RAM Elements Masonry Wall [FAQ]

Which surface of the shell is the "Front"?

Whichever way the shell local 2 axis points, that's the "front" of the wall, i.e. the elevation you "see" when you pull the shell into any integrated wall module. The 2 axis can be flipped using the "Flip shell orientation" tool under Shells - Local axes, but this also affects the 3 axis direction, opening placement and sign convention for shell pressures.

OntheFEMtabofthestand-alonemasonrywallmoduletheFrontisdenotedastheTopsurface,whilethebackistheBottomsurface.

How does partial grouting affect the Masonry Wall design?

Partial grouting versus full grouting affects:

• The self weight of the wall.
• Effective concrete area considered in checking the major axis shear for shear wall design (lateral in-plane loads). The center area of the blocks are ignored when partial grouting is used.

Partial grouting does not affect out-of-plane deformation shown on the FEM screen or the Diagram screen. These are based on the solid, prismatic, uncracked properties of the wall.

Why doesn't the module optimize a wall with any horizontal reinforcement?

• Make sure that you have “Shear walls” selected under Elements to Design.
• Make sure you have the desired joint reinforcement type selected too.

But, the program will only optimize a wall with horizontal reinforcement when it’s needed (otherwise it will be treated as an unreinforced wall). If the shear forces are too small to require horizontal reinforcement then you can only add it in manually.

Why does stacked bond produce the same capacity as running bond?

Currently, stacked bond should only be used for unreinforced walls.

How are masonry lintels designed?

Currently, the wall above an opening can be designed as a lintel beam if the Home – Design data – "Elements to design" includes the Lintels option.

The user can specify the design depth for the lintel, it need not be the full depth of the wall above the opening. The user can also limit the range of bar sizes used.

The lintel and the wall are all part of the same finite element mesh, visible on the FEM tab in the stand-alone version of the module. From the FEM screen it is clear that the elements are all connected and inseparable, analogous to a continuous bond beam or fully doweled lintel. To determine the demand, the program slices vertical section cuts through the lintel at 10 points along the length and integrates the shell internal forces to determine an envelope of bending moment demand. The critical demand is then reported under Results: Bending as “M” in the Lintel Design portion of the report. The critical force along the cuts is reported as V.

The program tries to optimize longitudinal and shear reinforcing, placing top reinforcement when negative bending requires it and bottom bars just above the opening for positive bending. The program will extend or develop these bars as required. For user defined reinforcement, warnings will be given when the flexural strength of development is insufficient.

Design of a pinned-ended type lintel or one with control joints is not possible at this time.

WhatsectionsofACI530-08arechecked? 

HereisatableoftheprovisionscheckedforStrengthdesign,LRFD.

See Also

RAM Instability In Finite Element Analysis

Product TechNotes and FAQs

Structural Product TechNotes And FAQs

External Links

Bentley Technical Support KnowledgeBase

Bentley LEARN Server

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