Translucent Concrete

INTRODUCTION
Translucent concrete is a light transmitting concrete based building material. It works on the property of Nano-Optics. Its light transmitting is mainly due to uniform distribution of high numerical aperture Plastic Optic Fibres (POF) and hence it is also known as LiTraCon.It is produced by adding about 4% to 5% of optical fibres by volume in concrete mix. It was first mentioned in a Canadian Patent in the year 1935. As polymer based optical fibres and optical glass fibres were developed, it led to the increased rate of invention in this field.

Fig 1 Translucent Concrete building known as Lucem GmbH
Fig 1: Translucent Concrete building known as Lucem GmbH
COURTESY: BFT INTERNATIONAL


MATERIALS USED
Some of the materials used in production of Translucent concrete are-
1) Cement– It is a binder material that sets and hardens after a definite period of time depending upon its type. Portland cement is the most common type used in constructions.

2) Fine aggregates- It is a chemically inactive material which serves the purpose of filling the voids in coarser particles. Hence it increases the strength and reduces porosity. Sand is mostly used for this.

3) Coarse aggregate- This includes crushed granite, crushed hard basalt chips, etc.

4) Water- It should be free from all kinds of acids, alkalies, oils or other organic impurities.

5) Optical Fibres- An optical fibre consists of three kinds of elements:
• Core – It is a thin glass center of the fibre through which light emits.
• Cladding – It is the outer optical material which surrounds the core and it reflects light back to the core.
• To keep the reflection in the core the refractive index of the core must be greater than that of cladding.
• Buffer coating- It is a plastic coating which protects the fibre from any kind of damage.

Fig 2 Optical Fibre
Fig 2: Optical Fibre
COURTESY: BRITANNICA

Also, other types such as Multimode Fibre, Single-mode Fibre, Multimode Step-Index Fibre, Multimode Graded-Index Fibres are used.

6) Waste Glass- These are collected from industrial wastes and are hammered, crushed into smaller pieces.

7) Superplasticizers- Examples are Neoplast, Glenium, Polyplast SP HPC.

MANUFACTURING PROCESS
Various steps involved are-
1) Mould of steel or wood is prepared of rectangular size. Clay or mud are placed on the sides for easy demoulding as optical fibres are exposed to the mould.

Fig 3 Mould of translucent concrete
Fig 3: Mould of translucent concrete
COURTESY: SSRG INTERNATIONAL JOURNAL OF CIVIL ENGINEERING (SSRG-IJCE)

2) The optical fibres are cut in such a way that it can be placed perfectly inside the mould.

3) The optical fibres are placed in layer wise. Also, holes are driven on steel or wooden plate to let those fibres pass through.

4) The concrete mixture is then poured slowly with caution so that no disturbance is created to the optical fibres beneath.

5) Accumulation of void is prevented with the help of vibrating tables.

6) After 24 hours, the mould is removed and the mud is pulled off.

7) Then the extra-long fibres are cut to the same size as thickness of panel.

8) The surface is then polished with the help of sand paper or polishing paper resulting in finishes ranging from semi-gloss to high gloss.

PROPERTIES

Product LiTraCon (Light Transmitting Concrete)
Density 2100- 2400 kg/m2
Form Pre-fabricated blocks
Ingredients 96% concrete, 4% optical fibre
Block size 600 mm x 300 mm
Thickness 25-500 mm
Colour White, grey or black
Fibre Distribution Organic
Finished Polished
Compressive Strength 50 N/mm2
Bending Tensile Strength 7 N/mm2

APPLICATIONS
Some of the applications of translucent concrete are-
• It can act as a building material for interior and exterior walls. The rays of sun on falling on such concrete hits at a lower angle resulting in bigger intensity of light.

Fig 4 Wall made from translucent concrete
Fig 4: Wall made from translucent concrete
COURTESY: HOME DESIGNING

• It can be used as a pavement block. Also, it gives a shiny appearance during sunset and during daytime it perfectly seems as a concrete block.

• It can be used as partition walls between dining room and hall.

• It can be used in furniture either for decorative purposes or can be used in handles.

Fig 5 Bar unit made of translucent concrete
Fig 5: Bar unit made of translucent concrete
COURTESY: HOME DESIGNING

• It can be used to illuminate speed breakers on highways at night.

• It can be used in aircrafts or in buildings for showing the path to emergency exits.

• It can be also used on load bearing walls.

• It can light up dark subway stations.

ADVANTAGES
Some of the special features which makes it attractive to be used in construction includes-
• Low density
• Low thermal conductivity
• Reduces dead weight
• Increases rate of construction
• Lower handling cost
• Reduces carbon emission
• Can be treated as high performance concrete
• Increases aesthecity
• Reduces power consumption.

DISADVANTAGES
Although such concrete is beneficial for use yet they posses some drawbacks which cannot be neglected. Some of them are-
• High cost of optical fibres.
• Requires skilled labours and supervision for casting.
• Cannot be used in column and beams as they do not possess much strength.
• Not effective from inspection point of view.
• Not effective where rays of sunlight do not fall.
• Maybe dangerous in handling as glass pieces are there.

FUTURE SCOPE
Since the cost of Translucent concrete is very high so it may take years to fit in the construction industry. Some manufacturing companies of such concrete are-
• FlorakBauunternehmung GmbH, Heinsberg/Germany.
• LBM EFO, Berching/Germany.
• LiTraCon Bt, Csongrád/Hungary.
• LUCEM GmbH, Aachen/Germany.
• LucconLichtbeton GmbH, Klaus/Austria.
• LiCrete, by Gravelli/Czech Republic.

These companies are working to create more affordable translucent concrete products through licensing in future and large-scale production. If more buildings use such concrete then lower power consumption will lead to a great climate change and hence more natural lights can be used. More electricity bills can be saved and health of people can be improved with natural light since many people are deficient in Vitamin D due to lack of sunlight and their bones become weak. So, this is another reason for growth of business.

CONCLUSION
Transparent concrete has good light guiding property. The ratio of optical fibre volume to concrete is proportion for perfect transmission. It does not lose its strength parameter as compared to regular concrete and it has best architectural appearance. This type of concrete will help in building greener earth and energy saver with its self-sensing property. Although its cost is more, in place of glass fibres plastic fibres can be used to reduce cost so that it can be used by all classes of people but it may also result in low light transmission. Its aesthecity is appealing to people and hence it is more used for making beautiful surroundings rather can structural point of view in case of load calculations. As time passes many industries are coming forward to adopt such innovation by making changes in its property so that they can deliver a better future.

REFERENCES
• Slideshare, “Translucent Concrete”- https://ift.tt/2TtW6lu
• Researchgate, “Decorative light transmitting concrete based on crushed concrete fines”- https://ift.tt/3cVvWjc
• Madhav University, “Transparent Concrete”- https://ift.tt/2ZudHxw
• Wikipedia, “Translucent Concrete”- https://ift.tt/36khWNu
• International Journal of Scientific &Technology Research Volume 7, Issue 4 , Apr 2018, “Application Of Transparent Concrete In Green Construction” – https://ift.tt/3cVw2ay
• Home Designing, “Amazing Translucent Concrete Opens a New World of Design Ideas”- https://ift.tt/1Glq3Y4



from Civil Engineering Portal https://ift.tt/2WTzddj