Harbour Royal Weathertightness Survey | Aamsko Auckland
Harbour Royal Apartments – Aamsko’s Weathertightness Documentation & Diagnostic Process Project: 88 Anzac Avenue, Auckland CBDClient: Body Corporate 170878Consultants: Aamsko (NZ Property Practice Ltd) and Zenith Facilities Services Ltd At Harbour Royal Apartments—an eleven-storey residential complex in the heart of Auckland’s CBD—the passing of time had begun to reveal early weathertightness vulnerabilities. Built in 1995 under the Building Regulations Act 1992, the building featured a direct-fixed EIFS cladding system (Insulclad), which had reached the edge of its expected service life. Following initial investigations by KRT Building Consulting, the Body Corporate engaged Aamsko and Zenith Facilities to document the condition of the building envelope and perform a detailed diagnostic analysis of water ingress at apartments 10C and 11C. Background & Initial Observations KRT’s preliminary building inspection in late 2022 had noted that the external cladding and joinery had met their 15-year durability requirements under the Building Code but showed signs of aged repairs and deterioration. Cladding joints had been repeatedly patched with sealant—a short-term fix that had ultimately failed under long-term weather exposure. KRT identified a lack of critical components such as air barriers and wall underlays, raising concern about internal damage hidden behind the cladding. Their invasive inspection at apartment 10C revealed water damage related to weak horizontal joints, with leaks tracking through the EPS (expanded polystyrene) panels and into the wall structure. These findings set the stage for Aamsko’s more detailed investigation, which aimed to define not only where water was getting in, but how and why—and to establish a repair methodology that would be fit for purpose over the long term. External Survey & Rope Access Inspection Zenith Facilities conducted a rope-access survey of the entire external façade in March 2023. This identified widespread issues with cladding alignment, sealant failures, corrosion around panel joins, and poorly executed historic repairs. Most notably, the original design drawings showed that head flashings and parapet cap flashings had been specified—but never installed. This omission left critical areas of the building exposed to uncontrolled moisture entry. Misalignment at panel joints, rust bleeding through surface coatings, and deteriorated silicone joints were particularly evident on the north-west and southern elevations. Apartments 10C and 11C were flagged for detailed inspection due to repeated water ingress reported by the residents and building manager. Invasive Inspections at Units 10C & 11C On 15 May 2023, Zenith performed targeted invasive inspections in units 10C and 11C. Wall linings were removed to access internal steel framing and confirm the source and extent of moisture damage. Key findings included: In both apartments, the steel framing met minimum standards for EPS cladding support, but the overflow and pooling of water due to poor drainage and detailing was clearly evident. Balcony Cavity Borescope Inspections Using a borescope, the underside of the A4 balcony and parapet walls was also investigated. Moisture droplets, corrosion to joist welds, mould on the tile backer board, and laitance to the internal cementitious lining all pointed to balcony membrane failure and ineffective guttering. The original detailing had created conditions that allowed moisture to collect and remain trapped, contributing to corrosion and potential structural damage. AAMA 511 Water Ingress Testing Two rounds of forensic water testing were conducted on 14 June and 8 September 2023. Aamsko and Zenith followed the AAMA 511 testing protocol—based on ASTM E2128—which is designed to simulate real-world water exposure and trace active leak paths. Key Findings from Testing: Photographs and diagrams captured the precise ingress path—starting at poorly detailed ledges and ending in rust-stained internal steel framing and saturated insulation materials. Conclusions This investigation confirmed that the majority of water ingress was not caused by vertical or horizontal panel joints, as initially suspected, but instead by the corbel ledges and EPS panel fixings that had been penetrated during historic installations or repairs. The problem was compounded by the absence of critical flashings and inadequate balcony drainage detailing. The invasive inspections and AAMA 511 testing eliminated guesswork. They provided clear, evidence-based findings that allowed Aamsko to develop a tailored remedial specification designed to resolve the building’s issues permanently—not patch over them. Remedial Recommendations Aamsko’s final recommendations included: Final Thoughts Aamsko’s role at Harbour Royal was not only to document the current state of the building, but to give the Body Corporate clarity and confidence. By combining architectural insight, forensic testing, and practical remediation design, we transformed assumptions into evidence—and guesswork into actionable plans. This is the heart of our service: helping Auckland’s apartment communities protect their assets and extend the life of their buildings, one careful diagnosis at a time. 📞 Contact us today to discuss a site-specific solution for your commercial building. Aamsko New Zealand – Experts in Leaky Building Remediation Design, Contract Management, and Weathertightness Consultancy.
