ENGINEERING TOOLS & METHODS
The Six Sigma DRSS statistical method • The derivation of the standard RSS statistical stack formula • The seven steps in calculating a RSS statistical stack • Calculating a stack using the RSS method with a safety (Bender) factor applied • The Motorola Six Sigma RSS formula and its advantages • The Dynamic RSS (DRSS) formula and its advantages • The eight steps in calculating a DRSS statistical stack • How to do a DRSS stack using the statistical stack form • How to interpret the stack results shown on the statistical stack form • How to adjust a statistical stack to handle dependent variables (bonus & shift) • Statistical stack results before and after adjusting for dependent variables • The parameters used in a Monte Carlo simulation • List common distributions used in a Monte Carlo simulation stack • The minimum number of trials that should be used in a Monte Carlo simulation stack • Available software that can perform Monte Carlo simulations • How a Monte Carlo simulation works • How to do a Monte Carlo simulation using the stack form with RiskAMP plug-in Statistical tolerance stacks precautions • The guidelines for determining when a statistical stack should be done • The seven assumptions of RSS statistical tolerance stacks • The four precautions to reduce risk of using statistical tolerance stacks • Why the ST symbol from Y14.5 should be used on a drawing that specifies statistical tolerances • How the ST is used on a drawing to indicated a tolerance is based on statistical methods • The benefits of using the ST symbol on product drawings DRSS and RPL statistical stack calculations • Calculating statistical tolerance stacks • Making adjustments for bonus and shift • Calculating a stack using the DRSS and RPL methods • Using CPK values in a statistical stack • Course summary The Monte Carlo statistical simulation method • Simulation and Monte Carlo simulation
ISO Geometrical Tolerancing 3 Day | Classroom Seminar I.D.# ET7100
This course teaches how to use engineering drawings that use the International Standards Organization (ISO) standards. Utilizing the expertise of world-renowned GD&T expert Alex Krulikowski, this course will teach you to recognize what is required on a standard-compliant drawing and recognize geometrical tolerances based on the ISO standards. The course combines information from dozens of ISO standards into a logical understandable topic. Newly acquired learning is reinforced throughout the class with more than 150 practice problems. Learning Objectives By attending this class, you will be able to: • Describe the ISO standards system on technical drawings • Recognize ISO drawing practices • Explain the structure of GPS and the domains of features • Recognize the symbols used in geometrical tolerancing • Describe linear size and size conditions • Explain the principle of independency and the envelope requirement Explain geometrical tolerancing concepts: MMR, LMR, RPR, virtual conditions, and collective requirements • Interpret the flatness, straightness, roundness, cylindricity, perpendicularity, angularity, and parallelism tolerances • Explain the fundamental concepts of position tolerances • Interpret the position tolerance at MMR and special applications • Interpret the coaxiality, concentricity, symmetry, circular and total run-out tolerances • Interpret the profile any surface and profile any line tolerances • Explain the ISO system for general tolerances • Interpret work piece edge specifications • Interpret surface texture and surface imperfection requirements Who Should Attend This course is valuable for individuals who create or interpret engineering drawings, product and gage designers; process, product, and manufacturing engineers; supplier quality engineers/ professionals; CMM operators; buyers/purchasers; checkers; inspectors; technicians; and sales engineers/professionals Prerequisites To understand the course content, students should have a basic understanding of engineering drawings. • Describe the ISO 286 system of limits and fits • Describe the datum system (planar datums) • Interpret datum target and size datum specifications
Instructor: Fee: $835
ASME GDTP Senior Certified Trainer
.7 CEUs
URL:
sae.org/learn/content/et2055/
Topical Outline Engineering Drawings • Engineering drawings • CAD
93
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 newsletter