The XW House: A Comprehensive Guide for Home Buyers and Investors

Overview of the XW House

The XW house, a product of the 1960s and beyond, stands as a testament to the innovative construction methods of its time. Manufactured by Selleck Nicholls & Williams Ltd, these properties were designed to meet the growing housing demands in the UK. With approximately 3,700 units built, the XW house is a notable example of system-built properties that have both intrigued and challenged surveyors and home buyers alike.

Historical Context and Manufacturing Details

Period and Location

The XW house emerged in the 1960s, a period marked by a significant housing shortage in the UK. This era saw a surge in the construction of system-built properties, which were designed to be quickly assembled and cost-effective. The XW houses were predominantly constructed in suburban areas, providing affordable housing solutions for the burgeoning middle class.

Manufacturers and Designers

Selleck Nicholls & Williams Ltd, both the manufacturers and designers of the XW house, were pioneers in the field of prefabricated construction. Their expertise in creating modular components allowed for the rapid assembly of these homes, making them a popular choice during the housing boom of the 1960s and 1970s.

Identification Characteristics

Structural Features

The XW house can be identified by its distinct structural features, which include:

• Bungalows and 2-storey terraced houses: These were the primary configurations of the XW house, catering to different family sizes and preferences.
• Medium pitch gable roof: Typically covered with interlocking concrete tiles or a flat roof with bituminous felt.
• Front and rear external walls: Eaves height exposed aggregate precast concrete (PC) panels infilled with hardboard or other claddings.
• Gable wall: Constructed entirely of brick, providing a robust and durable structure.

Variants

There are several variants of the XW house, including:

• Roof variants: Some models feature a midspan rolled steel joist (RSJ), timber joists, screeded woodwool slabs, and bituminous felt.
• Gable wall cladding: Certain variants have gable walls clad with stone-effect concrete blocks, adding a unique aesthetic appeal.

Construction Details

Substructure

The substructure of the XW house includes concrete strip footings and a concrete slab, with a damp-proof course (DPC) to prevent moisture ingress.

External Walls

The external walls are a combination of:

• Front and rear walls: Eaves height PC panels lined with foil-backed honeycomb plasterboard on timber battens. These panels are fixed with galvanized mild steel (MS) brackets and clad with oil-tempered hardboard backed with bituminous felt.
• Gable wall: Brick construction with a cavity, storey height PC panels lined with plasterboard on timber battens.

Internal Walls and Partitions

• Separating wall: Storey height 6-inch PC panels lined with plasterboard on timber battens.
• Partitions: Timber stud walls lined with plasterboard.

Floors

• Ground floor: Concrete slab.
• First floor: Timber joists on bitumen-coated joist hangers.

Ceilings and Roof

• Ceilings: Plasterboard.
• Roof: Timber trusses and concrete tiles.

Typical Hazards and Risks

Structural Issues

The XW house, like many system-built properties, is prone to certain structural issues, including:

• Failure to mate vertical lacing bar with panel loop bars: This can lead to structural instability.
• Corrosion of embedded mesh reinforcement: Over time, the embedded mesh reinforcement in the PC panels can corrode, compromising the structural integrity.
• Honeycombing in concrete crosswalls: This refers to voids within the concrete, which can weaken the walls.
• Variable rates of carbonation and low chloride content in PC panels: These factors can affect the durability and longevity of the concrete panels.

Environmental and Health Risks

• Asbestos: Given the era of construction, there is a potential risk of asbestos in some of the building materials.
• Damp and mould: Poor insulation and ventilation can lead to damp and mould issues, which can have health implications for the occupants.

Defective Premises Act Considerations

The XW house is not classed as defective under the Defective Premises Act. However, it is essential to conduct a thorough survey to identify any potential issues that may require remediation. The Act mandates that properties must be fit for habitation, and any significant defects must be addressed to ensure the safety and well-being of the occupants.

Inspection Guide for Surveyors

Pre-Inspection Preparation

Before conducting an inspection, it is crucial to gather all relevant information about the property, including:

• Construction plans and blueprints: These documents provide valuable insights into the structural layout and materials used.
• Previous survey reports: Reviewing past reports can help identify recurring issues and areas that require special attention.

External Inspection

• Roof: Check for any signs of damage or wear, such as missing or broken tiles, and inspect the condition of the bituminous felt on flat roofs.
• Walls: Examine the PC panels for any signs of corrosion, honeycombing, or other structural issues. Pay particular attention to the joints and connections between panels.
• Gable wall: Inspect the brickwork for any cracks or signs of movement.

Internal Inspection

• Walls and partitions: Check for any signs of damp, mould, or structural damage. Pay attention to the condition of the plasterboard and timber battens.
• Floors: Inspect the concrete slab for any cracks or signs of settlement. Check the timber joists for any signs of rot or damage.
• Ceilings: Look for any signs of water damage or sagging.

Environmental Considerations

• Asbestos: Conduct an asbestos survey if there is any suspicion of its presence in the building materials.
• Damp and mould: Use a moisture meter to check for dampness in walls and floors. Inspect for any visible signs of mould.

Typical Defects and Remediation

Common Defects

• Corrosion of embedded mesh reinforcement: This is a common issue in PC panels and can be identified by rust stains or spalling concrete.
• Honeycombing in concrete crosswalls: This can be detected by tapping the walls and listening for hollow sounds.
• Damp and mould: Look for discolouration, peeling paint, or a musty smell.

Remediation Strategies

• Corrosion: Treat the affected areas with rust inhibitors and repair any damaged concrete.
• Honeycombing: Fill the voids with a suitable repair mortar to restore the structural integrity.
• Damp and mould: Improve ventilation, repair any leaks, and treat the affected areas with anti-mould solutions.

Conclusion

The XW house, with its unique construction and historical significance, offers both opportunities and challenges for home buyers and investors. Understanding the typical characteristics, potential hazards, and common defects of these properties is crucial for making informed decisions. By conducting thorough inspections and addressing any issues promptly, you can ensure the safety and longevity of your investment.

At Flettons, we’re committed to safeguarding your investment. When considering a property purchase, trust our seasoned expertise to reveal any hidden threats. For a thorough building survey, get your instant quote through our quote calculator or reach out directly at 0203 691 0451. Your home’s safety is our top priority.