain Modelling with Adams Machinery
Objectives
You will learn how to build detailed models containing belts, chains or gears with Adams Machinery.
Content
Introducing the Adams Machinery Wizard
Adams Machinery Database Structure for Components, Parametrics, etc.
Creating Gear Systems:
o Spur, Helical & Bevel Gear Types
o Simplified, Detailed & 3D Contact Types
Creating Belt Systems:
o Smooth, V-Grooved & Toothed Belts
o Pulley Types: Standard and Tensioners
o Actuator Types and System Outputs
Creating Chain Drive Systems:
o Roller and Silent Types
o Compliance Methods: From Linear to User-Defined
o Tensioner/Guide Types: Rotational, Fixed and Translational
Simulation Speed and Robustness Guidelines for Typical Machinery Systems
Prerequisites
A working knowledge of Adams as covered in ADM701.
Dates On request
Duration 1 Day
Price €575+VAT
22TRAINING 2020
Cradle
CRA101 – SC/Tetra Basic
Objective
The main objectives of this course are to familiarize attendees with the basic operation of SC/Tetra and to equip them to
handle problems encountered during typical product design processes. Attendees will acquire basic knowledge about:
• Basic operation of SC/Tetra
• Preparation of geometry data from CAD data
• Checking the validity of the simulation
• Advanced functions of SC/Tetra
• Finding information and/or acquiring necessary help
Content
• Introduction to CFD
• Basic Operation of SC/Tetra
• Adaptive Mesh Refinement
• Importing Data
• Moving object (discontinuous mesh + ALE)
• Moving object (overset mesh + ALE)
• Moving object (discontinuous mesh + ALE+ induced motion)
• Periodic boundary
• Finding information and/or acquiring necessary help
Prerequisites
A basic knowledge of computational fluid dynamics is desirable
Dates On Request
Duration 2 Days
Price €1150+VAT
23TRAINING 2020
CRA201 – scSTREAM Basic (Building & Architecture)
Objective
The main objectives of this course are to familiarize attendees with the basic operation of scSTREAM and to equip them to
handle typical thermal/CFD problems encountered during the building and architectural design processes. This course will
focus on functions useful for indoor HVAC simulations and external flow/aerodynamics around buildings. The attendees will
acquire basic knowledge about:
• Basic Operation of scSTREAM
• Checking the validity of the simulation
• Advanced functions of scSTREAM
• Finding information and/or acquiring necessary help
Content
• Introduction to CFD
• Basic Operation of scSTREAM
• Air-conditioning model
• Anemostat model
• Radiation and Solar Radiation
• Diffusion and ventilation efficiency function
• Dew condensation
• Utilization of 2D DXF data
• Power law and Canopy model for external airflow
• Zooming function
• Multi-block function
• Finding information and/or acquiring necessary help
Prerequisites
A basic knowledge of computational fluid dynamics is desirable.
Dates On Request
Duration 2 Days
Price €1150+VAT
24TRAINING 2020
CRA202 – scSTREAM Basic (Electronics)
Objective
The main objectives of this course is to enable attendees to solve thermal problems typically encountered during the
electronics product design process. This course focuses on functions useful to electronics related simulations. The attendees
will acquire basic knowledge about:
• Basic Operation of scSTREAM
• Checking the validity of the simulation
• Advanced functions of scSTREAM
• Finding information and/or acquiring necessary help
Content
• Introduction to CFD
• Basic Operation of scSTREAM
• Radiation Effect
• Separate Flow and Heat Execution of the Solver
• Periodic Heating
• Modification of CAD Data
• Multi-block Method
• CSV Mapping Tool
• Thermal Circuit Model
• Utilizing Gerber Data
• Finding information and/or acquiring necessary help
Prerequisites
A basic knowledge of computational fluid dynamics is desirable.
Dates On Request
Duration 2 Days
Price €1150+VAT
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