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All Hours Glass provide tailor-made designs to suite individual needs. we service clients no matter how big or small their needs may be.

Our range of Formed Glass includes the following:

• Painted Glass Splash-backs
• Murals
• Toughened Door Panels
• Shopfronts
• Partitions
• Shower Screen Panels
• Company Logos
• Mirror Frames
• Wall Plaques
• Balustrades
• Vanity Tops
• Glass Signage
• Shelving
• Trophies
• Table Tops
• Counter Tops

All Hours Glass is a Queensland owned and based company, dedicated to service and quality. We specialise in architectural and shopfitting applications. We can manufacture a wide variety of products from signs to partitioning, tabletops to vanity units, and even occasional furniture. That unique light fitting or wall mounted plaque can be a dream come true. Formed Glass specialise in individual one off designs for those who would like something different.

At All Hours Glass we also manufacture and maintain our own kilns. We have a comprehensive knowledge of the process from the grass root level. We can form glass to your specifications or you may wish to use standard patterns or have our design consultants make your creative ideas a reality.

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45 Bridge Street,
North Rockhampton, QLD 4702

P.O. Box 10069

Phone: (07) 4922 5555
Fax: (07) 4922 5539
E-Mail: melissa@allhoursglass.com


All Hours Glass & Queensland Toughening can help you put the finishing touch on your exciting new kitchen or maybe it’s a renovation that requires that finishing detail, to add the clean contemporary look, which only a Toughened glass splashback can provide.

When choosing a company to provide your Toughened glass splashback we believe you should look for a company that provides outstanding customer service and product knowledge (not just the lowest price). REMEMBER this product will be the finishing touch to complete your project, don’t settle for a second rate company that has the potential to tarnish your dream kitchen.

Our outstanding team is industry professionals and will work closely with you to ensure your finished kitchen is all you imagined and at a competitive price. When choosing a colour for you splashback All Hours Glass & Queensland Toughening use a special glass called “Starphire” this glass is used for true color emulation. Call today to arrange a quote and design consultation, to step closer to finishing your dream kitchen.

Our policy at All Hours Glass & Queensland Toughening is to toughen all glass panels as per the Australian Safety Standards as per 1288, 2208, 2080.



All Hours Glass & Queensland Toughening can help you complete your new pool with our diverse range of pool fencing systems, example Frameless and Semi Frameless. We understand how important it is to ensure the safety of our precious assets, our children, Pool Fencing will make it safe for all children to play in their own backyard.

Drowning is the number 1 cause of accidental death in children under 5 years old, accounting for every 3 out of 4 accidental deaths in Australia within this age group. These are sobering statistics, even more so when we consider the majority of these deaths take place in private swimming pools. The good news is there is a simple solution to prevent the unthinkable. The number one step in the Laurie Lawrence phrase “DO THE FIVE STAY ALIVE” is to FENCE THE POOL.

This is where we can help, we can also help you with a design and installation that meets all your requirements. A pool fence has to do many things, most important thing is function, your pool fence must also be sympathetic to your homes architecture and easily maintained. Speak to us today to arrange a site consultation and pricing.

Our policy at All Hours Glass & Queensland Toughening is to toughen all glass panels as per the Australian Safety Standards as per 1288, 2208,2080.

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We are also a supplier of beautiful artistic glass for decorative purposes. This is known as Slump Glass it is commonly seen in Signage, Water Features and eye catching Decretive fixed walls, Showerscreens and many more applications. It is formed within a kiln, the glass is allowed to melt and upon cooling will form distinctive shapes.

All these decorative glass panels which look great in any application you would like to make a statement. Our glass technicians are able to work the glass panels to create unusual and striking design for you individual style, with or without colour.



After Hours Service Although our office is unattended outside normal business trading hours, we have an emergency call centre, this is where our glaziers will be available on call 24 hours a day 7 days a week to attend to your emergencies. Our glaziers carry a selection of domestic & commercial glass on their vehicles, however some glass may not be available after hours so our glaziers will secure your premises securely with heavy duty board sheeting until glass is matched and discussed with the owners for next working day replacement.

24 Hours Glass Emergency Service: WE attend to all your emergency glass breakages




  • Aluminium framed and frameless mirrors
  • Framed, semi frameless and frameless shower enclosures
  • Glass Splash backs
  • Aluminium framed, semi frameless and Cantilevered fully frameless (into a formed channel or with Mini Posts) Pool Fencing and gates
  • Aluminium framed and semi frameless and frameless balustrade systems
  • Internal partition glazing
  • Internal partition framing (where glazing is occurring)
  • Commercial aluminium hinged, pivot and sliding doors to Architects/Designers specifications
  • Auto Sliding doors
  • Toughened entries & frameless suspended assemblies
  • Frameless or framed Bi-fold or Stacking doors
  • Shop front glazing and aluminium framing
  • Glazed Canopies
  • Corporate signage
  • Glass features
  • Special Projects
  • Bi-Fold doors
  • Bi-Fold with integrated screen
  • Commercial sliding door

Queensland Toughening & WaterJet Services

Toughened Glass


The production of flat glass requires the molten silica based mix to be cooled slowly under carefully controlled conditions. This ‘annealing’ process removes most undesired stresses from the glass. Cooling occurs in an ‘annealing lehr’ (The ‘annealing lehr’ is the furnace after the float bath where the glass is slowly cooled to handling temperature). Annealed glass which has been heated to a temperature near its softening point and forced to cool rapidly under carefully controlled conditions is described as “heat treated glass”. This heat-treating process produces highly desirable conditions of induced stress, which result in additional strength, resistance to thermal stress and impact resistance. Heat strengthened glass is classified as either fully toughened or heat strengthened. Fully toughened glass must have a surface compression of 10,000 psi (or more) OR an edge compression of 9,700 psi or more.

Heat Treatment Principal

Glass can fracture when its surfaces or edges are placed into tension. Under these conditions inherent surface or edge fissures may propagate into visible cracks. The basic principle of the heat treating process is to create an initial condition of surface or edge compression. This condition is achieved by initially heating the glass, then cooling both surfaces rapidly. This leaves the centre glass thickness relatively hot compared to the outside surfaces. As the centre thickness cools, it forces the surfaces and edges into compression. In practice wind pressure, impact and thermal stress (and other applied loads) must first overcome this compression before there is possibility of fracture.

The Toughening Process

This is a true Safety Glass to AS1288/2208/2080. It begins as ordinary annealed glass, is cut to the exact finished size, uniformly heated to 700+ °C then cooled rapidly by blowing air on both sides. The outer surfaces cool faster than the core, and permanent stresses are built up. After toughening, the glass can have up to 5 times its original strength. Toughened glass breaks into small blunt fragments, reducing the risk of serious injury. Typically when broken the whole pane crazes and falls out in pieces. Toughened glass products cannot be cut, drilled or shaped – all such work must be completed before toughening is carried out. Toughened glass can be identified by its edge bevels introduced during preparation to avoid localised stress cracking, characteristic “leopard spots” seen in certain lighting conditions, and a manufacturer’s stamp in the corner stating its AS1288/2208/2080 grade. Various scientific identification techniques use polarised and ultra-violet light sources, or a laboratory Differential Surface Refractometer can compare optical distortions between the “fringes” occurring during toughening.


Toughened Glass


Safety of toughened glass comes from its inherent strength, and from its unique fracture pattern when broken. When fully toughened glass breaks, the glass fractures into small relatively harmless fragments. Fully toughened glass is a Grade A safety Glass when manufactured to meet the requirements of AS/NZS 2208:1996: ‘Safety Glazing Materials in Buildings’. The selection of which type and thickness of glass should be made in accordance to AS 1288-2006 ‘Glass in Buildings – Selection and Installation’. Applicable building codes should also be checked for specific information and requirements.

Handling and Installation

Toughened glass should be handled carefully as improper handling and/or installation may produce edge damage. A delayed breakage may ensue when edge damage toughened glass is subjected to a moderate thermal or mechanical stress. Full penetration of the compression layer will produce instantaneous total fragmentation. Toughened glass can therefore not be cut or modified following the toughening process.


Inclusions in glass originate from impurities in the original batch or cullet, or from the furnace refractories. Common forms of inclusions include aluminous stones, ironstones and silicon. Nickel sulphide inclusions are microscopic defects in the glass that may cause breakages. A delayed breakage may occur when a nickel sulphide inclusions is present near the centre of the glass thickness, and the surrounding atmosphere ‘grows’ this inclusion to the point of breakage.

Visual Appearance

Toughened glass possesses the basic optical qualities of annealed glass. The induced stress caused during manufacture may Sometimes produce a slight bow or warp in the finished product. The glass may also contain very slight roller wave caused by contact with the quenching rollers in the manufacturing process. The air quench area can also be seen through polarized glass and appear as arrays of iridescent spots or lines. Under some lighting conditions these patterns can be seen in ordinary light. Annealed Tougheded Typical Breaking Stress (large panel / 60 second load) 6,000 psi 24,000 psi Typical impact velocity causing fracture (6mm x 5gm Missile with normal impact on surface of glass) 9 mtrs/sec 18 mtrs/sec
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Waterjet Cutting


The cutter is commonly connected to a high-pressure water pump where the water is then ejected from the nozzle, cutting through the material by spraying it with the jet of high-speed water. Additives in the form of suspended grit or other abrasives, such as garnet and aluminum oxide, can assist in this process. Because the nature of the cutting stream can be easily modified, water jets can be used to cut diverse materials, from prepared foods to metals. There are few materials that cannot be effectively cut with a water jet cutter; one of these is tempered glass, which shatters when cut, regardless of the cutting technology used. Certain ceramics are also resistant to water jet cutting. Water jet cuts are not typically limited by the thickness of the material, and are capable of cutting materials over eighteen inches (45 cm) thick. The penetrating power of these tools has led to the exploration of their use as anti-tank weapons but, due to their short range and the advent of composite armour, research was discontinued.


An important benefit of the water jet cutter is the ability to cut material without interfering with the material’s inherent structure as there is no “heat-affected zone” or HAZ. Waterjet is considered a “green” technology. Waterjets produce no hazardous waste, reducing waste disposal costs. They can cut off large pieces of reusable scrap material that might have been lost using traditional cutting methods. Parts can be closely nested to maximize material use, and the waterjet saves material by creating very little kerf. Waterjets use very little water (from 2 litres to approximately 4 litres per minute depending on cutting head orifice size), and the water that is used can be recycled using a closed-looped system. Waste water usually is clean enough to filter and dispose of down a drain. The garnet abrasive is a non-toxic natural substance that can be recycled for repeated use. Garnet usually can be disposed of in a landfill. Waterjets also eliminate airborne dust particles, smoke, fumes, and contaminates from cutting materials such as asbestos and fiberglass. This greatly improves the work environment and reduces problems arising from operator exposure.


The versatility of the waterjet allows it to be used in nearly every industry. There are many different materials that the waterjet can cut. Some of them have unique characteristics that require special attention when cutting. Each material cut will have some unique characteristics that have to be taken into account.

Materials commonly cut with waterjet include rubber, foam, plastics, composites, stone, tile, metals, food, paper and much more. The only materials that cannot be cut with waterjet are tempered glass, diamonds and certain ceramics.


There are six main process characteristics to water jet cutting:

  1. Uses a high velocity stream of abrasive particles suspended in a stream of Ultra High Pressure Water (30,000 – 90,000 psi) which is produced by a Waterjet Intensifier Pump
  2. Is used for machining a large array of materials, including heat-sensitive, delicate or very hard materials.
  3. Produces no heat damage to workpiece surface or edges.
  4. Nozzles are typically made of sintered boride.
  5. Produces a taper of less than 1 degree on most cuts, which can be reduced or eliminated entirely by slowing down the cut process.
  6. Distance of nozzle from workpiece affects the size of the kerf and the removal rate of material. Typical distance is 10mm.Temperature is not as much of a factor.

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