2019 SAE Corporate Learning Aero Resource Guide - P18295967

QUALITY

• Crow-AMSAA Reliability Growth Modeling - Useful Technology for Tracking Development Testing and Any Significant Event to be Managed • The Exponential Related to the Poisson and the Weibull • Kaplan-Meier Survival Analysis • Crow-AMSAA Employed for Analyzing Renewal- Repairable Systems • System Models • Classwork • Complete Playtime With SuperSMITH® • Ph.D. Oral Examination

Learning Objectives By attending this seminar, you will be able to: • Analyze design, development, production, and service failures • Model product lifetime and reliability • Evaluate calibration and maintainability plans • Analyze inspection data • Reduce test substantiation, time and costs Who Should Attend An engineering undergraduate degree in any discipline would be beneficial. Engineers responsible for reliability, safety, supportability, maintainability, materials, warranties, life cycle cost, design, structures, instrumentation and logistics will find these Weibull techniques extremely useful. Topical Outline DAY ONE Undergraduate Weibull Analysis • Background, Development & Introduction - 23-Minute Video Short Course • How to do Weibull Analysis • Interpretation of Good Weibulls - 2 & 3 Parameter • Are two Weibull datasets significantly different? • Interpretation of Bad Weibulls • Risk and Failure Forecasting Case Studies • Weibull Experiments (Wire Rupture, Torsion, LCF, Accelerated Testing), Classwork Problems and Solutions • Log Normal Analysis • Optimal Replacement Intervals, Block Replacement • DAY TWO Postgraduate Weibull Analysis • Maximum Likelihood Weibull Theory and Application • WeiBayes Analysis • Dauser Shift, Warranty Analysis • Rank Regression vs. Maximum Likelihood • Extremely Small Samples Analysis • One Failure Weibull Case Study • An Introduction to SuperSMITH® Software, Features, Input, Analysis, Output • Summary of Weibull Methods • Class Work Problems • Experimental Wire Data Distribution Analysis • Playtime With SuperSMITH® Tutorial Prerequisites Attendee must bring laptop for this course.

Instructor: Fee: $2275

James Fulton; Carl Tarum

2 CEUs

URL:

sae.org/learn/content/86034/

SAE PRODUCT ENGINEERING TOOLS AND METHODS CERTIFICATE PROGRAM Watch for the certificate icon to indicate course titles that are part of an SAE multi-course certificate program. This program focuses on the study, development, management and implementation of product engineering principles, methodologies and techniques. When used properly, these tools and methods become powerful productivity enhancers and facilitate the reduction of product development time and cost. Complete this certificate and earn up to seven graduate credits towards the SAE/Kettering University 20-credit Certificate in Automotive Systems and Kettering’s 40-credit M.S. in Mechanical Engineering. Visit sae.org/learn/professional-development for more information. For the complete list of required and elective courses and additional information on enrolling in this SAE certificate program, visit sae.org/learn/professional-development/ certifications/product-engineering-tools-and-methods.

DAY THREE Confidence Intervals and System Models • Confidence Intervals, “The Good, The Bad and The Complicated” • Comparing Designs • The Binomial & Poisson

114

3 ways to get a no-obligation price quote to deliver a course to your company: Call SAE Corporate Learning at +1.724.772.8529  |  Fill out the online quote request at sae.org/corplearning  |  Email us at Corplearn@sae.org

Made with FlippingBook - Online magazine maker