Converting between Allowable Stress Design and Load & Resistance Factor Design
Converting between Allowable Stress Design (ASD) and Load and Resistance Factor Design (LRFD) is frequently necessary when working with mixed design methods, evaluating existing structures, or converting component ratings for use in structural analysis.
The key concept: Both methods calculate the same wind pressures using identical ASCE 7 equations. The difference is in how those pressures are applied in load combinations and member design.
ASD and LRFD use identical ASCE 7 equations for wind pressure. The same p (psf) value is calculated - only its application differs.
ASD uses 0.6W in load combinations, LRFD uses 1.0W. The ratio is approximately 1.6 for conversion purposes.
ASD uses allowable stresses (Fy/FS), LRFD uses φRn. Different safety philosophy achieves similar reliability.
Architectural components (windows, doors) typically rated in ASD (DP values). Converting to LRFD requires understanding load factor relationships.
| Conversion Direction | Formula | Example |
|---|---|---|
| ASD → LRFD | WLRFD ≈ 1.6 × WASD | WASD = 25 psf → WLRFD ≈ 40 psf |
| LRFD → ASD | WASD ≈ WLRFD / 1.6 | WLRFD = 40 psf → WASD = 25 psf |
| Component DP Rating → LRFD | Required DP ≈ WLRFD / 1.6 | WLRFD = 64 psf → Need DP-40 rating |
The 1.6 factor comes from the ratio of LRFD to ASD load factors:
Problem: You have a window rated DP-50 (ASD rating). Can it be used in an LRFD design where the calculated wind pressure is 75 psf?
Given:
Component DP rating = 50 psf (ASD nominal)
LRFD calculated pressure = 75 psf (strength level)
Step 1: Convert LRFD pressure to ASD equivalent
ASD equivalent = 75 psf / 1.6 = 46.9 psf
Step 2: Compare to component rating
Component DP-50 > 46.9 psf required
Answer: ✓ YES - DP-50 window is adequate
(50 psf > 46.9 psf, with 6% margin)
Problem: Structural analysis provided LRFD factored loads. You want to check beam using ASD method.
Given:
LRFD factored wind load = 1,200 lb/ft (from 1.2D + 1.0W)
Dead load D = 400 lb/ft
Step 1: Back-calculate unfactored wind load
1,200 = 1.2(400) + 1.0(W)
1,200 = 480 + W
W = 720 lb/ft
Step 2: Apply ASD load combination
wASD = D + 0.6W
wASD = 400 + 0.6(720)
wASD = 832 lb/ft
Use 832 lb/ft for ASD beam design
Problem: Evaluate existing building designed using ASD with new LRFD analysis.
Given:
Existing design: ASD with p = 30 psf wind pressure
Original: D + 0.6W combination
Step 1: The wind pressure remains the same
p = 30 psf (this doesn't change)
Step 2: Apply LRFD load combinations
Check: 1.2D + 1.0W (with p = 30 psf)
Check: 0.9D + 1.0W (uplift, with p = 30 psf)
Step 3: Verify with LRFD resistance
Use φRn instead of allowable stresses
Note: Members designed for ASD may have different
capacity ratios under LRFD due to φ factors
| Design Aspect | ASD Approach | LRFD Approach | Conversion |
|---|---|---|---|
| Wind Pressure Calc | p = qh[(GCp)-(GCpi)] | p = qh[(GCp)-(GCpi)] | SAME - no conversion needed |
| Load Combination | D + 0.6W | 1.2D + 1.0W | Load factor ratio ≈ 1.6 |
| Uplift Combination | 0.6D + 0.6W | 0.9D + 1.0W | Depends on D/W ratio |
| Steel Flexure | fb ≤ Fb = 0.6Fy | Mu ≤ φMn (φ=0.90) | Different equations |
| Component Rating | DP-40 = 40 psf nominal | Convert: 40 × 1.6 ≈ 64 psf | Multiply by 1.6 |
| Terminology | "Nominal" wind loads | "Ultimate" wind loads | Same pressure, different name |
Architectural components (windows, doors, curtain walls) are typically rated in ASD (DP values). Must convert when using with LRFD structural analysis.
When main structure uses LRFD but components or connections designed using ASD, conversion ensures compatibility.
Evaluating or modifying existing ASD-designed structures using modern LRFD analysis software requires proper conversion.
Jurisdictions may require specific design method. Conversion allows using available design resources regardless of method.
WRONG: Multiplying wind pressure (psf) by 1.6 to convert ASD to LRFD
RIGHT: Wind pressure stays THE SAME. Only load factors and resistance factors change.
WRONG: Using DP-40 component with 64 psf LRFD pressure directly
RIGHT: Convert LRFD pressure to ASD equivalent (64/1.6 = 40 psf), then compare to DP rating
WRONG: Assuming 1.6 factor applies to all situations equally
RIGHT: Recognize 1.6 is approximate - exact conversion depends on dead-to-wind load ratio
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