3 Awesome Construction Material Innovations | The B1M | Summary and Q&A

TL;DR

New developments in construction materials include self-healing concrete, energy harvesting paving slabs, and 4D printed objects.

Key Insights

• 🤳 Self-healing concrete with bacteria-filled microcapsules can prevent cracking and corrosion in structures, extending their lifespan and reducing maintenance costs.
• 🈸 Energy harvesting paving slabs that generate electricity from footsteps have applications in permanent installations and temporary events.
• 👻 4D printing allows for objects to reshape or self-assemble over time, offering potential applications in various industries like plumbing, medicine, and fashion.
• 🏗️ The innovation in construction materials contributes to a more sustainable and efficient built environment.
• 😒 The use of recycled materials, like tires, in energy harvesting paving slabs demonstrates a focus on environmental sustainability.
• ✊ The ability to generate electricity from pedestrians' footsteps can contribute to renewable energy generation and reduce reliance on traditional power sources.
• 👻 The flexibility of 4D printed objects allows for adaptability and customization in various fields, enhancing functionality and performance.

Transcript

numerous innovations in technology are fast advancing the world of construction materials bringing new products to market that could make a big difference to our built environment here we take a look at three particularly impressive developments while cement is one of the most widely used materials in construction for its strength and durability pr... Read More

Questions & Answers

Q: How does self-healing concrete work and what benefits does it offer?

Self-healing concrete uses microcapsules with calcite precipitating bacteria that germinate and produce limestone to fill cracks when water enters. This prevents corrosion and extends the lifespan of concrete structures, reducing maintenance costs.

Q: How do energy harvesting paving slabs generate electricity and what are their potential applications?

Pavegen's energy harvesting paving slabs flex when stepped on, generating kinetic energy that is converted into electricity. They can be installed permanently or temporarily, and have been used in Olympic parks and under football pitches. The tiles can also transmit data on their performance.

Q: What is 4D printing and how does it work?

4D printing involves strategically positioning expandable and rigid materials in 3D printing, allowing the components to reshape or self-assemble when exposed to stimuli like water, heat, or light. Software programming enables the components to be pre-programmed before creation.

Q: What are some potential applications of 4D printing?

4D printing has potential in various fields like plumbing (self-repairing water pipes, valves), medicine (adaptive implants), clothing and footwear (adaptation to climatic conditions), and childcare products (temperature-responsive items).

Summary & Key Takeaways

• Researchers at the University of Bath are developing self-healing concrete that uses bacteria to fill cracks and prevent corrosion, extending the lifespan of structures.

• Pavegen has created energy harvesting paving slabs that generate electricity from footsteps, with applications for permanent installations and temporary events.

• 4D printing, developed at MIT, allows for 3D printed objects to reshape or self-assemble over time through the use of expandable materials and certain stimuli.