AECDAILY QL EN 80409 0724 2024
$38.35
High-Performance Building Envelope Designs with Insulating Concrete Forms
| Published By | Publication Date | Number of Pages |
| AECDAILY | 2024 |
PDF Catalog
| PDF Pages | PDF Title |
|---|---|
| 1 | Slide 1 |
| 2 | Slide 2: High-Performance Building Envelope Designs with Insulating Concrete Forms |
| 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: Environmental Impact & Role of Buildings |
| 9 | Slide 9: Environmental Impact of Buildings |
| 10 | Slide 10: Environmental Impact of Buildings |
| 11 | Slide 11: Environmental Impact of Buildings |
| 12 | Slide 12: Environmental Role of Buildings |
| 13 | Slide 13: Environmental Role of Buildings |
| 14 | Slide 14: Cultural Priorities |
| 15 | Slide 15: Building Industry Priorities & Responsibilities |
| 16 | Slide 16: Building Industry Priorities & Responsibilities |
| 17 | Slide 17: Review Question |
| 18 | Slide 18: Answer |
| 19 | Slide 19: ICFs: Components, Uses, & Benefits |
| 20 | Slide 20: Why Insulating Concrete Forms (ICFs)? |
| 21 | Slide 21: Why Insulating Concrete Forms (ICFs)? |
| 22 | Slide 22: Why Insulating Concrete Forms (ICFs)? |
| 23 | Slide 23: Expanded Polystyrene (EPS) |
| 24 | Slide 24: Multiple Functions of EPS Formwork |
| 25 | Slide 25: Multiple Functions of EPS Formwork |
| 26 | Slide 26: What Is the End Result? |
| 27 | Slide 27: ICF Use Today |
| 28 | Slide 28: ICF Use Today |
| 29 | Slide 29: ICF Green Roofs |
| 30 | Slide 30: ICF Green Roofs |
| 31 | Slide 31: Main Types of ICFs |
| 32 | Slide 32: Two-Sided ICF |
| 33 | Slide 33: How Do ICFs Control Heat Gain/Loss? |
| 34 | Slide 34: Insulation Options |
| 35 | Slide 35: Example: Insulation Options |
| 36 | Slide 36: Thermal Mass Optimization (TMO) |
| 37 | Slide 37: Thermal Mass Optimization (TMO) |
| 38 | Slide 38: ICF Floor, Roof, & Tilt-Wall Systems |
| 39 | Slide 39: ICF Complete Concrete Building Enclosure |
| 40 | Slide 40: Advantages of Building with ICFs |
| 41 | Slide 41: ICF Impact on Site Efficiency & Scheduling |
| 42 | Slide 42: ICF Impact on Building Design Challenges |
| 43 | Slide 43: Optimization of the Building Design for ICFs |
| 44 | Slide 44: Review Question |
| 45 | Slide 45: Answer |
| 46 | Slide 46: ICF Construction: Life Cycle & Environmental Impact |
| 47 | Slide 47: Life Cycle Assessment (LCA) |
| 48 | Slide 48: Environmental Product Declaration (EPD) |
| 49 | Slide 49: ICF Materials: Environmental Impact |
| 50 | Slide 50: ICF Materials: Environmental Impact |
| 51 | Slide 51: ICF Construction |
| 52 | Slide 52: ICF Construction: Environmental Impact |
| 53 | Slide 53: ICF Construction: Environmental Impact |
| 54 | Slide 54: ICF Construction: Environmental Impact |
| 55 | Slide 55: ICF Construction: Environmental Impact |
| 56 | Slide 56: ICF Construction: Financial Incentives |
| 57 | Slide 57: ICF Construction: Financial Incentives |
| 58 | Slide 58: Overview: LEED® Certification |
| 59 | Slide 59: ICFs & LEED v4.1 |
| 60 | Slide 60: Better Building Resilience Supports Sustainability |
| 61 | Slide 61: ICF/Concrete Higher Resistance to Lateral Forces |
| 62 | Slide 62: Lateral Strength Comparison |
| 63 | Slide 63: Reduced Building Displacement in ICF/Concrete Buildings |
| 64 | Slide 64: Reduced Functional Recovery Time in ICF/Concrete Buildings |
| 65 | Slide 65: Other Costs and Impact on the Wider Community |
| 66 | Slide 66: Review Question |
| 67 | Slide 67: Answer |
| 68 | Slide 68: ICF/Concrete Walls |
| 69 | Slide 69: Constructing an ICF/Concrete Wall |
| 70 | Slide 70: Constructing an ICF/Concrete Wall |
| 71 | Slide 71: Constructing an ICF/Concrete Wall |
| 72 | Slide 72: Constructing an ICF/Concrete Wall |
| 73 | Slide 73: Constructing an ICF/Concrete Wall |
| 74 | Slide 74: Constructing an ICF/Concrete Wall |
| 75 | Slide 75: ICF/Concrete Floors & Roofs |
| 76 | Slide 76: Building Design Objectives & ICF Solutions |
| 77 | Slide 77: Elevated Concrete Structures |
| 78 | Slide 78: Conventional Suspended Slab |
| 79 | Slide 79: Conventional Suspended Slab |
| 80 | Slide 80: Three-Voided Slab ICF Designs |
| 81 | Slide 81: A “Pan Form” for T-Beam Slab Construction |
| 82 | Slide 82: T-Beam Evolution |
| 83 | Slide 83: T-Beam Evolution |
| 84 | Slide 84: ICF System Achieves Design Objective |
| 85 | Slide 85: Concrete Slab vs. ICF T-Beam |
| 86 | Slide 86: Floor Comparison: Conventional Slab vs. ICF T-Beam |
| 87 | Slide 87: Increasing Clear Spans |
| 88 | Slide 88: Typical Floor-to-Wall Connections |
| 89 | Slide 89: Typical Floor-to-Wall Connections |
| 90 | Slide 90: Fire & Sound Barrier for Multifamily Occupancies |
| 91 | Slide 91: Disaster-Resistant ICF/Concrete Designs |
| 92 | Slide 92: Review Question |
| 93 | Slide 93: Answer |
| 94 | Slide 94: ICF Performance & Industry Standards |
| 95 | Slide 95: Desired Characteristics of Building Shells |
| 96 | Slide 96: Industry Standards |
| 97 | Slide 97: IRC Prescriptive Designs |
| 98 | Slide 98: Building Codes & ICFs: Topical Code Categories |
| 99 | Slide 99: Relevant Codes & Standards: USA |
| 100 | Slide 100: Relevant Codes & Standards: USA |
| 101 | Slide 101: Relevant Codes & Standards: USA |
| 102 | Slide 102: Relevant Codes & Standards: Canada |
| 103 | Slide 103: Relevant Codes & Standards: Canada |
| 104 | Slide 104: Relevant Codes & Standards: Canada |
| 105 | Slide 105: Case Studies: Disaster-Resistant ICF Designs |
| 106 | Slide 106: Harry C. Moore Library, Nassau, Bahamas |
| 107 | Slide 107: Harry C. Moore Library, Nassau, Bahamas |
| 108 | Slide 108: Green Roofs over Luxury Lofts, Orange, NJ |
| 109 | Slide 109: Green Roofs over Luxury Lofts, Orange, NJ |
| 110 | Slide 110: Custom Home, Dewey Beach, MD |
| 111 | Slide 111: Custom Home, Dewey Beach, MD |
| 112 | Slide 112: Salmen High School, Slidell, LA |
| 113 | Slide 113: Salmen High School, Slidell, LA |
| 114 | Slide 114: Resources |
| 115 | Slide 115: Resources |
| 116 | Slide 116: Resources |
| 117 | Slide 117: Thank You |
