Purdue University civil engineers have developed innovative materials that can dissipate energy caused by bending, compression, torque, and tensile stresses without sustaining permanent damage. These intelligent architected materials may also possess shape memory properties, making them reusable while enhancing safety and durability.
The research, led by Professor Pablo Zavattieri, believe the new class of adaptable materials offer potential uses in multiple industries, such as earthquake engineering, impact-resistant structures, biomedical devices, sporting goods, building construction, and automotive components. The technology is currently being tested for 3D-printed panels for aircraft runway mats and nonpneumatic tires for military vehicles, providing resistance to punctures and leaks while maintaining performance in various terrains.
Purdue develops intelligent architected materials
“These materials are designed for fully recoverable, energy-dissipating structures, akin to what is referred to as architected shape memory materials, or phase transforming cellular materials, known as PXCM,” Zavattieri said. “They can also exhibit intelligent responses to external forces, changes in temperature, and other external stimuli.”
These materials can be created from various substances, such as polymers, rubber, and concrete, as long as they remain within the elastic range. They are designed to deform in controlled and programmable ways, providing enhanced energy absorption and adaptability. For the aircraft runway mats, Zavattieri sees the material aiding in self-healing properties, resulting in a longer life span than a runway made with AM-2 matting. "Another benefit is that debris on the runway will not hamper the runway’s performance with our technology," he says.
The Purdue researchers have demonstrated scalability from macro to micro applications and an improvement over traditional lightweight cellular materials.
“We have produced intelligent architected materials as large as 12 inches, which are ideal for applications like building and bridge construction to absorb and harness energy,” Zavattieri said. “Conversely, we have created materials with unit cells smaller than the thickness of a human hair. This scalability opens up a world of possibilities from macro to micro applications.”
The research has received funding from organizations like General Motors, ITAMCO (Indiana Technology and Manufacturing Companies), the National Science Foundation, and the U.S. Air Force. Additionally, patents have been filed to protect the intellectual property, and industry partners interested in commercializing the materials for the marketplace should contact Dipak Narula, Assistant Director of Business Development and Licensing in Physical Sciences, at dnarula@prf.org about 2018-ZAVA-68252, 2019-ZAVA-68691, 2020-ZAVA-69072 and 2022-ZAVA-69900.
Related Stories
| Jan 4, 2011
6 green building trends to watch in 2011
According to a report by New York-based JWT Intelligence, there are six key green building trends to watch in 2011, including: 3D printing, biomimicry, and more transparent and accurate green claims.
| Dec 17, 2010
Gemstone-inspired design earns India’s first LEED Gold for a hotel
The Park Hotel Hyderabad in Hyderabad, India, was designed by Skidmore, Owings & Merrill to combine inspirations from the region’s jewelry-making traditions with sustainable elements.
| Dec 17, 2010
Subway entrance designed to exude Hollywood charm
The Hollywood/Vine Metro portal and public plaza in Los Angeles provides an entrance to the Red Line subway and the W Hollywood Hotel. Local architect Rios Clementi Hale Studio designed the portal and plaza to flow with the landmark theaters and plazas that surround it.
| Dec 17, 2010
Cladding Do’s and Don’ts
A veteran structural engineer offers expert advice on how to avoid problems with stone cladding and glass/aluminum cladding systems.
| Dec 7, 2010
USGBC: Wood-certification benchmarks fail to pass
The proposed Forest Certification Benchmark to determine when wood-certification groups would have their certification qualify for points in the LEED rating systemdid not pass the USGBC member ballot. As a result, the Certified Wood credit in LEED will remain as it is currently written. To date, only wood certified by the Forest Stewardship Council qualifies for a point in the LEED, while other organizations, such as the Sustainable Forestry Initiative, the Canadian Standards Association, and the American Tree Farm System, are excluded.
| Dec 7, 2010
Product of the Week: Petersen Aluminum’s column covers used in IBM’S new offices
IBM’s new offices at Dulles Station West in Herndon, Va., utilized Petersen’s PAC-1000 F Flush Series column covers. The columns are within the office’s Mobility Area, which is designed for a mobile workforce looking for quick in-and-out work space. The majority of workspaces in the office are unassigned and intended to be used on a temporary basis.
| Nov 11, 2010
Saint-Gobain to make $80 million investment in SAGE Electrochromics
Saint-Gobain, one of the world’s largest glass and construction material manufacturers, is making a strategic equity investment in SAGE Electrochromics to make electronically tintable “dynamic glass” an affordable, mass-market product, ushering in a new era of energy-saving buildings.
| Nov 11, 2010
Saint-Gobain to make $80 million investment in SAGE Electrochromics
Saint-Gobain, one of the world’s largest glass and construction material manufacturers, is making a strategic equity investment in SAGE Electrochromics to make electronically tintable “dynamic glass” an affordable, mass-market product, ushering in a new era of energy-saving buildings.
| Nov 5, 2010
New Millennium’s Gary Heasley on BIM, LEED, and the nonresidential market
Gary Heasley, president of New Millennium Building Systems, Fort Wayne, Ind., and EVP of its parent company, Steel Dynamics, Inc., tells BD+C’s Robert Cassidy about the Steel Joist Manufacturer’s westward expansion, its push to create BIM tools for its products, LEED, and the outlook for the nonresidential construction market.
| Nov 3, 2010
Sailing center sets course for energy efficiency, sustainability
The Milwaukee (Wis.) Community Sailing Center’s new facility on Lake Michigan counts a geothermal heating and cooling system among its sustainable features. The facility was designed for the nonprofit instructional sailing organization with energy efficiency and low operating costs in mind.
