A mortise (occasionally mortice) and tenon joint connects two pieces of wood or of material. Woodworkers around the world have used it for thousands of years to join pieces of wood, mainly when the adjoining pieces connect at right angles.
Mortise and tenon joints are strong and stable joints that can be used in many projects. The mortise and tenon joint is considered to be one of the strongest joints next to the common dovetail joint. They furnish a strong outcome and connect by either gluing or locking into place. The mortise and tenon joint also gives an attractive lookout. One drawback to this joint is the difficulty in making it due to the precise and tight cutting required. In its most basic form, a mortise and tenon joint is both simple and strong. There are many variations of this type of joint, but the basic mortise and tenon has two components:
The tenon, formed on the end of a member generally referred to as a rail, fits into a square or rectangular hole cut into the other, corresponding member. The tenon is cut to fit the mortise hole exactly. It usually has shoulders that seat when the joint fully enters the mortise hole. The joint may be glued, pinned, or wedged to lock it in place.
This joint is also used with other materials. For example, it is traditionally used by both stonemasons and blacksmiths.
The noun mortise, "a hole or groove in which something is fitted to form a joint", comes from c. 1400 from Old French mortaise (13th c.), possibly from Arabic murtazz, "fastened", past participle of razza, "cut a mortise in".
The word tenon, a noun in English since the late 14th century, developed its sense of "a projection inserted to make a joint" from the Old French tenir "to hold".
This is an ancient joint dating back 7,000 years. The first examples, tusked joints, were found in a well near Leipzig – the world's oldest intact wooden architecture. It has also been found joining the wooden planks of the "Khufu ship", a 43.6 m long vessel sealed into a pit in the Giza pyramid complex of the Fourth Dynasty around 2500 BC. The oldest known use dates from the Early Neolithic Linear Pottery culture, where it was used in the construction of the wooden lining of water wells.
It has also been found in ancient furniture from archaeological sites in the Middle East, Europe and Asia. Many instances are found, for example, in ruins of houses in the Silk Road kingdom of Cadota, dating from the first to the fourth century BC. In traditional Chinese architecture, wood components, such as beams, brackets, roof frames and struts, were made to interlock with perfect fit, without using fasteners or glues, enabling the wood to expand and contract according to humidity. Archaeological evidence from Chinese sites shows that, by the end of the Neolithic, mortise-and-tenon joinery was employed in Chinese construction.
The thirty sarsen stones of Stonehenge were dressed and fashioned with mortise-and-tenon joints before they were erected between 2600 and 2400 BC.
A variation of the mortise and tenon technique, called Phoenician joints (from the Latin coagmenta punicanacode: lat promoted to code: la ) was extensively used in ancient shipbuilding to assemble hull planks and other watercraft components together. It is a locked (pegged) mortise and tenon technique that consists of cutting two mortises into the edges of two planks, a separate rectangular tenon is then inserted in the two mortises. The assembly is then locked in place by driving a dowel through one or more holes drilled through mortise side wall and tenon.
A mortise is a cavity cut into a timber to receive a tenon. There are several kinds of mortise:
A tenon is a projection on the end of a timber for insertion into a mortise. Usually, the tenon is taller than it is wide. There are several kinds of tenon:
Generally, the size of the mortise and tenon is related to the thickness of the timbers. It is good practice to proportion the tenon as one third the thickness of the rail, or as close to this as is practical. The haunch, the cut-away part of a sash corner joint that prevents the tenon coming loose, is one third the length of the tenon and one-sixth of the width of the tenon in its depth. The remaining two-thirds of the rail, the tenon shoulders, help to counteract lateral forces that might tweak the tenon from the mortise, contributing to its strength. These also serve to hide imperfections in the opening of the mortise.