Video overview
A reinforced CMU gravity wall carries vertical loads while resisting out-of-plane forces from wind or seismic pressure. This calculator checks moment, axial, and shear capacity using factored load combinations per TMS 402/602-22 LRFD provisions. It supports partially and fully grouted single-wythe walls and plots a moment-axial interaction diagram for each design.
This calculator follows TMS 402/602-22 Chapter 9 (LRFD) and MDG 2022 Chapter 12.4.4 for interaction tables.
Choosing the right calculator
Calcs.com has three TMS 402/602-22 masonry wall calculators. They are not interchangeable.Gravity Wall (LRFD)
This page. Out-of-plane loading on a load-bearing wall span, checked per linear foot using LRFD.
Gravity Wall (ASD)
Same out-of-plane problem using allowable stress design (TMS Chapter 8).
Shear Wall (LRFD)
In-plane lateral force-resisting walls with multi-story geometry and optional openings.
When to use this calculator
Use this calculator when you have a load-bearing CMU wall that must resist out-of-plane lateral loading in addition to gravity. It covers single-wythe running-bond walls with a continuous bottom support, checked per linear foot of wall length. If your project uses ASD rather than LRFD for masonry walls, use Masonry Gravity Wall (ASD) for the same out-of-plane problem.Assumptions and limitations
- Wall is load-bearing, single-wythe, and CMU is in running bond.
- Wall is partially or fully grouted with one row of reinforcement centered in the block width.
- Bottom support is continuous (not spanning between point supports).
- Calculations are per linear foot of wall length. Walls shorter than 1 ft are not supported.
- Deflection criteria are not evaluated. TMS 402-22 Chapter 9 does not include deflection provisions for LRFD masonry wall design.
- Fully grouted walls do not apply the slenderness limit, consistent with examples in MDG 2022.
- Stability checks for wall foundations are not conducted.
Full assumptions and limitations are listed in the Sheet Details tab within the calculator.
How to read the sheet: enter inputs first, review calculations in Detailed view, then read pass/fail in the Summary on the right.
Inputs
Work through the input sections in order. Geometry, reinforcement, and loads drive all downstream checks.Masonry Properties
These inputs feed wall geometry, material strength, and support conditions in Key Properties, self-weight, slenderness, and the interaction diagram.
- Concrete Masonry Unit Size: nominal block width (6”, 8”, 10”, or 12”). Section properties follow CMU-TEC-002-23.
- Height of Wall: clear span between supports. Sloped walls are not supported.
- Specified Compressive Strength: design compressive strength of the masonry assembly, typically 1500 to 2500 psi.
- Density of Concrete Masonry Block and Grout Density: feed the Self-Weight output in Key Properties.
- Fully or Partially Grouted?: switches between partially and fully grouted section properties, interaction tables, and whether the slenderness limit appears in Summary.
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Position of Supports & Braces from Bottom: support types and heights from the bottom of the wall. Used by the beam analysis model in Load Combination Analysis.

Reinforcement Properties
Reinforcement is assumed in a single centered row.
- Reinforcement Grade, Bar Size, and Bar Spacing (c/c): feed steel area and moment capacity in Out of Plane Bending + Axial Interaction Table. Default spacing is six times the nominal block width. The calculator may flag spacings that do not align with the block module.
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Consider Compression Reinforcement?: toggles whether tied compression steel is included in Design Axial Capacity (Slenderness Limit) per TMS 402/602-22 Section 5.4.1.4.

Loads
Enter unfactored (nominal) loads. The calculator applies LRFD load factors automatically.
- Default Load Eccentricity: default axial eccentricity for bending, taken as one sixth of the block depth. Override per load in the Axial, Shear, & Moment Loads table.
- Axial, Shear, & Moment Loads: line loads per foot of wall. Enter unfactored (nominal) loads; the calculator applies LRFD load factors in Load Combination Analysis. Each row can set its own eccentricity and load types (D, L, W, E, and others).
- Lateral Distributed Loads: area loads converted to line loads using tributary width. Default wind entries populate from project defaults when available. Specify different tributary widths at the start and end of a load to enter triangular distributions.

Calculations
After inputs are set, the calculator builds section properties, applies LRFD load combinations, and checks shear and moment-axial interaction. Open Detailed view to see intermediate steps and TMS 402/602-22 clause references for each section below.Design Conditions
Design Conditions pulls the load combination code from project defaults (IBC 2024 / TMS 402/602-22) and confirms the design standard edition in use.Key Properties
Key Properties computes derived section values used in the checks below: net area, moment of inertia, section modulus, radius of gyration, steel area, and Slenderness Ratio. Summary rows Factored Axial Load Demand and Design Axial Capacity (Slenderness Limit) compare compression demand to slenderness-reduced capacity. The slenderness limit applies when Fully or Partially Grouted? is set to partially grouted. Fully grouted walls skip this check per the template assumptions.Load Combination Analysis
Load Combination Analysis expands all LRFD strength combinations and reports factored demands for moment, axial, and shear at the governing location. The finite-element beam model in the background uses Position of Supports & Braces from Bottom to build the analysis case.Out-of-Plane Shear (TMS 402/602-22, Section 9.3.3.1.2)
Out-of-plane shear is checked in Out of Plane Shear. Nominal Masonry Shear Strength includes a 0.25 × Pu term using the minimum factored axial load across combinations. Summary rows Factored Out-of-Plane Shear Demand and Design Shear Capacity report the governing result. Bar Spacing (c/c) does not feed the shear strength calculation.Moment-Axial Interaction (TMS 402-22, Section 9)
Combined axial and bending capacity is evaluated through Out of Plane Bending + Axial Interaction Table. The calculator builds separate tables for partially grouted and fully grouted walls per MDG 2022 Chapter 12.4.4. Strength reduction factors vary with strain compatibility:- Strength Reduction Factor (Compression) (φc) applies to compression-controlled behavior.
- Strength Reduction Factor (Flexure) (φf) applies when steel strain reaches 0.005 or greater.
- For combined loading, φ varies linearly between φc and φf based on the neutral axis depth.
All detailed calculation sections
All detailed calculation sections
- Key Properties
- Load Combination Analysis
- Out of Plane Shear (TMS 402/602-22, Section 9.3.3.1.2.)
- Out of Plane Bending + Axial Interaction Table (TMS 402-22, Section 9. and MDG 2022 Ch.12.4.4)
Results
The Summary panel on the right collects governing pass/fail outcomes. The Out of Plane Bending + Axial Interaction Diagram at the top of the sheet plots the moment-axial capacity envelope alongside each load combination.
Out-of-plane moment
Factored Out-of-Plane Moment Demand vs Maximum Design Moment Capacity
Axial compression
Factored Axial Load Demand vs Design Axial Capacity (Slenderness Limit)
Out-of-plane shear
Factored Out-of-Plane Shear Demand vs Design Shear Capacity
Interaction
Interaction Governing Utilization and Governing Load Combination
Switch to Detailed using the toggle at the top of the calculator to see every intermediate step and the relevant TMS 402-22 clause for each check.
Reading the interaction diagram
The Out of Plane Bending + Axial Interaction Diagram plots the moment-axial capacity envelope for your wall section. Each LRFD load combination appears as a point. Points inside the envelope correspond to passing combinations in Interaction Utilization Check.
Troubleshooting
Inputs flagged in red
Inputs flagged in red
Check the validation message next to the field. Common causes include bar spacings that are not practical multiples of the block module and compressive strength values outside the supported range.
Interaction check fails in Summary
Interaction check fails in Summary
Open Out of Plane Bending + Axial Interaction Table in Detailed view to see utilization per load combination. Check whether Eccentricity on individual load rows or Fully or Partially Grouted? is driving the result. Summary row Governing Load Combination identifies which combination controls.
One check is governing in Summary
One check is governing in Summary
Open that check in Detailed view to see which inputs feed the calculation. Summary rows link to the governing section. Use the input list above to find the corresponding fields in the sheet.
Related calculators
Gravity Wall (ASD)
Same out-of-plane problem using ASD (TMS Chapter 8).
Shear Wall (LRFD)
In-plane lateral force-resisting masonry walls with openings.
CMU Retaining Wall Example
Worked example for reinforced masonry wall design context.