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ASME PCC-1 Level 2 Bolting Assembler Fundamentals (Self Study)

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ASME PCC-1 Level 2 Bolting Assembler Fundamentals is designed to train & evaluate a bolter’s ability to perform general pre-assembly and assembly activities.

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This Self Study course is designed to be taken at your convenience and on your own schedule. You have 365 days from the time of purchase to finish the course.

Learn more about earning a microcredential through ASME's Bolted Flange Joint Assembly Program!

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This course is designed to train and evaluate a bolter’s ability to inspect and perform pre-assembly, assembly inspected bolted flange joints, such as cleaning, inspection, and assembly activities such as gasket ant bolt installation, alignment, and manual torque tightening. Participants will learn principles and practices of safe bolted joint assembly as outlined in Appendix A of ASME PCC-1: Guidelines for Pressure Boundary Bolted Flange Joint Assembly. Appendix A of ASME PCC-1 provides a set of guidelines for pressure boundary bolted flange joint assembly. This course covers the training concepts identified for the Level 2 bolting assembler.

This course is part of ASME’s Bolted Flange Joint Assembly Program, which provides formal on demand training, fostering a deeper understanding of topics and concepts defined in ASME PCC-1 Appendix A.

This course is a prerequisite for the Level 3 Bolting Assembler Qualification Program.

Student will earn a microcredential for each level by completing courses covering the 4 skill levels:

  • Level 1: Individual should be able to identify the main components of a bolted flange joint including the bolts, nut, flanges, gaskets, and lubrication. This individual should also have a basic awareness of bolted flange joints and general terminology of bolting tools and equipment.  
  • Level 2: Individual should be able to perform general pre-assembly activities of bolted flange joints, such as cleaning and inspection, as well as assembly activities such as gasket and bolt installation, alignment, and manual torque tightening.
  • Level 3: Individual should be knowledgeable with in-depth concepts of assembly requirements such as proper use of manual tightening equipment methods and pre, in-process, and post assembly quality assurance. This individual should also be familiar with the reasons why the majority of requirements for bolted flange joint assembly exist.  
  • Level 4: Individual should have advanced knowledge of all aspects of bolted flange joint assembly and should be able to develop and maintain bolted flange joint assembly procedures, training processes, and provide detailed oversight and guidance to bolted flange joint program.

This course is a prerequisite for the Level 3 Bolting Assembler Qualification Program.

By participating in this course, you will learn how to successfully:

  • Perform general pre-tightening activities of bolted flange joints such as cleaning, inspection, and gasket and bolt installation.
  • Perform tightening activities such as alignment, and manual torque tightening. 
  • Recognize the proper assembly of bolted flange joints.

Who should attend?

  • Anyone involved in the assembly, disassembly or quality assurance of bolted joints; Major operators and contractors involved in oil and gas, petrochemical and power generation, or any industry that uses bolted flange joint assemblies.
  • Course participants are expected to have:
  • Access to a computer and reliable internet connection
  • A calculator
  • Software to display PDF files (such as Adobe Reader)

A Digital Badge and a Certificate of Completion will be issued to registrants who successfully complete the course and achieve a passing score of 75% or higher on the final exam.

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Included in these bundles
ASME PCC-1 Bolting Assembler Fundamentals Learning Path
Includes:
ASME PCC-1 Level 1 Bolting Assembler Fundamentals (Self Study), ASME PCC-1 Level 3 Bolting Assembler Fundamentals (Self Study), ASME PCC-1 Level 4 Bolting Assembler Fundamentals (Self Study), ASME PCC-1 Level 2 Bolting Assembler Fundamentals (Self Study)
Price if purchased separately: $380
You save: $85
List Price: $295
Outline

Module 1: Overview of ASME PCC-1

Module 2: Level 2 Bolting Assembler Roles and Responsibilities

Module 3: Flanged Joints

  • The potential consequences of mating flat-faced flanges to raised-face flanges
  • Bolting Terminology, including common terms found in the field and their relationship to each other (e.g. kips, psig, psi, lb, ft-lb, N-m, ksi, tpi)
  • Bolts, studs, and nuts terminology
  • The importance of multipoint tightening of Ring Type Joint Flanges
  • Corporate and site standard and specifications for gaskets and piping
  • Corporate and site standards for joint assembly
  • Corporate and site standards and specifications for bolt loads and assembly techniques

Module 4: Bolts

  • Common nut-bolt combinations
  • Purpose for bolt and nut coatings for assembly and disassembly 
  • Problems associated with reuse of studs/nuts and consideration for the need to renew bolting 
  • Bolt inspection (thread form, corrosion, and free-running nut for triggering replacement; see section 4 and Appendix N) 
  • Use of spacers or bolt collars

Module 5: Gaskets

  • Methods for holding gasket in place
  • Sensitivity of different gasket types to assembly procedures
  • Differences of hard vs. soft gasket and hard faced vs. soft faced gasket

Module 6: Lubrication

  • Why lubricant should be applied to all working surfaces
  • Contamination of lubricants during assembly and the effect to resultant bolt load
  • Purpose of applying lubricant (less torque to install, break out – reduce galling, reduce bolt scatter, achieve accurate bolt load)
  • The necessity to use lubricant on coated studs, and effect of lubricant on coated studs
  • Effect of type of lubricant

Module 7: Bolting Tools and Equipment

  • Working parts of a manual torque wrench
  • Setting required torque values on common types of wrenches, beware of units
  • Bolting Patterns (sequence and passes required to achieve desired bolt torque
  • Method of tightening
  • Accuracy of bolt torque tightening versus that of manual tightening
  • Variables affecting torque, single clicking vs. double clicking, slow steady pull versus jerky pulling
  • Techniques used for load control by torque measurement
  • Inspection of common field equipment (especially torque wrenches)
  • Frequency of calibration and verification
  • Discussion of the advantages and disadvantages of the tightening methods
  • Use of proprietary backup wrenches and alignment tools, which may improve safety (hands free, reaction arm free) and speed of assembly

Module 8: Assembly of Flanges 

  • Importance of bolts passing freely through bolt holes
  • Ensuring Gasket is correctly located
  • Flange-face gasket contact surface finish 
  • Acceptable levels of surface imperfections corresponding to different gasket types (see Appendix D)
  • Inspection of flange and nut contact surfaces 
  • Joint tolerances and alignment 
  • Final inspection of gasket seal surface and gasket (dimensions, type, and damage)
  • Temporary support and/or rigging considerations for joint components
  • Joint assembly records
  • Joint gap measurement 
  • Measurement of joint gaps during assembly 
  • Measurement of joint gaps after assembly 
  • General workflow for inspecting and preparing a joint for closure
  • The need to ensure equipment alignment (shaft alignment) is not affected by external loads caused by assembly of piping connected to the rotating equipment
  • Alignment: tighter limits required for shorter or stiff spans
  • Acceptable levels of flatness corresponding to different gasket types 
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Course Developer

Brett Thibodeaux

Fixed Equipment Reliability Area Group Leader, CITGO Petroleum Corporation

Brett Thibodeaux Has nearly 20 years of experience in the design, specification, maintenance, and troubleshooting of process equipment in both the refining and petrochemical industries.

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Format

Self Study

100% online independent learning at your own pace. Learners can enroll and start at any time. Courses are accessible for 365 days.
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