Tag Archives: Toughened Glass

Capturing Light in an Urban Space

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natural light -elev - east This residence has recently been constructed in one of the laneways of Fortitude Valley, just outside the Brisbane CBD in Queensland. Using smart orientation and well designed glazing features, a light and airy modern house has been constructed.

This urban block with an area of about 200m², fits a house with an approximate 90m² footprint. The architect, Andrew Wiley proposed a house that is naturally lit with a spacious feel in this confined perimeter. This was done working with interior designer Benta Wiley, to maximise the effect of light play on the artworks and sculptures intended for the house. The builder, Nick Chatburn & Co, worked in conjunction with G.James Glass & Aluminium to provide the glazing for the project.

Design

There are two façades taking advantage of open areas outside to maximise views and natural sunlight entering the 3 storey building. In particular the east elevation has a glass wall the height of the building.  This wall provides naturally light to an atrium that every room in the house opens into. Glass fins support the expanse of frameless glazing. The effect of this light well gives the house a spacious feel, enhancing the flow and communication between living spaces.

The Atrium opens onto all three storeys of the house creating spaciousness.
The light from the atrium filters into all the rooms of the house.
The light and ambiance created by the atrium brings the best of the outdoors inside.

Blue glass intensifies the colouration of the sky outside – used in the atrium and sliding door/windows on the north and east faces. These large windows are made from sliding doors that enable 2100 high windows.  As a safety barrier, glass balustrade is installed to the interior. This maximises the amount of light that flows into these rooms.

Shutters sit on the outside of these windows, promote a modern feel to the houses exterior.  Internally the shutters provide an insulative shade barrier, blocking the harshest rays yet letting light filter through the gaps and cooling air that flows between them. The detailing for these doors was developed at G.James – they sit on a large structural angle that is fixed to the outside of the building to give them the floating appearance.

The shutters to the east light the stairwell by the atrium, and the bedroom and lounge room toward the back of the house.
Closed, the shutters permit light to highlight the living spaces inside with a glow.
The view to the street frontage to the north facade.

Natural Light Features

Natural light penetrates from one side of the house to the other with the use of glass internal doors, slit windows strategically positioned to the south and west faces, and glass roof lights. There are two of these with opaque glass on the ground level that give the office and laundry a bright lift.

The office is lit up with a translucent glass sky light to the west side of the building.
From the south to the north end – open spaces, glass doors and the atrium lend to the light and spaciousness of the home.
The kitchen faces north with two full height windows made from sliding doors sitting on the face of the property.

The third glazed sky light is a glass canopy located at the top of the stairs, leading onto the roof. An opening at the top of a space such as the atrium draws rising hot air up and out, naturally cooling the entire house and enhancing air flow through it. The glass canopy leads to a stunning outdoor area overlooking the neighbourhood, made of self cleaning glass.  Being completely see through, it doesn’t create a visual barrier in the centre of this space, but divides the different areas up for their individual uses.

The glass canopy that opens onto the living space on the roof.
Flora is hundreds of years old – one of a set of statues that would border the entrance to a dwelling in earlier times in Italy. Now she welcomes you to the roof top outdoor area.
The living space is divided into a large outdoor BBQ / kitchen / dining space on one side, and the spa / lounge area on the other. Both boast 360 degree views.

Bringing the Best of the Outdoors Inside

The entire house incorporates the enjoyment of being able to make the most of the Queensland outdoors and lifestyle – starting as you enter the house.  The front door to the property is through a wide frameless glass door.  This electronically operated pivot door opens into what seems like a courtyard complete with a well planted pond. Over the pond is another frameless sliding door operated automatically, allowing lush green plant life outside to become part of the welcoming committee. This space is in fact the inside of the atrium.

The arrangement of the structural support columns for the house provide openings looking onto the lush green landscaping – inside and out.
The pond is inhabited by an array of brightly coloured Koi that navigate between the security bars in the pond.
The door over the pond provides a beautiful space letting the outdoors peek inside, and permits air to flow up through the atrium.

Interior Inspiration

The house is an inspiration, and a beautiful example of what can be achieved with limited space in a medium density urban area.

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Products by G.James

  • Entry – toughened clear glass into 475 series surround framing with frameless pivot door
  • Atrium – Structurally glazed laminated blue glass with fins into 450 series surround framing. (External blind by builder)
  • Hinged Internal and Back Doors – Toughened glass frameless doors into 475 series framing and glass channel hydraulic hinges.
  • Auto Sliding over fish pond – Toughened glass frameless door with 475 series glass channel surround frame.
  • Dining Window – 131 series offset sliding window, 3.6m long with a 1.2m sash.
  • Sliding window / doors – 245 series commercial sliders with blue laminated glass. Sliding shutters are made from G.James extrusions by a third party, and incorporated into the 245 sliding track. The glazing sits on large angle bracketry on the external face of the building to give it the seamless appearance.
  • Down stairs sky lights – white translucent glass structurally glazed to stainless steel pressings.
  • Glass roof / canopy – Sides are Low E  heat strengthened laminate on Stainless steel stand off.  Roof top glazing is self cleaning, Low E heat strengthened  laminate with polished SS pressings.
  • Fixed glazing – white translucent glass in 450 series framing.
  • 3 Shower screens – frameless shower glazing – one of each style -bay window, single shower screen panel and square base.
  • Extrusions finished in a stone grey powder coat.
    The sliding window / shutters to the north elevation provide a modern geometric facade to the street frontage.
    The translucent glass sky lights on the ground level are found on the west face.

    A modern residence in Fortitude Valley, Queensland
    The south and west faces border surrounding properties. Privacy is maximised with strip windows glazed with translucent glass.

Glass By Definition – Part 1

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Glass Bike - Glass Definitions - G.James Glass and AluminiumThis article will assist in demystifying the types of architectural glass used in buildings. The names we use for the different glass types are generally attributed to some part of the manufacturing process. In part one of this two part series, we look at basic glass products to highly processed glazing options.

Some History on Architectural Glass

Since clear glass was being first made in about 100 CE, in Alexandria, the Romans began using it architecturally. This began the long list of manufacturing methods and specialised names attributed to the different types of processes – Broad sheet, Crown, Polished Plate, the list goes on. In 1848, a crude form of float glass was patented by inventor Henry Bessemer by pouring glass onto liquid tin, but it was very expensive. It wasn’t until 1959 that this idea for float glass was made in a practical method – a discovery by Sir Alistair Pilkington that now dominates the worldwide commercial production of architectural glass products.

Basic Float Glass Products

The differences between the basic glass types are formed in the glass making “float process”. Soda, lime and silica as well as broken glass called cullet are the major components used in the manufacture of glass. These components are mixed into a batch before being heated to approx. 1500°C in a furnace. The molten glass is then floated on a “tin bath” –  a layer of molten tin.   As the glass begins to cool it solidifies and is drawn out of the float tank in one continuous ribbon.  The glass enters the annealing or cooling lehr – it is the controlled cooling (annealing) of the glass that allows it to be cut and further processed.

Glass processing lines are cleaned out every 8 or so years. Large chunks of glass like this one are chipped out.

Float Glass or Annealed Glass

These terms are interchangeable and refer to the respective glass manufacturing processes.  They describe glass in its basic form, before secondary manufacture.  In a general sense, Annealed Glass is used when comparing heat treated glass to non heat treated glass.

Clear Glass

Clear Glass is a piece of transparent float glass, typically uncoloured.

Tinted Glass

Tints are glass with metal oxides added to give it a specific hue. The tint or colouration is through the body of the glass and therefore darkens with an increase in thickness.  Apart from aesthetics, tinted glass is used for reducing heat gain through the glazing system. Common tints include green, blue, grey and bronze.

The standard range of tinted glass
Many other colours such as these, can be produced with coloured interlayers.

Super Tints

Super Tints are designed to reduce heat gain while allowing the maximum amount of light through making it a performance product. The heat absorbing qualities also make them prone to thermal stress (caused by temperature difference), and a thermal safety assessment is recommended to determine if heat treating is required (see Secondary Manufacture below). Colours include Azuria, Super Green and Super Blue.

On Line Coated Glass

Sometimes referred to as pyrolytic glass, metallic oxides are deposited onto the glass surface in the float glass tank during manufacture. These coatings can increase the performance of the glass with a range of reflective and low E products available. They are extremely hard and durable, and can be used on their own or heat treated without affecting the coating.

Low Iron Glass

The green colouration in glass is due to the iron content found in silica or sand. Low Iron Glass has less than 1/10th of the iron content of standard glass and are considered ultra clear. Low Iron Glass is ideal for use in display cases, painted glass applications like splash backs or in areas where high clarity is required.

The Low Iron glass to the left provides amazing clarity.
The difference in colour is more pronounced in regular glass as it gets thicker.

Deli Bend or Curved Glass (Annealed)

Glass can be curved as float, by laying the glass over a mould before annealing begins. It is commonly used to make butcher or delicatessen benches (hence the name), furniture and curved architectural glass that is to be laminated.

Processed Glass

Glass requires finishing before it can be used in location, or sent for secondary manufacture. Commonly, this includes cutting to size, and edging, but there are many alternatives in both these fields.

This glass would have been cut, then heat treated and finally laminated.
The Glass Stamp is placed in the corner of the glass so you know what type of glass it is.

Cutting

Almost all glass will require cutting to the job size requirements, but this process also includes cuts to produce as irregular shapes, such as raked windows, shower screens with cut outs for fittings, glass walls needing spider fittings and custom profiling.

  • Various regular and irregular shapes required are cut with a CNC machine.
  • V Grooved cuts in the face of glass, or brilliant cut, provides an alternate decorative finish.
  • Drilling – Holes from 5mm to 100mm can be drilled into the glass, but the hole diameter must be equal to or greater than the glass thickness. Holes can include a countersunk rim. The hole edging has a ground finish.
  • Shaping – glass can be cut at special shapes or profiles to custom requirements.

There are edge clearances that are relative to the glass thickness for the size and location of cut outs and holes drilled into a sheet of glass. Please contact your manufacturer for exact positioning limitations.

Spider fittings requires holes for the fixings to pass through.
These glass fins require a Flat Polished exposed edge, as well as a Flat Grind edge that is prepared for a silicon butt joint, and two hidden edges at the top and bottom finished with a Rough Arrise.

Edging

Edging provides a range of options for the perimeter of the glass to suit its application. Different edges are applied for ease of installation, to assist with further processing or to achieve a look.  One common process is arrissing – a term used to describe the method used to grind the sharp edges of glass to make them safer to handle.

  • Plain cut glass, is called Clean Cut
  • Glass to be toughened requires Rough Arris edge work – arrissed edges with a rough ground finish.
  • Smooth Arris is similar to the rough arris, but with a smoother finish to the edge.
  • Flat Grind or Flat Smooth edges are machined smooth edges suitable for silicone butt jointed applications.
  • Flat Polished is the neatest finish used for exposed edges of glass.
  • Mitred Glass has a 45 degree bevel on one side with an edge finish suitable for mitred silicone butt joints.
  • Round and Polished edge work gives the glass a curved edge for exposed perimeters.
Decorative bevelled and polished edging on thicker glass.
Flat Polish is the neatest polished finish
Rough Arris is the most basic of finished edging

Secondary Manufacture

Secondary Manufacture takes the various types of float glass and changes the properties in a range of production processes.

Heat Treated Glass

A general term used to describe the process of further strengthening or testing glass in a second heating and cooling process. Its is the way or speed in which the glass is cooled gives the glass stronger properties, and length of heating to test the glass.

Heat Strengthened Glass

Heat strengthening is a treatment of glass that induces a high compression layer on the surface.  This is done by cooling the reheated glass at a specific rate. This process makes glass twice as strong as annealed glass, although it is not considered safety glass.

Toughened or Tempered Glass

Toughening glass also induces a high compression layer in a similar process to heat strengthened glass. To toughen the glass, the heated glass is cooled very quickly. This makes it 4 to 5 times stronger than annealed glass of the same thickness. Certain thicknesses are considered A grade safety glass – refer to standard AS 1288.

Heat Soaked Glass

Toughened glass can spontaneously shatter due to small imperfections in glass called Nickel Sulphide inclusions. They are rare, but undetectable, and so, to ensure the glass will retain its form, heat soak testing is done. The glass is heated for a period of time which induces the Nickel Sulphide inclusions to rupture if they are present.  Glass that passes the test, has a markedly reduced possibility of failure once in location.

Curved Glass (toughened)

Curved Glass that requires toughening is bent in the toughening process.  A series of rams fold the glass to the desired shape. Tighter corners and soft curves are achievable.

Off Line Coating

High performance glass has a coating applied to its surface. Different looks can also be achieved with colour and reflectivity. Although large steps in technology over the last couple of years have increased the durability of off line coatings, some are quite delicate, and cannot be heat treated.  Others need to be used in an IGU, so the coated side of the glass is sealed from the elements and physical damage.

The coloured laminate provides a brilliant green finish.
There are two different kids of edging finishing off this laminated glass.

Laminated Glass

Laminates are made of two or more pieces of glass permanently bonded together with interlayers. Interlayers are made up of various materials to give the completed glass additional properties, for example, acoustic, colour and UV eliminating. Laminated glass is considered A grade safety glass.

IGUs

IGUs consist of two panels of glass fitted together with a hermetically sealed air space in between to provide an insulative layer protecting against thermal and acoustic issues. The air in the gap is dried to prevent condensation issues.

Other common glass terms

The following terms are not processes done to manufacture glass, but are descriptions of how they are classed, rated and used.

Double Glazing

Double glazing is when two pieces of glass are used with an air gap in between. Special framing suites with glazing pockets front and back are considered double glazed, as are jockey sashes and IGUs.

Regular dice pattern formed when toughened glass breaks.
A corner of the Insulated Glass Unit, showing the spacer and comprehensive outer seal.

Monolithic Glass

Monolithic glass is a single pane of glass as opposed to laminated, double glazed or insulated glass units.

Safety Glass

Safety glass is processed glass that is manufactured to satisfy the requirements of AS/NZS 2208 for safety glazing. Laminated and toughened glass are rated Grade A. Wired glass is rated Grade B.

Security Glass

Security Glass is designed to repel violent attack. They are usually combinations of laminated glass that incorporate toughened or polycarbonate combinations. They are not necessarily considered Safety Glass.

Part two to be released in November –

I hope you found these descriptions useful. In part two of this article, thermal glazing terms and properties will be discussed. It will include the terms used to measure and describe performance, what basis the measurements are made from and a comparison of data commonly used – glass only vs whole of window data.