A new load-bearing material mimics human cartilage

Image: the interface between the hydrogel (left-hand side) and the PDMS (on the right-hand side). The image was taken at 100,000 times magnification. Credit: University of Leeds.

Image: the interface between the hydrogel (left-hand side) and the PDMS (on the right-hand side). The image was taken at 100,000 times magnification.

Credit: University of Leeds.

A new load-bearing material mimics human cartilage

Engineers have developed a material that mimics human cartilage – the body’s shock absorbing and lubrication system, and it could herald the development of a new generation of lightweight bearings.

Cartilage is a soft fibrous tissue found around joints which provides protection from the compressive loading generated by walking, running or lifting. It also provides a protective, lubricating layer allowing bones to pass over one another in a frictionless way.

For years, scientists have been trying to create a synthetic material with the properties of cartilageTo date, they have had mixed results.

But in a paper published in the journal Applied Polymer Materials, researchers at the University of Leeds and Imperial College London have announced that they have created a material that functions like cartilage. 

The research team believes a cartilage-like material would have a wide-range of uses across engineering.

Nature’s cushion

Cartilage is a bi-phasic porous material, meaning it exists in solid and fluid phasesIswitches to its fluid phase by absorbing viscous substance produced in the joints called synovial fluid. This fluid not only lubricates the joints but when held in the porous matrix of the cartilage, it provides a hydroelastic cushion against compressive forces.

Because the cartilage is porous, the synovial fluid eventually drains away and as it does, it helps dissipate the energy forces travelling through the body, protecting joints from wear and tear and impact injuries. At this point the cartilage returns to its sold phase, ready for the cycle to be repeated.

‘Many potential applications’

Dr Siavash Soltanahmadi, Research Fellow in the School of Mechanical Engineering at Leeds, who led the research, said: “Scientists and engineers have been trying for years to develop a material that has the amazing properties of cartilage. 

“We have now developed a material for engineering applications that mimics some of the most important properties found in cartilage, and it has only been possible because we have found a way to mimic the way nature does it.

“There are many applications in engineering for a synthetic material that is soft but can withstand heavy loading with minimum wear and tear, such as in bearings. There is potential across engineering for a material that behaves like cartilage.” 

Earlier attempts at developing a synthetic cartilage system have focused on the use of hydrogels, materials that absorb water. Hydrogels are good at reducing friction but perform poorly when under compressive force. 

One of the problems is that it takes time for the hydrogel to return to its normal shape after it has been compressed.

The researchers have overcome this problem by creating a synthetic porous material made of a hydrogel held in a matrix of polydimethylsiloxane or PDMS – a silicone-based polymer. The matrix keeps the shape of the hydrogel.  

The hydrogel also provided a lubricating layer. 

In the paper, the scientists report that the load-bearing behaviour of the hydrogel held in the PDMS matrix was 14 to 19 times greater than the hydrogel on its own. The equilibrium elastic modulus of the composite was 452 kPa at a strain range of 10%-30%close to the values reported for the modulus of cartilage tested.

See Also

Water as an effective lubricant

The scientists believe future applications of a new material based on the function of cartilage could challenge many traditional oillubricated engineering systems.

Dr Michael Bryant, Associate Professor in the School of Mechanical Engineering, who supervised the research, said: “The ability to use water as an effective lubricant has many applications from energy generation to medical devices. However this often requires different approach when compared to traditional engineering systems which often use oilbased lubricants and hardsurface coatings.

“This project has helped us to better understand these requirements and develop new tools to address this need.” 


Original Article: Inspired by nature, the research to develop a new load-bearing material

More from: University of Leeds | Imperial College London


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