GeoTol Pro Fundamentals Online – Levels 1 & 2

Pro Fundamentals · Single User · 2009

Level 1 and 2 Online Course Details

This Level 1 and 2 Combined program is a full professional level course that provide knowledge on the basics as well as the more advanced concepts of geometric tolerancing. It is delivered per the ASME Y14.5-2009 dimensioning and tolerancing standard and consists of 17 interactive units. This program has been presented and refined over the past 30 years and covers what personnel need to know in order to work in an engineering, manufacturing and quality environment on a daily basis. The program is designed to build knowledge in steps, keeping the students engaged all the way through. This program is great for people new to the subject, those looking for a refresher course, or people who are interested in the more advanced and specialized concepts of geometric tolerancing.

The units start with a series of video clips of both Al Neumann and Scott Neumann teaching the lesson. Al and Scott trade off, sportscaster style, teaching the subject by talking about the engineering drawings, showing computer animations and using wood and plastic models to demonstrate inspection techniques. In between the video clips, the students are asked interactive questions on screen. The questions range from multiple choice, drag and drop, or hot spot buttons. After the questions, Al and Scott then provide the answers before continuing to the next topic. The student’s grades are tracked and reported at the end of each unit.

The students may follow along with the lessons in their GeoTol Pro workbook with pages that match the slides on screen. The 6 month access also allows the students to go back and review both the video clips and questions to reinforce the concepts as needed. See the program outline for the topics covered.

Product Outline

  • Introduction to Geometric Dimensioning and Tolerancing
    • General overview, geometric characteristic symbols, rules, terms and definitions
    • Introduction to measurement principles, open set-up and CMM
  • Limits of Size
    • Rule #1
    • Features with & without size
    • Regular & irregular features of size
    • Independency principle
    • Limits & fits
  • How the Geometric System Works
    • Problems with plus/minus tolerancing
    • Introduction to the datum reference frame
    • Datum precedence
    • Basic dimensions
    • Introduction to Position Tolerancing
    • MMC, LMC, RFS feature modifiers
    • Introduction to Profile Tolerancing
  • Position Tolerancing and Verification
    • Verifying position
    • More on MMC, LMC, RFS feature modifiers
    • Paper gage
  • Product Plans and Virtual Condition
    • Product definition drawing, manufacturing process plan, dimensional measurement plan
    • Introduction to boundaries
    • Calculating virtual size
    • Perpendicularity as a refinement of position
  • The Datum Reference Frame
    • Datums, datum features, datum feature simulators
    • Holes, slots, shafts, tabs, widths as datum features
    • Connection between the theory and physical
    • Datum feature precedence
    • Constraining the degrees of freedom
    • Datum feature simulator requirements
    • Partial datum features
  • Datum Feature Modifiers
    • MMB, LMB, RMB
    • Calculating boundaries for datum features at MMB
    • Comparison between datum feature modifiers RMB and MMB
    • Simultaneous requirement implied as default
    • Calculating allowable datum feature shift
    • Paper gage calculations
  • Datum Targets and Irregular Surfaces
    • Contoured datum features
    • Datum targets used on sheet metal
    • Datum targets used on castings
    • Calculations from casting to machining
  • Datum Reference Frames, Advanced Topics
    • Hole patterns as datum features
    • Hole and Slot design
    • Translation modifier
    • Multiple DRF
    • Customized DRF
  • Form Tolerances
    • Flatness, Straightness, Circularity, Cylindricity
    • Flatness per unit area
  • Orientation Tolerances
    • Perpendicularity, Parallelism, Angularity
    • Orientation as a refinement of Location
    • Perpendicularity of Zero at MMC
  • More Advanced Profile Tolerances
    • Profile of a surface and line
    • Using profile to control size, form, orientation and location
    • Bilateral and unilateral tolerances
    • Application and verification princip
    • Free state and restrained condition
    • Composite profile
  • More Advanced Position Tolerances
    • Position rectangular, conical, spherical tolerance zones
    • Position boundary
    • Continuous feature
    • Composite position tolerancing
    • Comparison of two single segments vs. composite tolerancing
    • Paper gage calculations
  • Coaxial and Runout Tolerances
    • Two datum features creating a single datum axis (A-B)
    • Position to control coaxiality
    • Circular runout and total runout
    • Concentricity and Symmetry
    • Profile to control coaxiality
    • Comparison of position, concentricity, runout, profile
  • Fixed and Floating Fastener Formulas
    • Calculating position tolerances for clearance holes and tapped holes
    • Screw threads with projected tolerance zones
  • Boundaries
    • Maximum material boundary, least material boundary, inner boundary, outer boundary
    • Introduction to stack ups
    • Calculations for wall thickness
  • Applications
    • Corner Bracket
    • Flange Bearing
    • Powder Case
    • Link

Price: $299.00
Weight: lbs
SKU: #L003

Create account on GeoTol LMS
and purchase using PayPal