You are here

Hillside foundations get a shake-up in cutting edge testing

New shake testing of house foundations aims to ensure homes built on slopes are better able to withstand future earthquakes.

The Earthquake Commission (EQC) and BRANZ, together with Victoria University, have been testing different foundations on a Hutt Valley farm to investigate how to reduce earthquake damage to timber homes on hills.

Project lead Roger Shelton from BRANZ says research following the Canterbury quakes showed that the same level of shaking caused more damage to homes in Port Hills areas like Cashmere and Redcliffs than it did to homes on the flat.

Project lead Roger Shelton from BRANZ

BRANZ identified that much of the damage was caused because the foundations of homes on slopes performed poorly in the earthquakes.

“Houses built on slopes may have foundations that are significantly taller at one end than the other, or there may be different types of foundation under the same home,” says Mr Shelton.  “This can result in a twisting motion, making earthquake damage more likely.”

BRANZ recognised that New Zealand timber building standards were based on historic practices, and testing on level sites with loadings considerably below than those on a sloping site.

With many New Zealand homes built on hills, especially in earthquake-prone areas like Wellington, EQC and BRANZ decided to invest in this vital research to better understand the problem.

Mr Shelton says the best way to find out what happens to foundations in an earthquake was to build a field laboratory and “create a shake”.

“We built four different types of foundations on a sloping paddock north of Wellington, using pile foundations, and combinations of piles and foundation walls,” he says. “The team used details from the building standard NZS 3604, as well as older, more traditional foundation details. 

“We added dead weight to the floors of each foundation to replicate the true mass of the house and used a counter-rotating shaker to simulate an earthquake,” says Mr Shelton. 

“During the process, we stop at stages before the foundations are irreparably damaged and try out techniques to reduce damage – then start the shaking again,” says Mr Shelton. He hopes that his project will provide updated guidance for house foundations on sloping sites for new homes, as well as existing properties.

Roger Shelton pointing at damage to foundations

“We also hope this project will provide approximate costs for different techniques that homeowners can use to strengthen foundations under their existing houses,” he says.

Dr Jo Horrocks, Head of Resilience Strategy and Research at EQC, says her organisation was keen to partner up with BRANZ because this testing was a great piece of very practical research.

“It’s all about all about making New Zealand homes more resilient to earthquakes. 

“A lot of houses in New Zealand towns are built on slopes. It’s important we understand what’s going to work best on that type of land, not just on flat land, where most of the research has been done until now,” she says.

Dr Jo Horrocks, Head of Resilience Strategy and Research at EQC at shake site

The BRANZ team expects to have the full results of the testing available in June.


Caption 1: Project lead Roger Shelton from BRANZ at the Hutt Valley test site.

Caption 2: Roger Shelton inspects at the foundations after the shake testing.

Caption 3: EQC’s Head of Research and Resilience Jo Horrocks at the shake test site outside of Wellington.

For more information please contact:

BRANZ Senior Communications Manager Joanna Martin
DDI: 04-8976288

EQC Media Manager Coen Lammers

Page last updated: