EFI Global Professional Engineers (PEs) and Registered Roof Consultants (RRCs) provide the technical content and instruction for this 4-day course.
The course reviews proper methods for completing research and analysis on roofs before and after inspection.
This is an advanced level course. Applicants must meet specific requirements to become EVS/R® certified – click here to view the EVS/R® course overview
You will learn detailed information on the following:
Steep Slope roofing systems including:
- Clay Tile
- Wood Shake
- Architectural Metal Panel/Metal shingle
Low Slope roofing systems:
- Single Ply PVC, TPO, and EPDM
- Built Up roofs including Modified Bitumen, Coal Tar Pitch or Asphalt BUR, Ceramic
Granule surface, Flood Coat and gravel, Aluminum Oxide Emulsion
Roof design considerations, including:
- wind pressures
- penetration and edge treatment
- drainage and environmental damage to roofing systems
Building code and legal considerations, industry standards and manufacturer/association
recommendations. Industry standards based on:
- International Building Code (Commercial)
- International Residential Code (One and Tow Family)
- International Energy Conservation Code
- National Roof Contractors Association
- The Asphalt Roofing Manufacturers Association
- National Tile Roofing Manufacturers Association
- Western States Roofing Contractors Association
- Tile Roofing Institute
Mechanism of moisture penetration of the building envelope including rain, wind driven, advection and
Mechanics of wind, how it is measured and if impact on roofing systems.
Storm damage assessment is reviewed in detail so that the student will understand the basic mechanics of storm related damage and be able to differentiate storm damage from mechanical, manufactured and construction related defects. It includes explanation of functional damage, modes of failure with specific examples of each, how hail is formed and the velocity and energy associated with various types and sizes of hail. The course instructs how hail damage causes cosmetic distress and includes corroborating evidence with specific examples provided for each roofing material/system. Students learn how to complete a qualitative evaluation to confirm and delineate hail damage and how to determine if the amount of damage warrants repair or replacement.
The course provides detailed information and examples of qualitative water intrusion evaluations including the following tests to determine if a prescribed condition will leak and where.
- spray rack testing
- water penetration testing
- negative pressure uplift testing
- capacitance testing
- nuclear moisture testing
- low voltage electrical testing
- high voltage electrical testing
- infrared thermography
The course provides specific information on how infrared thermography is used during inspections.
Cases from actual engineering studies are used to show various conditions than can be identified with
this method. Information on destructive and laboratory testing including core sampling process is also
The EVS/R® exam has 50 multiple-choice questions that involve the following topics: codes and standards, roofing materials and properties, assemblies, and damage evaluation and estimating. Some problems may involve mathematical computations that require familiarity with basic algebra.
The exam is 3 hours in duration.
The exam fee is included in the course cost.
Participants must successfully pass the exam to become EVS/R® certified.
The total cost for the program is $1370. An application fee of $75 must accompany the initial application for registration. If accepted into the EVS/R® course, the course and examination fee is $1295.