New Building Product - Kwiklin Longspan beams

Kwiklin - Similar product to Slimlin but this is another addition to the 'Algoa Concrete' family...

Installation & construction Notes

1. Longspan Lintels supply Kwiklin beams in matched pairs in standard lengths of 5,4m, 6,45m, 7,5m or 8,55m cut into lengths as required.

2. The supporting columns must be constructed (Use min quality 7 MPa bricks and blocks) as directed by engineer. Structure must be well cured, sound and level before placing beams. (Non shrink grout can be used to level up and bond top brickwork if necessary).

3. Set up secure scaffold and heavy duty boards to accommodate required lifting crew for placing manually. Longer beams may require a crane or lifting tackle which can be provided.

4. Beams must be lifted with two slings on a spreader bar when using a crane or tackle.

5. Set up and line up the two Kwiklin beams
Tap the required number of laminating galvanised steel bushes.
Using locating saddles clipped onto the bushes, set reinforcing in place as required by engineer.
Caulk the gap between the beams or tie up a shutter board when creating a wider beam (260/280mm wall applications)
Set-up single prop in centre of beam assembly.
Cast 40 MPa concrete into beam (16 litres required per running meter)

6. Steel imbedded in supporting column brickwork should be secured through the joint in the Kwiklins and tied in by the concrete infill in the bearer beam to create a connected structure.

7. Where practical, it is advisable to place the first course of brickwork immediately above the Kwiklin assembly as a header course.

8. Subsequent course to be laid with galvanised brickforce in the mortar joints.

9. Alternatively, the strength of the beam can be further increased by integrating reinforcing up through the upper brickwork constructed as a cavity wall so as to admit further reinforced concrete infill between the leaves.

10. Hoop iron can also be wrapped around reinforcing bar and passed up through the brickwork to secure the roof rafters, before casting concrete beam infill.

Laminated Bearer Beam - Engineering Data

Notes

1. The tables satisfy SABS 0100 - Latest revision

2. Calculations for table prepared by MR. Colin Dunn - Endecon PE Trust (Eng. Reg.)

3. Kwiklins can be further reinforced by intergrating reinforcing to the upper brickwork constructed so as to admit concrete infill between leaves.

4. Kwiklins spanning 6m clear with concrete infill and steel reinforcing, will carry 10 courses of brickwork without sagging. It is advisable to fit a temporary prop under the centre of the Kwiklin assemble during construction when time does not permit for infill concrete or brickwork to set.

5. Kwiklins must be applied under supervision and specifications of a professional engineer.

6. Kwiklins sets are produced in standard lengths of 5.4m, 6.45m, 7.5m and 8.55m and can be cut to special order lengths.

7. Mass 51kg per meter per single beam.

Other Lintels in the Longspan Range

• Slimlin for double garage door openings of 4.8m
• Winlin 250 for 6m openings
• Winlin 200 for up to 5m openings (aligns with 200mm block courses)
• Winlin 170 for applications up to 4m openings

http://www.algoacement.co.za/

All notes and pictures provided by Algoa Cement Industries PE

New Building Product - Slimlin beam

Slimlins - What are they and what do they do?

Since I've been out to site I've seen a couple of building problems when it comes to lintel spans over openings. Like this example above: The lintel used to span the opening of the garage door. It seems that the lintel is bending under the pressure and now a prop is needed to keep it in place...

Ideal = I don't think so but what is the alternative?

We have been approach by a well known company in town namely 'Algoa Cement' http://www.algoacement.co.za/  

This company has come to the conclusion that 'normal lintels' do not make the additional span to overlap and carry the weight of brickwork. In the following example they are making use of 'concrete beams'...

1. Longspan lintels supply Slimlins in sets of 3 bems (2 x A and 1 x B) in standard lengths of 5400mm to suit door apertures of 4800mm. (Beams can be supplied cut to shorter lengths)
2. The supporting columns or wing walls must be constructed  with minimum 7 MPA bricks and blocks and must be well cured (3 – 5 days) (start construction of this side of garage first so you won’t be held up)
3. Set up secure scaffold and heavy duty boards to accommodate required lifting crew for placing manually .Longer beams may require a crane or lifting tackle which can be provided.
4. Beams must be lifted with two slings on a spreader bar when using a crane or tackle.
5. Set up and line up two SLIMLIN (A) Beams taper up to the outside and one (B) Beam taper down in centre, as per cross section.

• Tie together with binding wire either and secure on wing walls.
• Tap in three laminating galvanised steel bushes to three centre holes.

1. Place first course of brickwork over SLIMLINS as a header course.
2. Place brickforce in mortar joint above and in every 4^th mortar joint thereafter. 

This is a new product I look forward to see out on site. Definitely more affordable than the normal 'Engineered beam' and also more user friendly.

Feel free to contact 'Algoa Cement' on this latest product...

Slog blog 2

Okay here I am... I know it's slow but this last few months was a great challenge!

I managed to learn more about energy efficiency in it's greatest form.

Maybe I should share and you all will understand where I disappeared to... ;)

As the year goes on and moving towards the end we have the usual amount of plans as they pass through the system. Slowly everybody is adapting to the new rules and regulations and I'm happy to say:

"WELCOME TO ENERGY EFFICIENCY everyone!"

Hope from now on it can only go better...

So exciting to see the next chapter on "Water"... SANS XB!

Cant wait to share it all...

Hold onto your chairs cause lots more is on its way!

Today I was blessed to see how they make solar power frames with the panels.

Mass production and it looks awesome...

Maybe this is the way to go.

The Lord gave us a daily source of energy even on it's cloudiest day it's still there so ... LETS USE IT PEOPLE!

Will update blog soon...!

New Building - Seacliff House

Seacliff House by Chris Elliott Architects

What makes this such a particularly AWESOME house, the fact that they created this beautiful structure with such passion! The house itself situated in Sydney, Australia has been created with curved openings in the walls that looks like gills.

These openings, previously called gills makes out the windows to bathrooms as well as bedrooms allocated in that specific area of the three-level house.

The Seacliff House is situated in the seaside suburb of Bronte overlooking the most amazing views of the ocean. The house also have a swimming pool on 2 of the floors.

The house has been dug into the site material namely limestone which makes out the exposed cave-like basement walls.

They have created a study on the roof and opens out onto a terrace, while the remaining rooftops are covered with plants and photovoltaic panels. 

Yet again an amazing thought becoming reality... something so simple can make a difference.

Love the idea and can do with some in my own home.

http://www.dezeen.com/2012/06/26/seacliff-house-by-chris-elliott-architects/

http://www.homedsgn.com/2012/07/25/seacliff-house-by-chris-elliott-architects/

New Building - The Shard

The Shard - Europe's tallest building, officially opened with a laser show in London.

The Shard (also referred to as the Shard of Glass,Shard London Bridge or the London Bridge Tower) is a skyscraper in London, England and opened on 5 July 2012.

"Just in time for the London Olympics 2012 the Shard Building stood in all its glory 309,6m high in the sky, and being the tallest building in Europe and also the second-tallest free-standing structure in the United Kingdom, after the 330-meter (1,083 ft) concrete tower at the Emley Moor transmitting station.

The Shard replaced Southwark Towers, a 24-story office block built on the site in Southwark in 1975. Renzo Piano, the Shard's architect, worked with the architectural firm Broadway Malyan during the planning stage. The tower has 72 habitable floors, with a viewing gallery and open-air observation deck – the UK's highest – on the 72nd floor, at a height of 245 metres (804 ft). The Shard was designed with an irregular pyramidal shape from the base to the top, and is clad entirely in glass. Its structure was completed in April 2012."   

http://en.wikipedia.org/wiki/The_Shard

"Twelve lasers and 30 searchlights lit up the night sky, to celebrate the external completion of The Shard - the tallest building in Europe. Green lasers and streams of light stretched out from the 95 story building - which is 1,016ft high / 309,6m - on London's Southbank."

"The lasers reached across to landmarks including the London Eye, the Gherkin and Tower Bridge

The show, observed by the Duke of York and the Qatari prime minister, was the finale to The Shard's inauguration celebration. The display was set to two pieces of classical music, performed live by the London Philharmonic Orchestra."

"The building is owned by LBQ Limited, comprising the State of Qatar (the majority shareholder) and Sellar Property Group, with non-equity funding by Qatar National Bank.

"The building is made up of 11,000 glass panels. The finished building provides 31.4 acres of space. There are 44 lifts and eight escalators to transport people to the 72 occupiable floors. The Shard is illuminated against the night sky and creates an incredible picture."

Slog blog 1

Hey everyone,

First "SLOG BLOG"-JUST AN "ON THE WAY" BLOG TO LET YOU KNOW I'M STILL HERE!

Thank you so much for following my blog. It is just amazing to see how many people shares the same interest. This has also given me the opportunity to communicate with the 'industry'; architects, builders, technologists, designers and way more than I expected!

At the same time this has given me the opportunity to grow in a field I have great passion for = Research!

From a little holiday I am now returning and promise to start updating the blog as soon as possible.

I would like to see if I can't get some new products on the line to feature them so keep on following and if you want to make comments, please feel free to do so.

Questions are welcome as well as new Post Ideas... 

You can also reach me on trasee.s@gmail.com

Take care and happy blogging you all!

New design idea - The Sea Orbiter

Is it a boat or is it a floating building? ...

“French architect Jacques Rougerie has designed a cross between a skyscraper and a boat for exploring the unchartered territories of the earth’s oceans.” – This was the first part of the interesting paragraph that kept me hooked like a fish on a line.

This proposed vessel is called the “Sea Orbiter”. This is a creation that is meant to accommodate a random number between 18 – 22 researchers that would be able to spend 24h a day underwater.

This design has been clearly thought through as there are more to this multi-functional structure as what the eye can see. As mentioned in an article: “Marine scientists will use the facilities to study relationships between the seas and the earth’s climate, while archaeologists will be able to further explore ancient shipwrecks and astronauts will be able to use the pressurised environments to simulate the experience of being in space.”

Also stated was that this 58-metre-high “boat structure” will be constructed from recycled aluminium and weigh approx. 500 tons. It has been designed to move with the oceans currents but also harvests its energy from the sun, wind and waves to propel it when necessary.

An Amazing 30 year research and technology; done by a team also known as the “Human Adventure Dedicated to Men and the Planet”. All the credit goes to the designer himself as this is once again an amazing addition to the technology of today.

Read more about this awesome design and the process of how they got to the end result at:

http://earthsky.org/earth/seaorbiter-construction-to-begin-october-2012

New Building Material - Hemp

Building with hemp… What is Hemp?

Noun:	1.      The cannabis plant, esp. when grown for fiber. 2.     The fiber of this plant, extracted from the stem.
Synonyms:	cannabis - marijuana – hashish

The Stem clearly visible with fibre on.

• Hemp is categorised as a bast fibre crop.
• It has a stem consisting of an outer skin containing long strong fibres surrounding a hollow wood core.This woody core is of a very open sponge like structure.
• A hemp crop can be grown without the use of herbicides or insecticides.
• Hemp produces up to four tonnes of material per acre per year.
• It is especially suited to organic sustainable agriculture.
• After processing the stems, two materials are produced; hurds and fibres.
• Both hurds and fibres have properties that make them useful in building construction.

 Fibre after processing

Hurd after processing

• Hemp hurds are mixed with a combination of lime products to produce a light weight, insulating, breathing material.
• The mixture of lime to hurds varies with the type of construction application and prevailing climatic conditions.
• This hempcrete is cast around a timber framework.
• This is achieved by tamping down between shuttering, or it can be sprayed against a formwork (permanent or temporary).
• Internally a variety of finishes are possible. In this example the framework has been left exposed and the hempcrete finished with a natural paint.

Here the framework is clearly visible but this can be painted as well.

http://www.hempbuilding.com/construction.shtml 

The benefits of using hemp throughout your building:

• Hemp masonry is naturally fire resistant so you can be sure that your hemp built house is safe and will protect you and your loved ones.
• Hemp buildings are naturally sound proof so you can enjoy the silence in your acoustically insulated home.
• A House of Hemp dramatically improve the air quality inside the building and reduce the amount of airborne moulds and toxins that can cause respiratory disease. This means you can be sure of a healthy environment for you and your family.
• The lime/hemp building material is naturally resistant to rats and miceso you don’t have to worry about pests and diseases.
• Hemp masonry has excellent thermal insulation properties which means you will see lower heating and cooling costs compared to conventionally built properties – more money in your pocket.
• When built to our recommendations, we believe your hemp building is possibly cheaper than the cheapest form of project homes- ie. brick veneer, yet the hemp building is far superior in many ways.
• Our hemp masonry does not need to be subjected to high temperatures. In fact, hemp building with hemp, meaning it takes more carbon out of the atmosphere than it adds.
• Using our hemp building techniques, you will find that the costs of building a house of hemp are much lower because you can use the whole stalk and avoid the expensive hemp fibre separation process.
• Hemp masonry is attractive so you don’t need to render, plaster, paint or insulate if you don’t want to.
• You can grow your own hemp and using only simple machinery, process the stalks to provide enough material to build your own house of hemp only metres away. You do not need to grow to use this hemp building method, but may buy direct from the farmers.

Houses constructed from Hemp:

http://www.gizmag.com/first-us-hemp-house/17115/picture/125345/

"America's first house made primarily of hemp has been built. Using a product known as Hemcrete – a mix of industrial hemp, lime and water – a team of 40 volunteers, sub-contractors and designers have recently completed construction of the hemp house in Ashville, North Carolina. Eco-friendly design and construction company Push Design has gained the support of community members and local officials alike and now plans to build more of these houses, which offer exceptional strength and longevity, breathability, unsurpassed indoor air quality and two-pronged carbon sequestration attributes."

http://www.greenbuildingpress.co.uk/article_print.php?article_id=412

"Houses constructed from straw and hemp could become commonplace following the unveiling of a prototype scheme at the University of Bath. The BaleHaus@Bath, officially opened by Kevin McCloud, is constructed from prefabricated panels made of a structural timber frame infilled with straw bales or hemp and rendered with a breathable lime-based system. It is the creation of White Design in Bristol and Integral Structural Design in Bath and will be assessed by researchers at the university’s Centre for Innovative Construction Materials over the coming year to see if the materials can be used more widely in the industry for housing."

This new technique avoids the expensive hemp fibre separation process… meaning building your own hemp home is more affordable and environmentally friendly than ever!

If this is the case, why are we still constructing the heavy brick buildings of today trying to cut down material costs and 'saving' wherever we can.

I seem to find this very strange that the method has not popped up earlier.

Check this video out that was featured earlier this year on Top Billing revealing South-Africa's first 'Eco friendly Hemp Building'... I was amazed!

New design idea - World's most unusual houses

What do you consider an unusual house design...?
Is that the house with no front door, the one with funny shaped windows or is it just a den under the ground that makes you feel stuffed and suffocated with no light or ventilation and a serious lack of oxygen...
This is the question I kept on repeating to myself while scanning through these wonderful but weird designs. These few designs are only a few that made the top 10 most unusual houses in the world.

The Haines Shoe House, Hallem, Pennsylvania, USA

This house was built in 1948 by Mahlon N. Haines; also known as the 'Shoe Wizard of York' or the 'Shoe House'. This was a great example of mimetric architecture.

"Mimetric Architecture - Novelty architecture is a type of architecture in which buildings and other structures are given unusual shapes as a novelty, such as a shoe"

en.wikipedia.org/wiki/Mimetic_architecture

Haines was born in Ohio in 1875 and later in his twenties moved to York.

From small beginnings he built a shoe sales chain of more than 40 stores. He died at the of 87 in 1962. Haines was an enthusiastic philanthropist and lived by the mantra "I came into this world with nothing and I'd like to leave the same way." 

On his death Haines left the property to his employees who sold it in 1964 to Eleanor Hallman who ran it as an ice cream parlor for over 20 years.

The Hermit's Castle, Achmelvich, Scotland

The beautiful beach at Achmelvich on the Assynt peninsula of North West Scotland is worth a visit for the unspoilt scenery alone.

This tiny concrete castle - said to be Europe's smallest - was built by architect David Scott. Inside is one small room with a single concrete bed and fireplace, now occasionally used as a bothy by walkers. The building clearly held little allure for Scott - he left the area shortly after its completion.

* * * * * * * * * *

The Hermit’s Castle was built around 1950 out of concrete and was reputedly built by an artist from the south of England to use as a retreat. From the outside, the castle looks a bit like the concrete pillboxes that you see dotted around the coastlines of Britain. It seems to grow out of the surrounding rock and could easily be overlooked if not for the distinctive windows and chimney stack.

Takasugi-an Tea House, Chino, Nagano, Japan

The literal translation of this statuesque building designed by Japanese architect Terunobo Fujimori is "a teahouse [built] too high". It is six metres above the ground, atop two chesnut treetrunks - once you make it up of the ladders, it's a peaceful place to drink tea and watch the world go by.

Following the tradition of tea masters, who maintained total control over the construction of their tea houses, Fujimori designed and built the structure for his own use.

The interior is covered with plaster and bamboo mats.

The academician and architect, Terunobu Fujimori, has observed that a teahouse is “the ultimate personal architecture.” Its extreme compactness, which would at most accommodate four and a half tatami mats (2.7 square metres) or even just two tatami mats (1.8 square metres) of floor space, makes it feel as though it were an extension of one’s body, “like a piece of clothing.”

The tea masters traditionally maintained total control over the construction of these “enclosures,” whose simplicity was their main concern. They therefore preferred not to involve an architect or even a skilled carpenter – an act considered as being too ostentatious. Following this tradition, Fujimori decided to build a humble teahouse for himself and by himself over a patch of land that belonged to his family.

His interest as an architect, however, lay more in pushing the limit and constraints of a traditional teahouse rather than pursuing the art of tea making, and as a result, he has created a highly expressive piece of architecture.

To see more about these unique designs follow the link provided below:

http://www.telegraph.co.uk/property/propertypicturegalleries/9313950/Are-these-the-worlds-most-unusual-buildings.html?frame=2240605

http://www.dezeen.com/2009/03/12/takasugi-an-by-terunobu-fujimori/

Building Product - Everite roof sheets

Looking into the ‘knowledge’ of what and how to specify products on architectural plan submissions I am without a doubt stunned by how many gets this right!

Previously I have mentioned ‘asbestos’ making its appearance amongst my plans and I’m even more stunned to reveal that ‘yellow dakseel’ has returned as well! These are products that 'replaces those asbestos...

EVERITE Nutec Bigsix sheets are very durable lightweight sheets that can be used in all sectors in the building industry, varying from roofing i.e. sheets, slate tiles as well as cladding, ceiling boards, rainwater goods.

Nutec Bigsix sheets are supplied in their natural grey colour. Enhancing the aesthetics of the product – it can be painted with 100% acrylic PVA after installation. Painting not essential will further enhance the durability of the product, especially in highly polluted areas or chemical abrasive applications. In areas of high fungal growth, paint will reduce the frequency of routine maintenance. Paint can be applied by brush, roller or sprayed on.

'EVERITE's comprehensive range of Nutec fascias and barge boards have been designed to suit virtually any roof, whether slates, tiles or sheeting. They provide a functional finish by protecting the underlying timber structure from the elements, as well as adding visual impact to the building'

Typical Everite Nutec Bigsix Roof sheets specification :

Everite Nutec Bigsix roof sheeting with 875mm cover, fixed at a pitch of ___ ° to 50 x 76mm timber purlins at 1350mm centres with 90mm drive screws with Everseal washers at second and fourth crest of each sheet and minimum of 50mm from edge of sheet with mitred corners as required with minimum 225mm end laps, all in accordance with the manufacturer`s recommendations.

All specifications from the Auto spec website:

http://www.autospec.co.za/browse.php?id=1937211778

Start loving Nutec people... it's not that bad! Prove that Nutec roof sheets can look good.. When installed perfectly and according to specifications the aesthetics of this little one "Nutec Roof Sheets" can do wonders..

Also amongst them are the 'cladding and rainwater goods'. Here are some pictures showing the cladding look on industrial buildings as well as some fascias and gutters.

As seen above this product has a variety of functions and used in all building sectors. 

Another familiar face to the Everite range is the slate tile. Also looks neat when installed correctly and aesthetics is not bad at all. This house reminds me of a typical ship-lap beach house!

Typical Everite Slate Tile specification : 

Everite Nutec Black plain mitred roof slates, manufactured in accordance with SANS 803:2005, size 610 x 406 x 5mm thick, fixed at a pitch of ___°, each slate twice nailed with 40 x 2,8mm galvanised clout nails (Code : 605-133) to 38 x 38mm sawn softwood battens at 250mm c/c to 38 x 38mm counter battens and 12mm thick chipboard with (Sisalation® 405 Multi-purpose grade reinforced aluminium foil insulation double sided, light grammage, durable, reflective foil laminate incorporating layers of aluminium foil) with 100mm end and side overlap, between battens and counter battens, fixed to trusses with slates fastened together with copper disc rivets (Code : 605-011).

Nutec Tongue and Groove wood-grain textured flat sheets are manufactured from a combination of Portland cement, silica and organic fibres, and do not contain any asbestos fibres. These materials have considerable strength in their own right and will not deteriorate with age.

Tongue and Groove Textured Boards are of a medium density composition. They are supplied in a natural grey colour and can be varnished with wood stain to simulate timber. Various paint techniques achieve a realistic wood look at a fraction of the cost of timber and provide a pleasant aesthetic finish. The product is ideal for ceilings, internal & external wall panelling, door panelling and garden sheds.

All these product are available on their website : http://www.everite.co.za/portal/everite/Everite.aspx?PCID=88

For your interest - Energy Efficiency Link

Hi everyone,


I believe that the new Energy Efficiency in buildings, named the SANS 204 Part XA has been more than a challenge for some.
I have had a few test runs myself trying to convince myself if the calculations are right.
Being the Plans Examiner @ the NMBM, I came across a few handy documents that would help you out when doubting those very long and lengthy calculations.
Unfortunately I can not put the document on the blog because you will have to purchase this from the 'author' himself. a Demo version is available on request. 
So... all the architects following my blog here goes:

Send your purchase request to The Drawing Studio at:  drawingstudio@afrihost.co.za  or fax them at: 086 649 7887. You are also welcome to visit the "smart glass" website for their fenestration schedule. To purchase the full SANS document visit the SABS website at the following link: https://www.sabs.co.za/webstore/standards/product.php?id=1400025022