Civil Engineering

Transparent Concrete

Concrete is being used since very old times. It is used since roman age for the development, housing and infrastructure. But the materials used in the concrete is been not changed. Concrete is majorly made of the three components, cement which is a very fine powder and acts as binder, fine aggregate, which comprises of small and fine sand particles, Coarse aggregate, which comprises of large to medium pieces of the stone or gravel.

Read more..

Transparent Concrete project Looking to build projects on Civil Engineering?:

Civil Engineering Kit will be shipped to you and you can learn and build using tutorials. You can start for free today!

1. GIS

2. Structural & Foundation Analysis

3. CPM & BIM

4. Tall Building Design

5. Construction Technology (Career Building Course)

6. Foundation Design

7. Construction Project Management

8. Building Information Modelling

9. Seismic Design

10. Quantity Surveying

11. ETABS Software

12. Project Management with Primavera


Now-a-days concrete is not a grey and heavy material. It is becoming lively and beautiful day by day. New developed concrete is being created by the researcher’s day by day which are like more resistant, whiter, lighter, coloured etc…

The transparent concrete is obtained when the fine concrete is combined with the optical fibres. The main aim of transparent concrete is to allow the sunlight into the building and less the electrical energy consumption up to some extent. It is also less in weight when compared to the traditional concrete.

Requirements:

Knowledge of Concrete Technology.

Knowledge of Mix Design.

Cement (Used as binder material between the materials)

Fine and Coarse Aggregate (filling the voids and giving additional strength)

Optical Fibers Elements

Water

Project Implementation:

  1. First a mould of required shape and size is prepared, wood is used for making the mould.
  2. The optical fibres are cut such that they do not be more than the mould shape.
  3. Holes are made to the mould and the optical fibre is made to pass through it. Alternatively, we can do layer by layer also.
  4. Concreting is done carefully by putting in with less quantities and vibrating so that no voids are formed.
  5. Mould is removed after 24 hours, and left undisturbed for more 24 hours.
  6. The extra fibers are cut carefully and polish the panel surface using sand paper.
  7. Test can be made on this concrete to check its compressive test, flexural strength, etc…

Latest projects on Civil Engineering

Want to develop practical skills on Civil Engineering? Checkout our latest projects and start learning for free

Start for free

Software Requirements:

  • If you need to plot the graph for the values you can use software like MS-Excel, Origin Pro etc…

Advantages:

  • By using this concrete, you can illuminate the walls.
  • Natural light captured into the building will be more.
  • Can be used to make the pavement light at night.
  • You can make many numbers of design by using this concrete and as it is bad conductor electricity connection can be made without any fear.

Disadvantages:

  • It is very difficult to make these concrete and skilled labour is required.
  • It is also costly ass we are introducing the optical fibers into cement.

Conclusion:

We can even develop this project by introducing glass fiber or large glasses. This transparent concrete has good light guiding properties.


How to build Civil Engineering projects Did you know

Skyfi Labs helps students learn practical skills by building real-world projects.

You can enrol with friends and receive kits at your doorstep

You can learn from experts, build working projects, showcase skills to the world and grab the best jobs.
Get started today!


Kit required to develop Transparent Concrete:
Technologies you will learn by working on Transparent Concrete:
Transparent Concrete
Skyfi Labs Last Updated: 2022-04-16




Join 250,000+ students from 36+ countries & develop practical skills by building projects

Get kits shipped in 24 hours. Build using online tutorials.

Start Learning

More Project Ideas on Civil

Portable incenerator
All about Green Buildings
Water Tank
Utilization of demolished concrete
What are Pavements? How to Design a Pavement?
Design of water tank
Application and properties of FRC
STABILIZATION OF SOIL USING Rice Husk Ash
Seismic evaluation of irregular structures
Application and properties of fiber reinforced concrete
Communication tower design
DESIGN OF WATER TANK
Application and properties of fiber reinforced concrete
Seismic evaluation of irregular structures
STABILIZATION OF SOIL USING Rice Husk Ash
Plastic roads
Learn About Advanced Earthquake Resistant Techniques
Study on Rubberized Concrete
PAVEMENT DESIGN
Pavement Illumination
Litracon - Translucent concrete
Protecting Older Buildings from Earthquake by Coating
Canvas Concrete
Rubber Dams
Smog Eating Tiles
Railway Embankment Improvement Technique
Stability Design of Multi-Storey Timber Structure
Response of concrete Arch Dam due to Temperature Variation
Crack Width of Retard Bonded Partially Pre-stressed Concrete Beam
Preparation of Activated Carbon from locally available material Viz. is Coconut shell
Fabrication and Testing of Fiber Reinforced Polyester Composite Material
Project on Ground Improvement using Stone Column
Stabilization of Expansive Soil using Sugarcane Straw Ash
Soil Sub-grade Improvement using Human Hair Fiber (HHF)
Coarse Aggregates Replacement with Jhamma Bricks(Concrete Prep)
Comparison of Strength Characteristics of Concrete Made by TSMA using Fly Ash and Nominal Concrete Made by NM Approach
River Level Monitoring for Flash Flood Warnings
Treatment of Wastewater using Membrane Bioreactors
Analysis of Excavation in soil using PLAXIS 2D
Analysis of Diagrid Structure using ETABS
Wastewater Treatment Plant Design Project
Soil Bio-engineering
Railway Embankment Improvement Technique
Partial Addition of Lime in Mortar
Papercrete Clay Brick
Impact of Truck on Bridge Piers
Eco-Friendly Self-Curing Concrete
Reinforced Soil and Its Engineering Applications
Wastewater treatment using Electrocoagulation process
Mivan Formwork Technology
Use of Recycled Construction and Demolition Waste Materials in Soil Stabilization
Application of UAV mapping system
Self-Healing Concrete
Floating Foundation
Net-Zero Energy Buildings
Green Roof Technology
Three-Dimensional Geologic Modelling
Passive Solar Buildings
Groundwater Exploration using Remote Sensing and GIS
Silica Fume Concrete
Modular Buildings
Reinforced Brick Masonry Techniques in Civil Engineering
Numerical simulation of wind flow
Retrofitting Using FRP Laminates
Parking management in urban areas
Automated Highway System
All About Buildings With Photovoltaic Glazing System
Floating Construction
Hybrid bricks
Hybrid Bricks
Application of Augmented Reality in Construction
Permeable Concrete
3D Printed Houses
Seismic Vulnerability Assessment of Existing Buildings using GIS
Determination of California Bearing Ratio of Soil using Dynamic Cone Penetrometer
Post-tensioned Foundation Slab
Applications of Ferrocement Members made of Self Compacting Concrete
Soil Stabilization with Plastic
Effect on compressive strength of concrete with the addition of solid waste
Non-destructive Testing of Concrete
Bamboo as a building material
Soil liquefaction
Cellular Lightweight Concrete
Solid Waste Management Using GIS
Arsenic Removal from Groundwater by Coagulation Process
Composite Roofing Tiles
Automated Flow Regulation for Canal
Application of Nanotechnology in Construction Industry
Blast Resisting Structures
Ground Water Quality Assessment
Land Use and Land Cover using GIS
Partial Replacement of Coarse Aggregate with Demolished Waste
Design of Flexible Pavement
Fabrication of composite using cactus and coconut fibre
Everything You Need To Know About U-Boot Beton technology
Design of Intersection
Waste Polythene in Bitumen
Sugarmill waste in construction
Use of Coconut Charcoal in Pavement as filler
Use of Aluminium In Building Construction
Waterproofing of Roof With Discarded Tyre Rubber Crumb
Geo Polymer Brick
Adsorption of Fluoride Using Nanoparticles of Aluminium Oxide
Causes, Prevention and treatment of damp in buildings
Cement Stabilized Masonry Interlocking Blocks
Electricity Generation from sugar mill waste using microbes
Treatment of Effluent With Teak Leaves and Banana Trunk
Imporvement of Bearing Capacity of Sandy soils by grounting
Preparation of Concrete using Gold Mine Waste
Hydropower using Treated Sewage Water
Noise Absorbing materials using Agro Waste Products
Artificial Turf
Water Purification using the Pedal System
Measurement of soil water Using Ground penetrating Radar
Soil stabilization using Plant Roots
Comparative analysis of multi storey building with and without soft storey for seismic actions
Effect of shear wall on l-shaped buildings
Soil stabilization by using bio-polymers
Autoclave aerated blocks
Light transmitting concrete
Removal of fluoride from water using iron oxide-hydroxide nanoparticles
Everything You Need To Know About Castellated Beams(with Uses)
Application of smart toilet
Thermal bridging
Road power generation
Modular construction methods
Applications of BIM
Replacement of chemical fertilizers by biofertilizers
Osteoporosis
Economic factors in construction product quality
Environmental interior design
Factors affecting E-learning
Steel angle and strip jacketing
Collision avoidance system
Comparative analysis when cement is replaced by rice husk and glass powder
ANN for Predicting Concrete Compressive Strength
Green Concrete
Use of Bamboo in soil Improvement
Hybrid Solar Energy
Hydrogen Super Highway
Coconut Shell as Capping For Sand in Rapid Sand Filters
Reactive Concrete
Analysis of Beam with UDL by ANSYS Mechanical APDL
Soil Stabilization using Stone Column
Transparent Concrete
Waste Plastic Fuel used in Petrol Engine
Bubble Deck Slab
Earthquake Analysis of buildings using ETABS
Analysis of wind load on buildings of various heights using ETABS
Dynamic analysis of a residential building using ETABS
Structural analysis and design of a multistoreyed building with grid slabs
Retrofitting of reinforced concrete frames using steel bracings
Studying the seismic response of TC building connected with and without x-braced friction dampers
Seismic Analysis of a Multi-storeyed Building with Floating Columns
Structural Analysis of a High rise Building with different Plan Configurations using the ETABS software
Designing an Earthquake resisting open ground storey building
Study of lateral load resisting system of variable height in all soil types of high seismic zone
Building Information Modelling
Quantity Surveying

Subscribe to receive more project ideas

Stay up-to-date and build projects on latest technologies