Do you see strange effects superimposed on your measurement signal? Presumably, this is electromagnetic interference.
This seminar provides the theoretical and practical knowledge required for a confident experimental stress analysis, which can be used for verification of FEM models.
Duration: 3 consecutive days / 3.5 hour parts
Finally, unleash the full functionality of catman! If you want to automate your measurements, design and optimize them, generate complex analyses with them and become familiar with the complete catman range, this seminar is for you!
Duration: 3 consecutive days / 3,5 hours parts
In this advanced online course to become a strain gauge measurement professional, we will teach you how to perform correct measurements with strain gauges. Learn about the correct compensation of temperature effects, different connection variants of strain gauges, and much more. By completing this seminar, you will gain confidence in instrumentation and performing measurements with strain gauges. Our trainers will teach you online and will be available for all your questions
Duration: 4 days at 3-hour online sessions per day
RAM for Asset Management provides an overview of the ways in which reliability engineering concepts and methods can be applied for repairable systems analysis and maintenance planning.
Our online seminar (divided into 3 sections x 3 hours) provides you with a fast and efficient introduction to the catman data acquisition software.
Did you know that the most serious measurement errors are caused by an unfavourable choice of measurement parameters?
Fundamentals of Reliability provides a solid foundation of the methods, analyses, applications and associated tools in reliability engineering mathematics -- from basic data analysis and modeling to advanced methods and concepts. This course will introduce and familiarize attendees with basic statistical concepts such as reliability estimation, data set comparison and basic reliability modeling techniques.
nCode DesignLife: Fatigue Analysis using FEA Results provides an overview of fatigue life prediction techniques and offers instructor-led sessions where you will learn how to use nCode DesignLife software to perform fatigue analysis using stresses from computer aided engineering (CAE) tools.
In System Reliability and Maintainability Analysis (Online) you will learn how to build simple to complex reliability models using ReliaSoft BlockSim software. In this course you will explore advanced concepts and applications for system reliability/maintainability analysis and optimization utilizing a reliability block diagram (RBD) or fault tree analysis (FTA) approach.
Torque is the most demanding of all mechanical measured variables, since it is composed of two basic mechanical variables.
nCode GlyphWorks: Signal Processing and Test Data Analysis provides an overview of data analysis techniques.
Accelerated Life Testing Analysis covers the benefits, limitations, theory and procedure behind several proven accelerated test analysis methods.
Failure Mode and Effects Analysis (FMEA) is a systematic method for preventing failure through risk discovery and mitigation of potential failure modes and associated causes. The Foundations for Effective FMEAs training seminar provides an overview of the concepts and procedures for FMEA and related analyses.
Fundamentals of Reliability provides a solid foundation of the methods, analyses, applications and associated tools in reliability engineering mathematics.
Our online seminar (divided into 3 sections x 3 hours) provides you with a fast and efficient introduction to the catman data acquisition software.
Accelerated Life Testing Analysis covers the benefits, limitations, theory and procedure behind several proven accelerated test analysis methods. It explores advanced concepts and applications for quantitative accelerated life testing data analysis, including tests with multiple stresses, categorical stresses or time-dependent stresses.
Practical Fatigue Theory (Online) is a technical concept course providing an introduction to fatigue analysis methods. You’ll learn about the physics of fatigue as a failure mode, and fatigue analysis methods such as stress-life, strain-life, and crack growth.
nCode DesignLife: Fatigue Analysis using FEA Results provides an overview of fatigue life prediction techniques and offers instructor-led sessions.
Failure Mode and Effects Analysis (FMEA) is a systematic method for preventing failure through risk discovery and mitigation of potential failure modes and associated causes. The Foundations for Effective FMEAs training seminar provides an overview of the concepts and procedures for FMEA and related analyses.
Experimental testing has historically helped engineers evaluate component performance and estimate a product’s functional life.
RCM Principles and Analysis provides an overview of the fundamental Reliability Centered Maintenance (RCM) techniques and procedures.
nCode DesignLife: Fatigue Analysis using FEA Results provides an overview of fatigue life prediction techniques and offers instructor-led sessions where you will learn how to use nCode DesignLife software to perform fatigue analysis using stresses from computer aided engineering (CAE) tools.
Do you see strange effects superimposed on your measurement signal? Presumably, this is electromagnetic interference.
Learn from the global leader in weighing technology how you can set up and operate your weighing technology applications professionally and efficiently while ensuring a long service life.
Duration: 3 consecutive days / 3.5 hour parts
nCode GlyphWorks: Accelerated Durability Testing (Online) provides an overview of analysis techniques and offers hands-on sessions where you will learn how to create accelerated durability test specifications using nCode GlyphWorks software. This includes validation testing in the cycles domain (including constant amplitude and block cycle), time domain and frequency domain. Damage equivalence and other quantifiable correlation techniques will be used.
Fundamentals of Reliability provides a solid foundation of the methods, analyses, applications and associated tools in reliability engineering mathematics -- from basic data analysis and modeling to advanced methods and concepts. This course will introduce and familiarize attendees with basic statistical concepts such as reliability estimation, data set comparison and basic reliability modeling techniques.
This two-day course offers a complete introduction to the principles of Sound Power Testing.
nCode DesignLife: Fatigue Analysis using FEA Results provides an overview of fatigue life prediction techniques and offers instructor-led sessions where you will learn how to use nCode DesignLife software to perform fatigue analysis using stresses from computer aided engineering (CAE) tools. An emphasis is placed on hands-on comparisons of different analysis techniques so you’ll learn best engineering practices while gaining software proficiency.
Force is a vectorial quantity that is measured in many places and in different ways. The challenge is to select the optimum force transducer for the respective application and to install it correctly.
In System Reliability and Maintainability Analysis (Online) you will learn how to build simple to complex reliability models using ReliaSoft BlockSim software.
nCode GlyphWorks: Signal Processing and Test Data Analysis provides an overview of data analysis techniques and offers instructor-led sessions where you will learn how to use nCode GlyphWorks software to quickly and efficiently turn raw data into actionable information.
In this seminar, you will get a broad overview of the fundamental principles of different electrical machines and inverters. We will show you detailed measurements, that will help you understand your drive line.
Only with a seriously determined measurement uncertainty does your readout become a meaningful measurement result. In this seminar you will learn all the necessary steps you need to assess, calculate and state the measurement uncertainty within an electric drive train in accordance with the standards.
nCode DesignLife: Fatigue Analysis of Welded Structures builds upon our introductory course, nCode DesignLife: Fatigue Analysis using FEA Results. It provides an in-depth view of weld fatigue prediction, including analysis methods for spot and seam welds. An emphasis is placed on hands-on comparisons of different weld fatigue analysis techniques so you’ll learn best engineering practices while gaining software proficiency.
nCode GlyphWorks: Signal Processing and Test Data Analysis provides an overview of data analysis techniques and offers instructor-led sessions where you will learn how to use nCode GlyphWorks software to quickly and efficiently turn raw data into actionable information.
Fundamentals of Reliability provides a solid foundation of the methods, analyses, applications, and associated tools in reliability engineering mathematics.
Resonance and dynamic effects can lead to large stress cycles that can be very damaging and reduce product life. This instructor-led online course investigates fatigue life prediction techniques specific to structures that experience dynamic stresses and explores methods that account for the critical interaction between dynamic excitation and structural response.
Reliability Growth Analysis (Online) provides an overview of reliability growth analysis models and their application for data captured from developmental (reliability growth) testing and also from fielded (repairable) systems.