AECDAILY AM EN 129005 0725:2025 Edition
$21.45
The Role of Door Openings in Improving Resilient Design.
| Published By | Publication Date | Number of Pages |
| AECDAILY | 2025 |
PDF Catalog
| PDF Pages | PDF Title |
|---|---|
| 1 | Slide 1 |
| 2 | Slide 2: The Role of Door Openings in Improving Resilient Design |
| 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: Resilient Design |
| 9 | Slide 9: What Is Resilient Design? |
| 10 | Slide 10: Resilient Design Principles |
| 11 | Slide 11: Resilient Design Strategies |
| 12 | Slide 12: LEED® v4.1 Pilot Credits |
| 13 | Slide 13: Resources on Resilience |
| 14 | Slide 14: Review Question |
| 15 | Slide 15: Answer |
| 16 | Slide 16: Why Steel? |
| 17 | Slide 17: Steel & Resilient Design |
| 18 | Slide 18: Superior Performance |
| 19 | Slide 19: Fire Rating |
| 20 | Slide 20: Steel Performance Characteristics |
| 21 | Slide 21: Steel Performance Characteristics |
| 22 | Slide 22: Review Question |
| 23 | Slide 23: Answer |
| 24 | Slide 24: Specialty Applications |
| 25 | Slide 25: Blast-Resistant Doors |
| 26 | Slide 26: Blast-Resistant Steel Doors |
| 27 | Slide 27: Applications: Where Are Blast-Resistant Doors Used? |
| 28 | Slide 28: Blast Resistant Doors: Specifying |
| 29 | Slide 29: Seated vs. Unseated: Blast Doors & Hardware |
| 30 | Slide 30: Static vs. Dynamic Loading |
| 31 | Slide 31: Rebound in Static and Dynamic Loading |
| 32 | Slide 32: Level of Protection |
| 33 | Slide 33: U.S. Military Application: Specification |
| 34 | Slide 34: UFC 4-010-01: CW & Standoff distance |
| 35 | Slide 35: UFC 4-010-01: Level of Protection |
| 36 | Slide 36: Dynamic Analysis |
| 37 | Slide 37: Arena Testing & Shock Tube Testing |
| 38 | Slide 38: Arena Testing & Shock Tube Testing |
| 39 | Slide 39: Shock Tube Testing Video |
| 40 | Slide 40: Arena Testing Video |
| 41 | Slide 41: Frame Anchoring |
| 42 | Slide 42: Review Question |
| 43 | Slide 43: Answer |
| 44 | Slide 44: Tornado-Resistant Doors |
| 45 | Slide 45: Windstorms & Resilient Design |
| 46 | Slide 46: Tornados |
| 47 | Slide 47: Wind Effects on Buildings |
| 48 | Slide 48: Tornado Classifications |
| 49 | Slide 49: Tornado Resistant Doors: Steel Doors & Misconceptions |
| 50 | Slide 50: Door Swing |
| 51 | Slide 51: Testing: Windload Resistance |
| 52 | Slide 52: Testing: Windborne Debris Resistance |
| 53 | Slide 53: FEMA Compliant Door Assemblies |
| 54 | Slide 54: FEMA Compliant Door Assemblies |
| 55 | Slide 55: Tornado-Resistant Door Configurations |
| 56 | Slide 56: Bullet-Resistant Doors |
| 57 | Slide 57: Bullet-Resistant Doors: Applications |
| 58 | Slide 58: Bullet-Resistant Steel Doors & Steel Frames |
| 59 | Slide 59: UL 752 |
| 60 | Slide 60: UL 752 |
| 61 | Slide 61: Attack-Resistant Doors |
| 62 | Slide 62: Attack (aka Active Shooter) Door Applications |
| 63 | Slide 63: ASTM F3561, ASTM F476 & UL 752 Level 7 |
| 64 | Slide 64: Holistic Systems Approach |
| 65 | Slide 65: Radio-Frequency Doors |
| 66 | Slide 66: What Are Radio-Frequency Doors? |
| 67 | Slide 67: Radio-Frequency Terminologies |
| 68 | Slide 68: Radio-Frequency Door Applications |
| 69 | Slide 69: Radio-Frequency Door Applications |
| 70 | Slide 70: Flood-Resistant Doors |
| 71 | Slide 71: Flood-Resistant Doors |
| 72 | Slide 72: Flood-Resistant Doors: Applications |
| 73 | Slide 73: Summary |
| 74 | Slide 74: Important Points |
| 75 | Slide 75: Important Points |
| 76 | Slide 76: References & Resources |
| 77 | Slide 77: Thank You |
