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Bolted Joints and Gasket Behavior

Understand bolted joint fundamentals and gasketed joint torque factors, bolting patterns, and gasket behavior, tightness, selection and specification.

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  • Salt Lake City, UT, USA May 12-13th, 2025

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Welcome Back!

The ability to interact with ASME instructors who bring real world experience, examples, and best practices to life in our learning experiences is a major reason learners choose face to face training. Networking with peers is also a valuable part of the time spent together during a course. We are excited to start offering these important courses again in person. See you in Houston! 

Schedule: ​This course commences at 8:30 AM and ends at 5:30 PM local time, each day, with breaks scheduled throughout. 

May Venue: This course will be held at the The Grand America Hotel in conjunction with ASME Boiler & Pressure Vessel Code Week.  Please follow this link for hotel reservations.

Description
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Bolted and gasketed joints are critical to pressure-containing and industrial systems worldwide. This two-day course is an engineer’s guide to bolting and gasket design, selection and installation. It provides an overview of bolted joint fundamentals and focuses on the roles of bolts and gaskets in developing and maintaining leak-tight connections of bolted flange joints, including troubleshooting of existing bolted flange connection.

This course examines how to assess a successful value of bolt load, as well as explains the importance of specifying a tightening procedure. It introduces the subject of PVRC (Pressure Vessel Research Council) leak tightness calculations and presents an overview of current trends and practices to achieve reliable leak-tight bolted joint solutions.

You Will Learn To:

  • Explain how the bolted joint functions as a mechanical system that relies on the simultaneous interaction of the three primary components to successfully seal the connection
  • Assess the mechanical stress and strain of a bolt and explain the challenges that one encounters when specifying an optimum bolt load
  • Evaluate the total state of stress in bolts and how this effects the selection of a given bolt type and grade
  • Describe the effects of in-service conditions and how they reduce or increase bolt load
  • Describe the concept of leak tightness as a predictable value of gasket stress and how to use leak tightness as the basis of specifying bolt loads
  • Identify conditions that create bolt failure
  • Use ASME PCC-1 Guidelines for compliance to successful sealing of bolted, gasketed connections
  • Discern how to use either stress or strain to select bolt load
  • Evaluate the various methods of attaining bolt load.

Course materials (included in the purchase of the course)

Downloadable course notes and exercises via ASME's learning platform.

Course Requirements

Attendees are required to bring a scientific calculators to class to complete exercises.

Who Should Attend

This course is intended for engineers with the responsibility for, or are involved in, the specification and assembly of bolted joints and gasketed bolted flange connections. Two years of engineering experience would be beneficial, but is not required. The course is also useful to Engineering Management that wishes to assess the value of the material, and to mechanics that would like a broader understanding of the subject.

A Certificate of completion will be issued to registrants who successfully attend and complete the course.

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Outline

Introduction to the Bolted Joint

  • Basic Concepts & Mechanics of Bolted Joints
  • Bolt Flange Joint as a Single Mechanical System
  • Importance of Distinguishing Between Bolt Load and Clamping Force
  • Bolting Strength, both Elastic and Plastic Properties
  • Stress Distribution within a Bolt
  • Introduction to Actual Versus Ideal Loadings on a Bolt
  • Combining Tensile and Shear Stresses, Both Ductile and Brittle Material
  • Threading Basics

Properties Affecting In-service Conditions

  • Transient Loads
  • Effect of Changes in Elasticity
  • Clamping Force Stability
  • Nut Selection and Condition
  • High and Low Temperature Operation

Stress and Strain Considerations:

  • Hook’s Law and Understanding Spring Rate
  • Application of Spring Rate to Evaluate Bolt Stretch
  • Spring Rate(s) Inherent in the Gasketed, Bolted Flange Joint
  • Introduction to Bolt Loading Diagrams
  • Estimating Preload Variability
  • Understanding the Importance of Load Factor

Gasket Behavior, Selection and Specification

  • Introduction to the Concept of PVRC Leak-Tightness Prediction
  • Room Only Temperature Testing, the Basis of a, Gb and Gs
  • Historical Perspective on the Evolution of Leak-Tightness Predictability
  • How to Evaluate the Leak Tightness Parameter, TPmin
  • The Meaning of Leak Tightness Class
  • Gasket Limits
  • Gasket Selection Criteria
  • Understanding Gasket Blowout and How to Prevent it

Introduction to Assembly and Clamping Force

  • How to Evaluate Torque, Short and Long Form Equations
  • Understand Nut Factor and its Potential Variability
  • Real-world Challenges to Getting and Maintaining Preload
  • Bolting Procedures and Why No-Nut-Movement can be so Important
  • Preload Methods; Hydraulic, Stretch, Turn-of nut and Ultrasonic

ASME PCC-1 Guidelines

  • Scope
  • Assembly; Bolting Specialist Training Program
  • Conditional Assessment of Equipment; Damage and Alignment Requirements
  • Tightening Procedures
  • Important Terms
  • Record Keeping

Understanding & Preventing Gasket Failure

  • Excessive Bolt Loading
  • Uneven Bolt Loading
  • Corrosion
  • Galling
  • Self-Loosening
  • Fatigue
  • Basic Cause Investigation

Joint Calculation Methods

  • ASME Section VIII, Division 1, Appendix 2
  • EN 1591-1 Flange Analysis
  • Finite Element Analysis (FEA)
  • Importance of Component Elasticity in Creating Gasket Stress Distribution
  • Pressure Vessel Research Council Leak Tightness Evaluation and Use
  • ASME BFJ Leak-tightness Based Flange Design … future considerations
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Instructor

Jack Hawkins, P.E.

Jack Hawkins, P.E., has over 35 years of experience, primarily in technical roles of stress analysis and mechanical design of equipment and components.

More Information

Format

In-Person

Conducted in a physical classroom or lab with an instructor and peers.  

Note: ASME in-person activities will follow the state and local laws, regulations and guidelines regarding COVID-19 applicable to the location of the event.  Learn more here
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