Anti-corrosion wood floor outdoor terrace grape trellis wood structure-0006
#Name:Anti-corrosion wood floor outdoor terrace grape trellis wood structure-0006
#Brand:Yamazonhome
#Model number:Yamajiang-0006
#Material:Larch
#Size: Customized
#Style:Modern simple
#Origin:Weifang,China
#Applicable occasions:Blockhouse,Wooden plywood
Product Description
Laminated glulam is a new engineering wood material produced in response to changes in forest resource structure and the development of modern building structures. This product not only retains some of the excellent characteristics of natural solid wood sawn timber, but also overcomes the uneven material and size of natural wood. Limitation, drying and difficulty in anti-corrosion treatment.
The glulam structure is a modern wood structure system in which the main structural component materials are glulam. In recent years, many glulam structures have appeared and unique shape.
Due to the small elastic modulus of the wood itself and the poor initial flexural rigidity of the wood beam-column joints, the pure glulam frame structure system often has insufficient lateral resistance, so the wood frame support structure and the wood frame shear wall structure are mostly used.
The boards or small squares with parallel wood grains are firstly terminated or edged in the length or width direction to form laminates, and then laminated and glued wood materials in the thickness direction. However, structural plywood has higher quality requirements than general decoration plywood, and must have specific quality standards.
The strength and durability of glulam structures depend to a large extent on the quality of the glue. To be designed according to special regulations. Therefore, in the design and manufacture, special technical requirements should be put forward for the selection of glue, the splicing structure of wood and the conditions of gluing process.
Due to its high load capacity and low weight, glulam allows you to cover large areas of components. It can cover structural sections up to 100 meters long without intermediate supports. In a fire, structures made of glue-laminated wood are safer than unprotected steel structures.
- The glulam structure is divided into two types: the plywood structure and the orthogonal glulam structure. Laminated glulam structures are mainly suitable for single- or multi-storey wooden structures with large spans and large spaces. Orthogonal glulam structures are mainly suitable for floor and roof structures, or single- or multi-layer box-type wood structure buildings composed of orthogonal glulam.
- The fiber direction of each ply of the plywood component should be consistent with the length of the component. The number of laminate layers in the section of the laminated glulam component shall not be less than 4 layers.
- The directions of the fibers between the layers of the orthogonal glulam components should be stacked and orthogonal to each other. The number of layers of the cross-section should not be less than 3 layers, and it is not suitable for more than 9 layers, and the total thickness should not be greater than 500mm.
- When designing the laminated glulam components and orthogonal glulam components, the requirements for structural glue should be indicated according to the use environment, and the component manufacturers should strictly follow the design requirements for production.
- The design and construction requirements of the laminate-laminated timber structure should comply with the relevant requirements of the current national standard "Technical Specifications for Glued-Laminated Timber Structures" GB/T50708.
- The production requirements of the laminated wood structure should comply with the relevant provisions of the current national standard "Technical Specification for Glued Wood Structure" GB/T50708 and "Glulam for Structural Use" GB/T26899.
- The thickness t of the laminate is: 15mm≤t≤45mm; the size of the boards used for making cross-laminated wood should meet the following requirements: the width b of the laminate is: 80mm≤b≤250mm.
- Orthogonal glulam should be composed of boards of the same length and thickness of the same layer. The board can be lengthened with finger joints, and the strength of the finger joints should meet one of the following requirements: f t,j,k≥5+f tk m,j,k≥8+ f tk where; f t,j,k --Standard value of tensile strength of finger joints (N/mm2); f m,j,k--standard value of flexural strength in width direction of finger joints (N/mm2); f tk--standard of tensile strength of template value (N/mm2).
- Orthogonal glulam components can be used for floor panels, roof panels and wall panels, and the design of the components shall comply with the relevant provisions of Appendix G of this code.
- The length direction of the outer layer of orthogonal glulam should be arranged along the grain, and two layers of wood can be arranged along the grain as the outer layer. When required by the design, the cross-grain laminate can also be used in a two-ply plank configuration.
- Orthogonal glulam components can be connected by finger joints, and should meet the following requirements: when the components are finger-joined, the laminates of the cross-sections at both ends of the components at the finger joints should be arranged in the same way, and the grain direction of the components should be consistent accordingly; The finger joint length of the finger joint should not be less than 45mm.
- When the cross-laminated wood components are connected by finger joints, the strength of the finger joint joints shall be determined according to the following regulations: when the strength verification experiment at the finger joint joints of the components is carried out according to the relevant national experimental standards, the strength of the joints shall be determined. The standard value of flexural strength shall not be lower than the standard value of flexural strength of finger-jointed members required by the design; when the strength verification experiment at the finger-jointed joints of the members is not carried out, the design values of the flexural strength and tensile strength of the finger-jointed joints of the members shall be It can be taken as 67% of the value of the fingerless member, and the design value of the compressive strength is the same as that of the fingerless member.
- When the cross-laminated wood is glued, the surface of the board is smooth, free of dust, impurities, pollutants and other exuding substances that affect the bonding. After gluing, the laminate should be glued under pressure within the time specified by the adhesive used, and the glued surface should not be contaminated before gluing.
- The splicing surface between the outer parallel grain boards of the same layer with orthogonal glue is suitable for gluing with adhesive. Splicing can be adopted for the splicing surface between the inner side grain wood board of the same layer and the horizontal grain wood board of the same layer. However, the splicing gap should not be greater than 6mm.
- The adhesive used in cross-laminated wood should meet the requirements of strength and durability, and the type and performance requirements of the adhesive should comply with the relevant provisions of the current national standard "Technical Specifications for Glued Wood Structures" GB/T26899.
Company Profile
){kind=link}