ENGINEERING TOOLS & METHODS
• Applied to a feature of size at MMC with attribute and variable measurement • Dimensional measurement planning and inspection Verifying Circularity and Cylindricity Tolerance Requirements • Circularity and cylindricity tolerance Y14.5 requirements • Circularity: inspecting using variable and algorithmic measurement • B89.3.1 circularity verification and filtering requirements • Cylindricity: verification using variable measurement and a CMM • Dimensional measurement planning, inspection Verifying Orientation Tolerance Requirements • Y14.5 requirements for an angular dimension, perpendicularity tolerance applied to a surface and feature of size (RFS and MMC) • Angular tolerance verification and sources of uncertainty • Perpendicularity tolerance applied to a surface verification using variable and algorithmic measurement, sources of uncertainty • Perpendicularity tolerance of a feature of size MMC verification using attribute measurement, RFS verification using variable measurement, sources of uncertainty • Perpendicularity tolerance applied to a feature of size RFS & MMC verification using algorithmic measurement, sources of uncertainty • Perpendicularity tolerance: inspection planning and reporting Verifying Position Tolerance Requirements • Y14.5 requirements for a position tolerance (RFS and MMC) • Position tolerance (MMC) verification using an attribute gage, sources of uncertainty • Position tolerance (RFS) verification using variable measurement, sources of uncertainty Applied at RFS & MMC using algorithmic measurement, sources of uncertainty • Inspection planning and reporting Verifying Circular and Total Runout Tolerance Requirements • Y14.5 requirements • Applied to a diameter: verification using a variable and algorithmic measurement methods, sources of uncertainty • Inspection planning and reporting Verifying Profile of a Surface and Profile of a Line Tolerance Re- quirements • Controlling parallelism when no symbol is shown • Y14.5 requirements of profile of a surface and line tolerances • Verification using an attribute, variable, and algorithmic measurement methods, sources of uncertainty • Inspection planning and reporting
Fundamentals of GD&T 1994 3 Day | Classroom Seminar I.D.# ET2001
This course teaches the terms, rules, symbols, and concepts of GD&T as prescribed in the ASME Y14.5M-1994 Standard. Utilizing the expertise of world-renowned GD&T expert Alex Krulikowski, the course offers an in-depth explanation of geometric symbols, including each symbol’s requirements, tolerance zones, and limitations. It also includes a comparison of GD&T to coordinate tolerancing; an explanation of tolerance zones; Rules #1 and #2; form and orientation controls; tolerance of position; runout and profile controls. Newly acquired learning is reinforced throughout the class with more than 300 practice problems. • Describe engineering drawings: importance, drawing conventions, dimensions and tolerances, standards • Explain why geometric tolerancing is superior to coordinate tolerancing • Describe the key terms used in geometric tolerancing • Recognize the modifiers and symbols used in GD&T • Explain the rules used in GD&T • Describe the concepts of basic dimensions, worst-case boundary, virtual condition, inner and outer boundary, and bonus tolerance • Interpret the various types of tolerances (flatness, straightness, circularity, cylindricity, perpendicularity, angularity, parallelism, position, concentricity, symmetry, runout, and profile) • Describe the datum system • Interpret applications of datum targets, feature of size datum specifications (RFS & MMC) • Describe the fundamental concepts of tolerance of position • Interpret tolerance of position special applications 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 Student should have completed the Engineering Drawing Requirements course or equivalent. Learning Objectives By attending this class, you will be able to:
Topical Outline Introduction • Engineering drawings • GD&T/coordinate dimensioning comparison • Eight key GD&T terms
Course summary
Instructor: Fee: $1415
ASME GDTP Senior Certified Trainer
1.3 CEUs
URL:
sae.org/learn/content/et8200/
86
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