Advanced Product Quality Planning is the framework of procedures and techniques used to develop products. Test.
Design Failure Modes & Effects Analysis and Failure Modes, Effects & Criticality Analysis are a step-by-step approach to identify and…
Design Review Based on Failure Modes is a focused approach of mitigating change risk within the product and process design….
Process Failure Modes and Effects Analysis is a step-by-step approach to identify and manage the risks of failures within the…
Production Part Approval Process is a standardized process in the automotive and aerospace industries that helps manufacturers and suppliers communicate…
Design for Manufacturing and Assembly is a combination of two methodologies; Design for Manufacture, which means the design for ease…
Lean Six Sigma – A structured and disciplined approach to making fact-based decisions that cover the DMAIC phases: Define; Measure;…
Design of experiments (DOE) – provides a systematic method to determine the relationship between factors affecting a process and the…
Reliability Engineering describes a focused approach to complete Reliability Engineering methods and how they will benefit your organization
Functional Safety describes how to implement a vehicle level functional safety program, create a HARA, and understand the interactions within…
Measurement System Analysis is an experimental and mathematical method of determining how much the variation within the measurement process contributes…
Statistical Process Control is a scientific visual method used to monitor, control and improve processes by eliminating special cause variation…
Fault Tree Analysis is a systematic, deductive (top-down), graphical methodology for defining a single specific undesirable event and determining all…
Machine Failure Modes and Effects Analysis is a methodical approach for identifying all possible equipment failures in a manufacturing or…
Root Cause Analysis – 8D is a methodical problem-solving process that covers the three common stages of correction: ⦁ Act…
QSB will provide a summary of how to assess shop floor manufacturing systems. Training will include control of nonconforming products,…
Poka-yoke is a technique for avoiding simple human error in the workplace. Also known as mistake-proofing, goof-proofing, and fail-safe work…
Please visit ReliatrainGov.com for more information about Government Services
Process Awareness
Ability and knowledge to participate in completing the FMEA Process
LEVEL 1
Competency
Ability and knowledge to lead a team in the FMEA Process
LEVEL 2
Proficient
Ability to teach and mentor Participants and Team Leads in the FMEA Process
LEVEL 3
Expert
Ability to lead an organization implementing FMEA
LEVEL 4
Please visit ReliatrainGov.com for more information about Government Services
Design for Manufacturing and Assembly is a combination of two methodologies; Design for Manufacture, which means the design for ease…
Process Failure Modes and Effects Analysis is a step-by-step approach to identify and manage the risks of failures within the…
Design Review Based on Failure Modes is a focused approach of mitigating change risk within the product and process design….
Design Failure Modes & Effects Analysis and Failure Modes, Effects & Criticality Analysis are a step-by-step approach to identify and…
Please visit ReliatrainGov.com for more information about Government Services
Process Failure Modes and Effects Analysis is a step-by-step approach to identify and manage the risks of failures within the…
Design Review Based on Failure Modes is a focused approach of mitigating change risk within the product and process design….
Design Failure Modes & Effects Analysis and Failure Modes, Effects & Criticality Analysis are a step-by-step approach to identify and…
Please visit ReliatrainGov.com for more information about Government Services
Reliability Engineering Training Program
Reliability Engineering
ON SITE | OFF SITE | ONLINE |
---|---|---|
![]() |
COURSE DESCRIPTION
Reliability Engineering provides engineering instruction and analytical tools used to improve the reliability of your products. This Reliability Engineering course presents industry best practices for design and presents logical steps to ensure your product is robust during the product development process.
COURSE OBJECTIVES
This course is intended to provide an overview on Reliability Engineering. At the end of this course you should be able to:
• Define the effect of design and process decisions on the life cycle of a product
• Define the reasons to improve reliability
• Define design Reliability Requirements
• Define Reliability, Confidence, Failures, and Bathtub Curves
• Define the proper way to analyze Stress-Strength Interference, Test Severity, and Field and Test Reliability
• Define Weibull analysis and Censored Data reliability statistical tools
• Define how statistics can be used to find failures in your sample test sets
• Define how accelerated testing data can eliminate failures from the design
COURSE OUTLINE
Reliability Engineering is a set of tools used to understand the fundamental reasons why designs fail prematurely and define measures to identify and address the causes of failure.
This course will cover the following Reliability Engineering items:
• Reliability Improvement
• Reliability Terminology
• Checkmark and Bathtub Curves
• Stress-Strength Interference, Test Severity, and Field and Test Reliability
• Reliability Requirements for % Reliability, Confidence, Time or Cycles,
• Usage and Environmental Factors, Performance
• Reliability Statistics and Weibull Analysis
• Handling Censored Data, Multiple Failure Mechanisms
• Sample Size and Weibull Analysis
• Comparing Weibull Distributions
• Statistics of Finding Failures
• Test and Validation Strategies
• Customer Usage and Environmental Conditions
• Success (Bogey Testing), Test to Failure, and Accelerated/Overstress Testing
• In-Test Performance Monitoring & Degradation Analysis
• Multi-Vari Sample Selection
At the end of the training the participant will be required to take quizzes that test proficiency and complete a course survey based on the course material and the instructor. ReliaTrain uses the results of the quizzes and surveys to update the training to provide the best experience to participants.
COURSE PREREQUISITES
This is a Level One foundation training module and does not have required prerequisite training or experience. However, this course is a Prerequisite for higher level (Competency, Proficient, and Expert) FMEA Certification. This is a foundation training module but does require the student to have basic math and an entry level statistical background.
COURSE RECOMMENDED PARTICIPANTS
This course is intended for management and engineers in areas of reliability, design, manufacturing, assembly, quality, service, packaging, material handling, FMEA facilitators, and supplier quality (Including Suppliers).
This Reliability Engineering training program is intended for all industries including but not limited to:
Commercial
Medical
Utilities
Aerospace
Consumer Lifestyle Products
Civil Engineering
Tooling and Equipment
Oil and Gas
Trains & Railroad Equipment
Military [DOD]
Government
Phones & Personal
Devices
Learn More About Reliability Engineering
ReliaTrain offers mentoring, facilitation, and training support for Product and Process Development based on Quality and Reliability industry standards. ReliaTrain provides step-by-step methodologies that can be tailored to your organizational requirements. Let us support implementation of Reliability Engineering methods.