CXL265
Overview
Product Information
- Wall Construction
- Cavity Wall
- Outer Leaf
- 100-102
- Cavity
- 70-85
- Inner Leaf
- 100-115
- Wall Width
- Loading Conditions
- Extreme Load
Specification
Product Code | Standard Length (mm) | SWL (kN) 5:1/19:1 | Weight (kg) | Nominal Height (mm) | |
---|---|---|---|---|---|
CXL265/2100 | 2100 | 88 | 89.00 | 212 | |
CXL265/2200 | 2200 | 88 | 93.30 | 212 | |
CXL265/2250 | 2250 | 88 | 95.00 | 212 | |
CXL265/2300 | 2300 | 88 | 97.50 | 212 | |
CXL265/2400 | 2400 | 88 | 102.00 | 212 | |
CXL265/2500 | 2500 | 88 | 105.95 | 212 | |
CXL265/2550 | 2550 | 88 | 108.00 | 212 | |
CXL265/2650 | 2650 | 88 | 111.89 | 212 | |
CXL265/2700 | 2700 | 88 | 114.00 | 212 | |
CXL265/2750 | 2750 | 88 | 116.75 | 212 | |
CXL265/2800 | 2800 | 88 | 118.87 | 212 | |
CXL265/2850 | 2850 | 88 | 121.00 | 212 | |
CXL265/2900 | 2900 | 88 | 122.92 | 212 | |
CXL265/3000 | 3000 | 88 | 127.00 | 212 | |
CXL265/3050 | 3050 | 83 | 129.40 | 212 | |
CXL265/3100 | 3100 | 83 | 131.49 | 212 | |
CXL265/3200 | 3200 | 83 | 135.61 | 212 | |
CXL265/3250 | 3250 | 83 | 137.87 | 212 | |
CXL265/3300 | 3300 | 83 | 140.00 | 212 | |
CXL265/3350 | 3350 | 83 | 142.11 | 212 | |
CXL265/3400 | 3400 | 83 | 144.22 | 212 | |
CXL265/3450 | 3450 | 83 | 146.33 | 212 | |
CXL265/3500 | 3500 | 83 | 148.47 | 212 | |
CXL265/3600 | 3600 | 83 | 152.00 | 212 | |
CXL265/3700 | 3700 | 83 | 156.94 | 212 | |
CXL265/3800 | 3800 | 83 | 161.18 | 212 | |
CXL265/3900 | 3900 | 83 | 165.00 | 212 | |
CXL265/4000 | 4000 | 83 | 169.20 | 212 | |
CXL265/4050 | 4050 | 83 | 171.35 | 212 | |
CXL265/4200 | 4200 | 83 | 178.00 | 212 | |
CXL265/4250 | 4250 | 83 | 180.27 | 212 | |
CXL265/4300 | 4300 | 83 | 182.24 | 212 | |
CXL265/4400 | 4400 | 83 | 186.65 | 212 | |
CXL265/4500 | 4500 | 83 | 190.71 | 212 | |
CXL265/4575 | 4575 | 83 | 194.00 | 212 | |
CXL265/4800 | 4800 | 83 | 203.00 | 212 | |
CXL265/4850 | 4850 | 78 | 205.00 | 212 | |
CXL265/5000 | 5000 | 78 | 211.76 | 212 | |
CXL265/5100 | 5100 | 78 | 216.00 | 212 | |
CXL265/5150 | 5150 | 71 | 218.12 | 212 | |
CXL265/5200 | 5200 | 71 | 220.50 | 212 | |
CXL265/5250 | 5250 | 71 | 222.62 | 212 | |
CXL265/5400 | 5400 | 71 | 228.00 | 212 | |
CXL265/5600 | 5600 | 64 | 237.50 | 212 | |
CXL265/5700 | 5700 | 64 | 241.00 | 212 | |
CXL265/5900 | 5900 | 56 | 250.28 | 212 | |
CXL265/6000 | 6000 | 56 | 254.00 | 212 | |
CXL265/6100 | 6100 | 52 | 258.74 | 212 | |
CXL265/6200 | 6200 | 52 | 262.09 | 212 | |
CXL265/6300 | 6300 | 52 | 266.00 | 212 | |
CXL265/6400 | 6400 | 47 | 271.28 | 212 | |
CXL265/6600 | 6600 | 47 | 279.00 | 212 |
- the SWL (safe working load) is based on the total UDL (uniform distributed load) over maximum span using 200mm end bearings.
- Standard lengths are available in increments of 50mm at lengths up to 6600mm.
Features
Extreme duty steel lintel for use in masonry cavity wall construction, designed to support extreme loads or to be used at long spans in external cavity walls. Non insulated with option for expanded metal mesh secured to the base plate, manufactured from structural steel then post galvanised
- Hot Dip Galvanised
- Made in the UK for a lower carbon footprint and certified to BES 6001 Responsible Sourcing standard.
- Made using lower carbon manufacturing
- It is possible to reuse all of our lintels, providing that they are not damaged. Contact our technical team for more information
What our customers think
Video Guides
When selecting a lintel, there are three factors that should be considered to ensure the correct specification: the type of wall construction, the dimensions of the structural opening and the total load on the lintel. In this video, we run you through the lintel selection process.
Once you have chosen the correct lintel for your project, it is crucial that the lintel be installed properly – if it is not, it could lead to serious issues for the building. In this video, we explain the installation considerations for cavity wall lintels.
Catnic’s Thermally Broken Lintel is the only lintel on the market to provide a complete thermal break between the inner and outer leafs. In this video, we outline the key benefits of Thermally Broken Lintels and explain the installation process.
Steel lintels, and specifically Catnic's thermally broken lintels, have a significant role to play in reducing thermal bridging and achieving carbon gains. They represent one of the simplest and most economical ways for building fabric to be designed and constructed to help achieve the carbon gains necessary to meet current and future building regulations.
Support & FAQs
Calculating the load imposed on lintels depends on a variety of factors, including the wall type in which the lintel is installed, and whether floor or roof loads need to be accounted for in addition to masonry loads. Lintels are primarily design to support uniformly distributed loads (UDLs) but on occasions point loads also need to be considered. This guide only provides an overview of how the loads on lintel are established and should not be used as a substitute for obtaining loading calculations either direct from the lintel manufacturer or from a qualified structural engineer.
Specifying Catnic’s Thermally Broken Lintels (TBLs) will significantly improve the thermal efficiency of a property and help ensure that the project’s necessary environmental credentials are met. Specifying Catnic TBLs can be done with ease as they have the same safe working loads as Catnic’s traditional lintels – meaning TBLs can be specified like for like. Catnic TBLs can also be used for standard duty, heavy duty and extra heavy use, making them suitable for a wide range of projects. You'll find our full range here
The correct specification of lintels is crucial, however it is just as important to ensure that each one is installed correctly. Here are five top tips to ensure an trouble free installation. To watch our video on installing cavity wall lintels click here