Straight lengths use 45 mm laminates and curved ones usually use 33 mm. Glulam is one of the strongest construction materials in relation to its weight.
Glulam can be used for a wide range of purposes from joinery timber to large span structures.
Building with glulam. Its capacity to reduce carbon emissions throughout production and remarkably provide storage for carbon dioxide once buildings are completed and in use. Glulam is an engineered stress rated product created by bonding together individual pieces of lumber having a nominal thickness of 2 inches or less. Glulam is a structural engineered wood product used for headers beams girders purlins columns and heavy trusses.
Designed for heavier loads longer spans and formal flexibility glued laminated timber or glulam possesses a structural strength that is comparable to steel. Glulam is commonly used in post and beam heavy timber and mass timber structures as well as wood bridges. Glulam is available in a range of appearance grades and a large number of stock dimensions.
Glulam has high structural capacity and is also an attractive architectural building material. The weight of glulam structures compared to the weight of solid timber constructions is highly beneficial against this background. Glued laminated timber popularly known as glulam is a manufactured timber product.
Glulam can generally be used for the interior and the exterior. Individual pieces of lumber are end joined together to create long lengths referred to as laminations. Exploring the potential of this versatile material we ve rounded up the following collection of modern glulam projects from the architizer database.
Designed as bridges sports halls and museums the projects champion timber construction through free form shapes repetition and layering. When using it outdoors glulam should be protected under a roof like other load bearing timber. These laminations are then face bonded together to create the finished product.
This means that glulam beams can freely span large distances. Architects structural engineers and users have great freedom to create their own shapes using glulam whether for the structure of a house a roof for a public building or a wooden bridge. Considering the environmental impacts of glulam as a building material typically follows two essential avenues.
As the uk timber frame house market grows glulam is acquiring a reputation as one of the most adaptable resilient and sustainable building materials available. It is made by bonding together individual laminates layers of solid timber boards with durable moisture resistant structural adhesives. Whether you want pure strength for non visual features such as rimboards or hidden beams or visual grades for exposed timber sections our glulam materials give you a range of options.
A crucial factor to be taken into consideration when dimensioning a building s load bearing system is the horizontal forces unleashed by an earthquake that set entire buildings in motion.