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TMS 402/602-22United States

Masonry Gravity Wall (LRFD)

US structural engineers and engineering designers designing reinforced CMU gravity walls subject to wind and out-of-plane seismic loads to TMS 402/602-22. Checks out-of-plane shear (Section 9.3.3.1.2) and combined factored axial-bending interaction across ASCE 7 load combinations. Load reactions link to footing calculations so structural changes propagate downstream.

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What it calculates

Design partially- or fully-grouted reinforced CMU gravity walls to TMS 402/602-22 Strength Design. Out-of-plane shear and combined factored axial-bending interaction checks with a visual interaction diagram. Load reactions link to footing calculations.

Code standards

  • TMS 402/602-22

Who uses this calculator

US structural engineers and engineering designers designing reinforced CMU gravity walls subject to wind and out-of-plane seismic loads to TMS 402/602-22. Checks out-of-plane shear (Section 9.3.3.1.2) and combined factored axial-bending interaction across ASCE 7 load combinations. Load reactions link to footing calculations so structural changes propagate downstream.

Automate LRFD load combinations and moment-axial interaction checks for partially and fully grouted walls, with out-of-plane shear and bending per TMS 402/602-22.

How it calculates

Masonry and reinforcement properties

Material inputs define the design basis: CMU block size (6" to 12"), masonry type (clay or concrete), specified compressive strength f'm, unit weight, and mortar type. Grout condition - partial or full - determines the effective cross-section for capacity calculations. Partial grouting uses net area and net moment of inertia at the reinforced cell spacing; full grouting uses the gross section. Reinforcement is a single centered layer with user-specified grade and spacing.

Load combination analysis

Factored axial gravity loads (1.2D, 1.2D + 1.6L, etc.) and out-of-plane lateral demands from wind or seismic are assembled into the governing ASCE 7 strength-level combinations. The calculator applies factored loads per unit width of wall and identifies the combination that produces the maximum demand for each check. Dynamic load linking allows axial demands to propagate from connected beam or column calculations.

Out-of-plane shear (TMS 402/602-22, Section 9.3.3.1.2)

Factored shear demand Vu from out-of-plane lateral loads is checked against the design shear strength:

phi * Vn ≥ Vu, with phi = 0.80

Nominal shear strength Vn is computed from masonry shear resistance based on f'm, net area, and axial load. Horizontal reinforcement contributes to Vs when provided. In-plane shear is not checked - this calculator covers gravity walls only.

Out-of-plane bending and axial interaction (TMS 402-22, Section 9, MDG 2022 Ch.12.4.4)

A phi-Pn vs. phi-Mn interaction diagram is generated using a rectangular equivalent stress block (depth a = 0.80c) with neutral axis from strain compatibility. The factored demand point (Pu, Mu) must lie within the design capacity envelope:

utilization = Mu / phi-Mn (at Pu) ≤ 1.0

The interaction diagram is plotted for the full range of axial loads, and demand points from all governing load combinations are shown against the envelope. Deflection checks are not included - Chapter 9 of TMS 402-22 does not contain deflection limits for LRFD masonry walls. The fully grouted wall model does not apply the slenderness limit per MDG 2022 examples.

Related calculators

Masonry Shear Wall (LRFD)Masonry Gravity Wall (ASD, TMS 402/602-22)Masonry Gravity Wall (ASD, TMS 402/602-16)

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Frequently asked questions

What design method and code standard does this calculator use?
Strength Design (LRFD) per TMS 402/602-22 Chapter 9. Factored loads from ASCE 7 load combinations are checked against design strengths (phi times nominal capacity) for out-of-plane shear and combined axial-bending.
What are the key inputs?
CMU block size, masonry type (clay or concrete), specified compressive strength (f'm), unit weight, grout condition (partial or full), bar size and spacing, wall height, boundary conditions, factored axial gravity loads, and out-of-plane wind or seismic distributed loads.
What does it check or output?
Out-of-plane shear (TMS 402/602-22, Section 9.3.3.1.2) and combined factored axial-bending interaction per TMS 402-22 Section 9 and MDG 2022 Ch.12.4.4. Results include an interaction diagram plotting factored demand points against the design capacity envelope.
Can it handle both partially and fully grouted walls?
Yes - partial and full grouting are both supported. Net section properties are computed from the actual grouted cross-section for each configuration. The fully grouted wall model does not apply the slenderness limit per MDG 2022 examples.
How is LRFD (Strength Design) different from ASD for masonry walls?
LRFD uses factored loads (1.2D + 1.6L, 1.2D + 1.0W + L, etc.) compared against design strengths (phi times Pn or Mn). ASD uses unfactored loads against allowable stresses. For masonry, LRFD checks are in TMS 402-22 Chapter 9 and ASD checks are in Chapter 8.
Does this calculator support load linking with footing calculations?
Yes - factored axial reactions at the wall base can be linked directly to footing calculations in the same project. When gravity loads change in a connected beam or column, the wall's axial demand and the footing below both update automatically.

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