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AECDAILY XY EN 143803 0623:2025 Edition

AECDAILY XY EN 143803 0623:2025 Edition

$13.00

Increasing Concrete Durability and Sustainability with Crystalline Waterproofing

Published By Publication Date Number of Pages
AECDAILY 2025
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PDF Catalog

PDF Pages PDF Title
1 Slide 1
2 Slide 2: Increasing Concrete Durability and Sustainability with Crystalline Waterproofing
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 of Concrete
9 Slide 9: Sustainable Construction and Concrete
10 Slide 10: Environmental Impact of Concrete
11 Slide 11: Environmental Impact of Concrete
12 Slide 12: Durability’s Role in Concrete Sustainability
13 Slide 13: Durability’s Role in Concrete Sustainability
14 Slide 14: Causes of Concrete Deterioration
15 Slide 15: Reinforcing Steel Corrosion
16 Slide 16: Reinforcing Steel Corrosion
17 Slide 17: Reinforcing Steel Corrosion
18 Slide 18: Reinforcing Steel Corrosion
19 Slide 19: Reinforcing Steel Corrosion
20 Slide 20: Freeze-Thaw Damage
21 Slide 21: Freeze-Thaw Damage
22 Slide 22: Chemical Attack
23 Slide 23: Chemical Attack
24 Slide 24: Chemical Attack
25 Slide 25: Alkali-Aggregate Reactivity
26 Slide 26: Abrasion / Erosion
27 Slide 27: Abrasion / Erosion
28 Slide 28: Increasing Durability & Sustainability of Concrete
29 Slide 29: Increasing Durability and Sustainability
30 Slide 30: Increasing Durability and Sustainability
31 Slide 31: Increasing Durability and Sustainability
32 Slide 32
33 Slide 33
34 Slide 34: Crystalline Waterproofing Technology
35 Slide 35: What Is Crystalline Waterproofing Technology?
36 Slide 36: How It Works
37 Slide 37: Benefits of Crystalline Waterproofing Technology
38 Slide 38: Benefits of Crystalline Waterproofing Technology
39 Slide 39: Benefits of Crystalline Waterproofing Technology
40 Slide 40: Crystalline Waterproofing Installation Methods
41 Slide 41: Crystalline Waterproofing Installation Methods
42 Slide 42: Crystalline Waterproofing Installation Methods
43 Slide 43: Crystalline Waterproofing Testing
44 Slide 44: Lab Testing: Crack Sealing
45 Slide 45: Lab Testing: Chemical Resistance
46 Slide 46: Lab Testing: Sulfate Resistance
47 Slide 47: Lab Testing: Chloride Resistance
48 Slide 48: Lab Testing: SCMs and Crystalline Waterproofing Technology
49 Slide 49: Lab Testing: SCMs and Crystalline Waterproofing Technology
50 Slide 50: Field Testing: Chloride Resistance ‒ Bridge, Milwaukee, WI
51 Slide 51: Field Testing: Chloride Resistance ‒ Cronulla Marina, Australia
52 Slide 52
53 Slide 53
54 Slide 54: Sustainable Aspects of Crystalline Waterproofing
55 Slide 55: Summary of Sustainable Aspects
56 Slide 56: Summary of Sustainable Aspects
57 Slide 57: Potential LEED® Contributions
58 Slide 58: Potential LEED® Contributions
59 Slide 59: Applications and Project Examples
60 Slide 60: Common Applications
61 Slide 61: Common Applications
62 Slide 62: Case Study: Clinton Street Sewer Collection Project
63 Slide 63: Case Study: 102 University Avenue
64 Slide 64: Case Study: 409 and 499 Illinois St.
65 Slide 65: Case Study: 409 and 499 Illinois St.
66 Slide 66: Case Study: Boston CSO Project
67 Slide 67: Case Study: Boston CSO Project
68 Slide 68: Case Study: Port Adelaide – Berth and Grain Wharf
69 Slide 69
70 Slide 70
71 Slide 71: Resources
72 Slide 72: Resources
73 Slide 73: Thank You
AECDAILY XY EN 143803 0623
$13.00