How Masonry Buildings Resist Earthquakes New Windsor NY

Because masonry buildings usually have many structural wall elements, they tend to be stiff laterally. Because masonry buildings in New Windsor are stiff laterally, even moderate earthquakes can subject them to large shear loads at their base.

Local Companies

Coupart Construction Co., Inc.
(845) 562-5924
2 Lattintown Road
Newburgh, NY
Luis General Contracting
(845) 255-4960
202 Plutarch Road
Highland, NY
Seakill Custom Home Builders, Inc.
(845) 255-5988
46 North Chestnut Street
New Paltz, NY
Winter Sun Construction Inc.
(845) 256-1031
43 North Chestnut Street
New Paltz, NY
True Value of New Paltz
(845) 255-8481
4 Cherry Hill Road
New Paltz, NY
KEM Landscaping LLC
(845) 236-7878
PO Box 265
Clintondale, NY
Kniffen Builders
(845) 255-6363
27 S. Chestut St.
New Paltz, NY
M. J. Posner Construction Co., Inc.
(845) 255-7187
161 State Route 208
New Paltz, NY
Ultimate Homes, Inc.
(845) 255-9378
2356 Rt. 44/55
Gardiner, NY
New Paltz Agway
(845) 255-0050
145 State Route 32 North
New Paltz, NY

Provided By:

Source: Masonry Construction
Publication date: January 1, 1990

By Richard E. Klingner

How vulnerable are masonry buildings to earthquakes? How can they be designed to resist earthquakes?

HOW MASONRY BUILDINGS RESPOND

Because masonry buildings usually have many structural wall elements, they tend to be stiff laterally. Because masonry buildings are stiff laterally, even moderate earthquakes can subject them to large shear loads at their base.

For a typical masonry building, these shear loads can be calculated in the following way: Base shear load= (building mass) x (earthquake ground acceleration) x (dynamic amplification factor).

MASONRY SEISMIC DESIGN

Though even moderate ground accelerations can subject masonry buildings to large shear loads, masonry buildings can still be designed to resist these loads. In general, the designer must estimate the lateral inertial forces acting on each element and provide for the transfer of these forces down to the foundation.

INELASTIC RESPONSE OF MASONRY BUILDINGS

A masonry building's earthquake resistance has been described here as a function of wall layout, wall area, and wall strength. These characteristics are often sufficient. Enough wall area can often be provided so that even during a strong earthquake the building's walls remain basically elastic, without any yielding of reinforcement. However, architectural constraints may limit the wall area that can be provided.

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