AECDAILY RM EN 139403 1223:2024 Edition
$61.10
Polyiso: The Next Generation Air and Water-Resistive Barrier
| Published By | Publication Date | Number of Pages |
| AECDAILY | 2024 | 74 |
PDF Catalog
| PDF Pages | PDF Title |
|---|---|
| 1 | Slide 1 |
| 2 | Slide 2: Polyiso: The Next Generation Air and Water-Resistive Barrier |
| 3 | Slide 3 |
| 4 | Slide 4 |
| 5 | Slide 5: How to Use This Online Learning Course |
| 6 | Slide 6: Purpose and Learning Objectives |
| 7 | Slide 7: Contents |
| 8 | Slide 8: Building Sustainability and Longevity |
| 9 | Slide 9: Building Sustainability and Longevity |
| 10 | Slide 10: Sustainability: The Benefits |
| 11 | Slide 11: Thermal Comfort |
| 12 | Slide 12: Building Life |
| 13 | Slide 13: Building Life |
| 14 | Slide 14: Buildings Use 42% of Total Energy Use |
| 15 | Slide 15: Energy Consumption |
| 16 | Slide 16: The Building Envelope |
| 17 | Slide 17: Performance Requirements |
| 18 | Slide 18: Thermal Bridges |
| 19 | Slide 19: Poor Thermal Integrity |
| 20 | Slide 20: Impact of Thermal Bridging |
| 21 | Slide 21: Continuous Insulation |
| 22 | Slide 22: Air Barrier Systems |
| 23 | Slide 23: Air Barrier Materials |
| 24 | Slide 24: Potential Areas for Air Leakage |
| 25 | Slide 25: Sources of Air Pressure Difference |
| 26 | Slide 26: Diffusion vs. Air Leakage |
| 27 | Slide 27: Thermal, Air, and Water Protection |
| 28 | Slide 28: Why Use Air Barrier Systems? |
| 29 | Slide 29: Review Question |
| 30 | Slide 30: Answer |
| 31 | Slide 31: Review Question |
| 32 | Slide 32: Answer |
| 33 | Slide 33: Building Envelope Design, Performance, and Requirements |
| 34 | Slide 34: Energy Codes and Standards |
| 35 | Slide 35: Energy Codes and Standards |
| 36 | Slide 36: Building Codes Assistance Project (BCAP) |
| 37 | Slide 37: Energy Codes and Standards |
| 38 | Slide 38: How Much Continuous Insulation Is Required by Building Codes? |
| 39 | Slide 39: Air Barrier Codes and Standards |
| 40 | Slide 40: Air Barrier Requirements: IECC Compliance Options |
| 41 | Slide 41: Air Barrier Requirements: IECC Compliance Options |
| 42 | Slide 42: Air Barrier Requirements: Material |
| 43 | Slide 43: Air Barrier Requirements: Assembly |
| 44 | Slide 44: Air Barrier Requirements: Building Test |
| 45 | Slide 45: Water-Resistive Barrier |
| 46 | Slide 46: Water-Resistive Barrier |
| 47 | Slide 47: Vapor Retarders |
| 48 | Slide 48: Vapor Retarders |
| 49 | Slide 49: Vapor Retarders |
| 50 | Slide 50: Vapor Retarders |
| 51 | Slide 51: Fire Testing: Foam Plastic Insulation |
| 52 | Slide 52: Fire Testing: Foam Plastic Insulation |
| 53 | Slide 53: NFPA 285: Overview |
| 54 | Slide 54: NFPA 285: Test Method |
| 55 | Slide 55: Designing Building Envelopes Using Polyiso with Steel Studs |
| 56 | Slide 56: Thermal, Air, and Water Protection |
| 57 | Slide 57: Steel Stud Wall Systems |
| 58 | Slide 58: Polyiso Wall Insulation Systems |
| 59 | Slide 59: What Is Polyisocyanurate Wall Insulation? |
| 60 | Slide 60: Polyiso Comparison |
| 61 | Slide 61: Fire Resistance: ASTM E84 |
| 62 | Slide 62: Fire Resistance: ASTM E84 |
| 63 | Slide 63: Fire Resistance: NFPA 285 |
| 64 | Slide 64: Why Use Polyiso? |
| 65 | Slide 65: Additional Properties |
| 66 | Slide 66: Easy to Specify and Install |
| 67 | Slide 67: Review Question |
| 68 | Slide 68: Answer |
| 69 | Slide 69: LEED® Credentials |
| 70 | Slide 70: 2030 Challenge |
| 71 | Slide 71: 2030 Challenge |
| 72 | Slide 72: LEED v4 Opportunities |
| 73 | Slide 73: LEED v4 Opportunities |
| 74 | Slide 74: Thank You |
