The strength and stability of any structure depends heavily on the fastenings that hold its parts together. One prime advantage of wood as a structural material is the ease with which wood structural parts can be joined together with a wide variety of fastenings—nails, spikes, screws, bolts, lag screws, drift pins, staples, and metal connectors of various types. For utmost rigidity, strength, and service, each type of fastening requires joint designs adapted to the strength properties of wood along and across the grain and to dimensional changes that may occur with changes in moisture content. This two-hour continuing education course for architects and engineers discusses these topics in detail.
Learning Objectives
After completing this course you will have a better understanding of commonly used fastening devices for securing structural wood members together, including:
· Nails, spikes and staples;
· Wood screws and lag screws;
· Bolts and drift bolts;
· Connector joints;
· Multiple-fastener joints;
· Metal plate connectors, and;
· Fastener head embedment.
These topics include discussions of withdrawal resistance, lateral resistance, bearing stress and loads, effects of member thickness, spacing, edge and end distances, and effects of bolt holes, among other issues.
Qualifies for two credit hours of Health, Safety and Welfare (2 PDH; 0.2 CEU).
Preview this course!
Acceptable continuing education for:
(AL) ALABAMA:Architect, (AL) ALABAMA:Engineer, (AK) ALASKA:Architect, (AK) ALASKA:Engineer, (AK) ALASKA:Landscape Architect, (AR) ARKANSAS:Engineer, (CO) COLORADO:Architect, (GA) GEORGIA:Architect, (GA) GEORGIA:Engineer, (ID) IDAHO:Engineer, (IL) ILLINOIS:Architect, (IN) INDIANA:Architect, (IN) INDIANA:Landscape Architect, (IA) IOWA:Architect, (IA) IOWA:Engineer, (KS) KANSAS:Architect, (KS) KANSAS:Engineer, (KS) KANSAS:Landscape Architect, (KY) KENTUCKY:Architect, (KY) KENTUCKY:Engineer, (LA) LOUISIANA:Architect, (LA) LOUISIANA; Engineer, (ME) MAINE:Engineer, (MN) MINNESOTA:Architect, (MN) MINNESOTA:Engineer, (MN) MINNESOTA:Landscape Architect, (MS) MISSISSIPPI:Architect, (MS) MISSISSIPPI:Engineer, (MS) MISSISSIPPI:Landscape Architect, (MO) MISSOURI:Architect, (MO) MISSOURI:Engineer, (MO) MISSOURI:Landscape Architect, (MT) MONTANA:Engineer, (NE) NEBRASKA:Architect, (NE) NEBRASKA:Engineer, (NE) NEBRASKA:Landscape Architect, (NV) NEVADA:Architect, (NV) NEVADA:Engineer, (NH) NEW HAMPSHIRE:Engineer, (NH) NEW HAMPSHIRE:Landscape Architect, (NM) NEW MEXICO:Architect, (NM) NEW MEXICO:Engineer, (NC) NORTH CAROLINA:Architect, (ND) NORTH DAKOTA:Engineer, (OH) OHIO:Architect, (OH) OHIO:Engineer, (OK) OKLAHOMA:Architect, (OK) OKLAHOMA:Engineer, (OR) OREGON:Architect, (OR) OREGON:Engineer, (PA) PENNSYLVANIA Engineer, (RI) RHODE ISLAND:Architect, (SC) SOUTH CAROLINA:Architect, (SC) SOUTH CAROLINA:Engineer, (SD) SOUTH DAKOTA:Engineer, (SD) SOUTH DAKOTA:Landscape Architect, (SD) SOUTH DAKOTA:Architect, (TN) TENNESSEE :Architect, (TN) TENNESSEE :Engineer, (TN) TENNESSEE :Landscape Architect, (TX) TEXAS:Architect, (TX) TEXAS:Engineer, (TX) TEXAS:Interior Designer, (TX) TEXAS:Landscape Architect, (UT) UTAH:Architect, (UT) UTAH:Engineer, (VT) VERMONT:Architect, (WV) WEST VIRGINIA:Architect, (WV) WEST VIRGINIA:Engineer, (WY) WYOMING:Engineer