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Tempered safety glass
This glass consists of a single pane of glass that has been subjected to special heat treatment during production, and has therefore been pre-stressed. This does not just increase the impact and bending resistance of the glass, but also makes it more resistant to temperature changes. Because it has been pre-stressed, the glass cannot undergo further processing after production. The internal stress also makes this glass sensitive at the edges.
If the glass breaks, it shatters into small fragments without sharp edges.
Partially pre-stressed glass
This glass is produced in a similar way to tempered safety glass, but with less pre-stress. This achieves better resistance than normal float gas, and the glass is less sensitive to minor damage than tempered safety glass. However, it is not as resistant to bending as tempered safety glass. Partially pre-stressed glass is normally used as laminated glass.
In the event of breakage, the glass disintegrates into large pieces.
This glass consists of two or more overlaid panes of glass each with an intermediate layer made from hard-wearing, tear-resistant film. This is how the safety characteristics are achieved. The film is made from polyvinyl butyral (PVB) and absorbs almost all UVA radiation. This type of glass is therefore not suitable for bonding with adhesives that are cured using UV radiation.
In the event of breakage, the film holds the splinters together.
Float glass is a flat glass with low temperature change resistance, which is manufactured using the float glass procedure.
It is also known as window glass or basic glass, and is used for all types of glazing, mirror manufacture and also as the basic product for manufacturing tempered safety glass and laminated glass.
In the event of breakage, float glass shatters into sharp-edged splinters and differently-sized pieces.
1. Material selection
Attention must be paid to the suitability of the adhesive for gluing.
The choice of material and the resulting choice of adhesive (see point 3) result in different adhesive bond strengths. Maximum strength can be achieved when bonding glass to glass, glass to metal (stainless steel) and glass to stone.
All information relates to transparent float glass that can be permeated by UV light. Clear float glass, mirror glass (reflective side), curing glass (tempered safety glass) and wire mirror glass can be bonded without any problems. Special glass types such as imbued glass and laminated glass may lead to weaker strength values or cannot be bonded at all. All structured glass types, such as patterned glass and wire glass, are also problematic.
Permeability by UVA rays depends on the glass thickness and colour intensity.
Glass types with high UV absorption such as laminated glass, coloured glass or tinted glass cannot be bonded using conventional UVA adhesives. The highly light sensitive adhesive MV760VIS 003.04.139/143 or the adhesive 682-T 003.04.114/115 with activator 003.04.132/133 has to be used to bond these types of glass.
The indicated adhesive bond strengths can only be achieved with the coating thicknesses indicated in the technical data sheets. The smoother the surface that is being bonded, and the thinner the coating of adhesive (pay attention to min. adhesive coat thickness), the stronger and more loadable the adhesive-bonded joint. Too little, too much or irregular adhesive application influences the adhesive bond strength of the adhesive-bonded joint.
The glass edge that is to be bonded should have a cup wheel ground finish only, do not apply pressure to the adhesive gaps. There should not be any separating agent (lubricant, polish, silicone, oil, etc.) on the surface when bonding takes place.
In comprehensive test series stainless steel has proven to be a particularly suitable material when bonding glass to metal. Surfaces such as untreated aluminium, chrome, nickel etc. are only conditionally suitable for gluing, and should be pre-treated with suitable additional products such as glass/metal primer or Pyrosil before gluing in order to improve the adhesion of the UV adhesives. The suitability of coated or lacquered glass/surfaces must be checked before bonding.
2. Pre-treatment of the bonding surfaces
2.2 Removal of residual moisture by warming the workpieces up
2.3 Pyrosil® surface pre-treatment
3. Choice of adhesive
The following UVA and light curing adhesives are available, depending on the requirements of the materials to be bonded and the stress applied to and use of the adhesive bonded-joints.
Medium viscosity adhesives B-682-T, Cat. No. 003.04.114/115, must be used for adhesive-bonded joints that are subject to dynamic stress.
When planning and constructing all-glass objects, a "closed" (i.e. self-stabilising) structure (see fig.) should be chosen in order to achieve maximum stability.
If an "open" structure is explicitly requested for design reasons or if structural changes are not possible, only the adhesives with Cat. No. 003.04.100 or Cat. No. 003.04.101 must be used for these connections.
4. Fixing aids
In order to allow UV adhesives to cure properly, the parts that are being bonded must be securely held to prevent vibration and slipping. Suitable fixing aids make this considerably easier.
5. Joints/adhesive application
5.1 Adhesive application BEFORE joining
5.2 Adhesive application AFTER joining
6. Curing (exposure)
Please pay attention to the following during exposure:
All UVA lamps offered by Häfele are equipped with special filters to prevent damage to the eyes and skin. For your own safety, wear suitable PPE equipment such as protective goggles with UV filter and disposable gloves and observe the manufacturer's specifications. The employer’s liability association recommends the use of suitable PPE equipment when dealing with UVA lamps.
Curing via exposure takes place in two stages.
Step 1: Pre-curing:
Step 2: Final curing:
We cannot accept any liability for the adhesive that is used, the gluing method or any resulting claims. We appreciate your understanding for this.
7. Trial adhesion
A trial adhesion always has to be carried out. That way, processes, materials and structures can be tested and adapted.
A test piece has to be bonded according to the above-mentioned notes for this. After bonding has taken place, stress the workpiece above nominal stress, e.g. through impacts, jamming, jerky movements, if necessary work with tools such as pliers. Stress the workpiece to until the material deforms or breaks, in order to determine the load limit.
8. Application examples
This section shows examples of how glass gluing accessories are used in practice.
8.1 Handheld UV light
The handheld UV light is particularly suitable for bonding glass cabinets or glass furniture. The light weight allows you to work without tiring.
8.2 Suction device 90°
Construction of a glass cabinet used as basic element for many assembly constructions using four suction devices 90°. Especially the use of high-viscosity adhesives allows comfortable adhesive application by raising the attached panel by a pre-defined gap and then lowering again using an adjusting screw. The raised glass edge serves as a guide for applying the UV adhesive. The glass pane cannot slip out of place and smearing of adhesive during lowering is ruled out. Neat and precise working is therefore guaranteed.
8.3 Continuously adjustable suction device
Use of a continuously adjustable suction device at an angle of approx. 45° when bonding 19 mm float glass. The tension-free curing of UV adhesive is achieved in this case using a handheld UV light, Cat. No. 008.75.440.
8.4 Tensioning brackets
Glass cabinets or similar structures can be fixed in position in no time using 4 tensioning brackets. Particularly suitable when using thin-flowing (low-viscosity) adhesive.
Prerequisite: Straight glass pane edge (no bevel), right-angled structure, short adhesion time. Tighten adjusting screws only slightly!
Two glass panes can be aligned in any required position using two guide pieces that rotate through 360°.
The plastic pressure screws cause no damage to the glass surface despite high holding power.
8.6 Off centre support
Rotating the off centre disc provides up to 6 mm continuous fine adjustment of position.
Glue fixing of an intermediate shelf is considerably easier using 4 off centre supports.
8.7 Right angle suction pump
The right angle suction pump is placed in required position onto the glass pane and adheres to the pane by pressing the first pump tappet. Sufficient vacuum is reached after pressing the pump tappet 3 to 5 times.
Repeat the process for bonding the second pane of glass.
The red signal ring indicates loss of vacuum; the connection can be strengthened again by repeated pumping.
The UV adhesives are applied to a pre-defined gap. In this case it is sufficient to adjust and fix the required gap width.
After applying thickly flowing adhesive, the ventilation valves must be activated and the bonding components must be lowered to their final position and re-fixed.
f all-glass constructions, for inset doors
For all-glass constructions
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