Science & Technology

IIT Guwahati Researchers Develop 3D Printing Technology to cut Concrete Use By 75%

:- Researchers from Sustainable resources for Additive Manufacturing (SReAM), IIT Guwahati developed new cementitious mix compositions, amenable for 3D printing ;- The concrete printer jointly developed by IIT Guwahati and DELTASYS E FORMING is capable of printing components up to 1 m long, 1 m wide and 1 m tall

From Left- DODDA SRINIVAS, PhD Scholar_ Dhrutiman Dey, PhD Scholar_ Bhavesh S. Chaudhari, project staff

 

GUWAHATI,  : Indian Institute of Technology Guwahati researchers (Dhrutiman Dey, Dodda Srinivas, and Bhavesh Chaudhari) have developed a 3D printed urban furniture using construction material made from local industrial wastes.

Researchers from the Sustainable resources for Additive Manufacturing (SReAM) at IIT Guwahati have developed new cementitious mix compositions, amenable for 3D printing. The concrete printer jointly developed by IIT Guwahati and DELTASYS E FORMING is capable of printing components up to 1 m long, 1 m wide and 1 m tall. The complete cycle for 3D-printed urban furniture took about 20 minutes to complete.

Concrete 3D printing is gaining momentum in the building and construction industries. Recent developments in this field such as 3D printed modular houses, pedestrian footbridges, office buildings, public schools, low-cost toilet units have the potential to initiate a paradigm change in the practice of construction.

 

The IIT Guwahati Research Group used a specially-developed printable concrete containing industrial wastes as binders to build 3D printed furniture with a seating height of 0.4 m, a width of 0.4 m, and arch-shaped support that was modelled and sliced using SolidWorks and Simplify3D, respectively. The entire unit was printed layer by layer at an 80 mm/s speed, with each layer having a 10 mm height. After the unit was printed, it was covered by moist gunny bags for 7 days to cure before being used.

Traditionally, these structures were mold casted which requires more concrete material, labour, and formwork preparation. However, with 3D concrete printing, optimized designs are printed with 75 per cent less concrete and without the need of mold.

Speaking about this Research, Dr. Biranchi Panda, Department of Mechanical Engineering IIT Guwahati, said, “We showcased how material-efficient structures can be produced in our lab scale 3D printer. Our goal is to design high performance concrete mixes made from industrial wastes for printing of such complex structures.”

 

The team is now exploring underwater concrete printing and the possibility of printing functional reinforced concrete using low carbon materials. Developments related to process automation, advanced print head design are the ongoing project in the PI team, funded by the Department of Science and Technology (DST), India.

 

Highlighting the unique aspects of this research,  Prof. T. G. Sitharam, Director, IIT Guwahati said, “3D printing of concrete can be a technological solution for reducing carbon footprint in building and construction industry. From Indian context, techno-economic analysis must be carried out that take into account not only the environmental sustainability but also aspects relating to cost, quality, labor, and maintenance associated with 3D printing.”

The research team believes that the on-demand, on-site 3D concrete printing will definitely have a global impact on versatile construction applications and multi-billion-dollar market worldwide. The future jobs will be marshalled into design, automation, servicing, and maintenance of the digital systems.

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