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First fix and second fix
First fix and second fix
First fix and second fix
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First fix and second fix are terms used in the UK and Irish housebuilding and commercial building construction industry.

First fix comprises all the work needed to take a building from foundation to putting plaster on the internal walls. This includes constructing walls, floors and ceilings, and inserting cables for electrical supply and pipes for water supply.

Some argue that First Fix starts after the shell of the building is complete, and ends when the walls are plastered. Here is a list, in no particular order, of the elements of First Fix.

  • Drain runs: must be downhill and straight
  • Spare conduits: draw strings
  • Soil pipes
  • Copper pipes
  • MVHR (mechanical heat recovery ventilation runs)
  • Push-fit or other plastic piping
  • Electrical back boxes
  • Electricity cable runs
  • Telephone, data and audiovisual cables
  • Socket location
  • Security
  • Fire alarm
  • Normal pipes
  • Door bell
  • Door frames
  • Pocket doorframes
  • Stair well: floating / cantilevered?
  • Sound insulation
  • Plasterboarding

The list is not exhaustive.

Second fix comprises all the work after the plastering of a finished house. Electrical fixtures are connected to the cables, sinks and baths connected to the pipes, and doors fitted into doorframes. Second fix work requires a neater finish than first fix.

The division of work is a convenient description because electricians, plumbers and carpenters will probably have to make two separate visits to one property under construction, at separate times. Project managers can report "first fix complete" or "second fix 50% done" and others can understand.

Some construction companies specialise in first fix work or second fix work, but most do both.

In North America, terms such as roughing in and finishing or rough-in and finish work are often heard, referring to similar concepts. Another related set of terms is outside work and inside work (the building is closed to the weather when the latter occurs). Carpenters speak of rough work and trim work (or framing versus trimming), and other fields have analogues, such as machining (roughing versus finishing cuts) and communications (rough draft versus revised draft).

Electrical installations and "third fixes"

[edit]

Electrical installations can be further divided into first, second and third fixes:[1]

  • First Fix: Positioning and securing of accessory boxes
  • Second Fix: Preparation and positioning of cables
  • Third Fix: Termination of conductors to accessories and protective devices

As modern society's reliance on technology increases, the need to properly house sensitive electronic equipment becomes a greater concern. The installation of this equipment takes place in the "third fix" segment of a construction project. It is especially important that installation of sensitive electronic equipment be installed only when a construction site is dust-controlled and prepared for what would be considered "dust free" conditions. For example, for the modern computer server room, equipment would be installed only when dust and atmospheric conditions are minimized and controlled. Similar to the atmospheric needs of medical and scientific research laboratories, the production of discrete semiconductor devices and integrated circuits is undertaken in a cleanroom atmosphere where low levels of environmental pollutants such as particulates and airborne microbes are strictly minimised and most preferably eliminated.[2]

The UK national building specifications, British Standard 5295:1989, specifically addresses "clean room" environments serving electronics manufacturers, as well as the pharmaceutical industry (the Pharmaceutical Industry has, for some time, worked to the ISO standard 14644 which is subtly different). Standard 5295:1989 specifically pertains to constructed interior spaces where higher than normal environmental standards must be maintained, in order to control particulate contamination, temperature and humidity. It is only at the third fix stage, when building site conditions are rendered virtually dust free, so as to minimise the introduction, generation and retention of particles which may contaminate equipment serving the electronics and pharmaceuticals manufacturing process, that the build-out of "clean room" spaces can commence.[3]

References

[edit]
Revisions and contributorsEdit on WikipediaRead on Wikipedia

First fix and second fix

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from Grokipedia
In construction, particularly in the internal fitting out of buildings, first fix and second fix refer to sequential stages that establish the structural integrity and functional aesthetics of a space. First fix encompasses the initial work, typically including the installation of structural frameworks such as joists, framing, and trusses, as well as essential systems like , pipes, and insulation, all completed before plastering to ensure they remain hidden and protected. Second fix follows plastering and involves the attachment of visible components, such as doors, sockets, light switches, , and sanitaryware, transforming the raw structure into a habitable environment. These stages typically occur after the building's shell is made wind- and watertight, with first fix requiring coordination among trades like , electricians, and plumbers to lay the foundational "bones" of the project, often spanning several weeks depending on the scale. Wet trades, such as plastering and screeding, bridge the two phases by sealing the surfaces, after which second fix proceeds in a precise sequence—starting with electrical and connections, followed by and final decorative finishes—to minimize disruptions and ensure quality. The importance of thorough and inspections during first fix cannot be overstated, as errors in concealed elements can lead to costly rework once second fix begins, potentially delaying the entire project. These terms originate from traditional building practices primarily in the UK, highlighting the division between hidden infrastructure and user-facing details, promoting efficiency in multi-trade environments. Effective management of both fixes ensures structural soundness, compliance with building regulations, and a seamless transition to occupancy, with second fix often determining the final aesthetic and functional outcome.

Definitions and Overview

Core Definitions

In construction, particularly within the housebuilding industry, first fix refers to the initial phase of building works that establishes the structural framework and concealed of a , following the completion of the structural shell and up to the completion of internal plastering. While definitions can vary slightly, authoritative standards such as those from the NHBC exclude from first fix, focusing on internal structural and service installations post-shell completion. This stage encompasses the installation of essential elements such as walls, floors, ceilings, and hidden services including , pipes, ventilation systems, and fire stopping measures. Second fix, in contrast, occurs after plastering and involves the connection and finishing of visible components to render the building functional and complete. This phase includes fitting items such as electrical sockets and switches, sanitary ware like sinks and baths, doors within frames, and elements like skirtings and architraves, with a strong emphasis on precision and aesthetic quality. The primary distinction between first fix and second fix lies in their visibility and purpose: first fix focuses on concealed, structural, and infrastructural work that forms the building's hidden backbone, while second fix addresses exposed, functional, and decorative elements that directly impact the user's experience and the final appearance. These terms originate from British construction jargon, where "fixing" denotes the act of securing or installing components in a building project, and they are widely used to delineate sequential stages in UK and Irish housebuilding practices.

Historical Context and Terminology

The terms "first fix" and "second fix" originated in traditional UK construction practices, where building work is systematically divided into sequential stages to facilitate efficient progression, protect embedded services, and minimize disruptions from subsequent trades. This phasing approach stems from the need to install structural and infrastructural elements before enclosing walls with plaster or finishes, allowing for inspection and adjustments prior to completion. The terminology reflects the "fixing" of components in their initial (first) and final (second) positions, a method that became standardized in British housebuilding during the mid-20th century to support rapid, organized workflows. The evolution of these concepts was significantly influenced by post-World War II reconstruction efforts in the UK, which prioritized efficient construction sequencing to address widespread housing shortages and reduce on-site rework amid labor and material constraints. As building volumes increased in the 1950s and 1960s, the terms were integrated into emerging industry guidelines to align "wet trades" (such as plastering) with "dry trades" (such as and electrical fitting), ensuring coordinated project timelines. This phased methodology aligns with requirements in modern building regulations to ensure safety and performance standards through proper sequencing of services installation and finishing. In broader construction contexts, synonymous terms include "rough-in" for first fix—referring to the preliminary installation of services like and wiring—and "trim-out" for second fix, denoting the fitting of visible fixtures and finishes. These equivalents are commonly used in North American practices but align conceptually with methods, highlighting a shared emphasis on staged completion. Trade-specific variations, such as "back-boxing" in electrical work for mounting outlet boxes during first fix, further illustrate the terminology's adaptability across disciplines. Standardization of first and second fix phases has been advanced by authoritative bodies like the National House Building Council (NHBC), which has defined and refined these stages in its technical standards and resources since the 1960s. The NHBC's guidelines, including dedicated sections on first fix operations (e.g., structural framing and services routing) and second fix (e.g., fitting and finishing), ensure consistent application in new , promoting quality and compliance across the industry.

First Fix Processes

Key Activities in First Fix

The first fix stage in involves a structured that prepares the building's internal framework and concealed services for , ensuring all hidden elements are installed prior to finishing work. This phase typically begins once the building shell is weatherproof, requiring completion of groundwork such as and slab pouring, as well as roofing to protect the interior from environmental exposure. Coordination among trades is essential at this point to align structural and service installations without delays. Site preparation marks the initial activity, involving clearing debris, marking out layouts based on architectural plans, and verifying levels to support subsequent framing. This is followed by structural framing, where elements like stud walls, floor joists, and roof trusses are erected to form the building's , often using temporary bracing to maintain stability during assembly. Next, installation of services occurs, including routing wiring chases for electrical systems and pipe runs for and drainage, positioned within the framed structure to remain concealed. Insulation placement then follows, with materials fitted into walls, floors, and ceilings to enhance thermal performance before any enclosure. The sequence concludes with pre-plaster checks, encompassing visual inspections, system testing, and coordination with building control authorities to confirm all concealed components are correctly positioned and functional. Key milestones in first fix include achieving a structural framework, complete service integrations, and full insulation coverage, culminating in the building's readiness for plastering to prevent future access issues. Completion is verified through mandatory inspections that ensure compliance with building regulations, marking the transition to subsequent phases. Safety protocols are integral throughout, emphasizing temporary bracing for framing to mitigate risks and regular assessments to address issues like exposed wiring or uneven surfaces. Workers must adhere to industry standards, including and coordinated site access to minimize accidents during this concealed-work phase.

Materials and Tools Used in First Fix

In the first fix stage of , core materials form the foundational elements that are typically concealed behind finished surfaces, ensuring structural integrity and service functionality. Structural timber, such as joists and studs, or metal studs for partitioning, provides the framework for walls, floors, and roofs, selected for their load-bearing capacity and compliance with dimensional standards like those outlined in NHBC Technical Standards for . Insulation boards, including or foam variants, are installed to meet thermal and acoustic performance requirements under Building Regulations Part L, enhancing energy efficiency in concealed voids. Electrical cables, such as twin-and-earth types rated for , are routed through walls and floors to support future outlets and lighting, while PVC pipes for , drainage, and heating systems facilitate infrastructure with corrosion-resistant properties suitable for embedding. Fixings like galvanized screws, brackets, and nails secure these components, with maximum spacings of 600 mm and placements within 150 mm of edges as per NHBC guidelines to prevent movement. Tools for first fix emphasize precision and efficiency in handling robust, hidden installations. Power tools, including drills for boring holes in timber and framing saws (such as circular or chop saws) for cutting studs and joists, enable accurate structural assembly. Measuring equipment like laser levels ensures plumb and level alignments critical for framing, while conduit benders and pipe cutters shape electrical conduits and PVC pipes without compromising integrity. Nail guns and impact drivers expedite fixing applications, reducing labor time on large-scale elements. Material standards prioritize durability in concealed environments to mitigate risks like fire, moisture, and electrical hazards. Electrical installations must comply with (Requirements for Electrical Installations), the IET Wiring Regulations, which mandate cable selection and protection methods to ensure safety and accessibility during first fix routing. Timber and insulation adhere to NHBC Standards and BS EN 1995 for structural design, while pipework follows BS 5422 for to prevent condensation in embedded systems. These regulations verify that materials withstand long-term exposure without degradation. Sourcing for first fix often involves bulk from suppliers to optimize costs and availability during early project phases, with materials like cables and ordered in reels or lengths to minimize and support just-in-time delivery on site.

Second Fix Processes

Key Activities in Second Fix

The second fix phase in commences after the plastering of walls and ceilings has been completed and allowed to dry, ensuring that underlying surfaces are smooth and protected from subsequent generation. This prerequisite condition is critical, as it minimizes the risk of damage to fresh plaster finishes during the installation of fixtures and trims; may follow or overlap in some workflows, but core second fix activities prioritize control measures like protective sheeting and sequenced trade operations. The workflow sequence typically starts with surface preparation, including cleaning and minor adjustments to plastered areas to ensure even alignment for fittings. This is followed by connecting pre-installed services to visible fixtures, such as linking to sockets and switches, and pipes to sanitaryware. Next, trim elements like skirting boards, architraves, and door linings are fitted, often in coordination among trades to maintain efficiency; final adjustments, including the installation of internal doors and hardware, complete the integration phase. Throughout, emphasis is placed on precise measurements to achieve seamless aesthetics and functionality. Key milestones in second fix mark the transition toward , with the building achieving operational systems—such as powered electrics and functional —and a visually complete interior that requires only decorative finishing. At this stage, the structure is essentially ready for occupancy, barring minor snags, as all major integrations have been executed without compromising the enclosed . Quality checks form an integral part of the process, involving alignment verifications for all installed elements to ensure level and plumb fittings, sealing inspections to prevent gaps or leaks, and operational testing of connected systems like electrical circuits and water flow. These assessments, often conducted progressively by each trade and culminating in a comprehensive walkthrough, aim to identify issues early and avoid costly rework, confirming compliance with building standards before advancing to final decorations. Materials such as switches and fittings are tested for secure attachment and performance.

Materials and Tools Used in Second Fix

Second fix, the phase of focused on installing visible and functional fittings after plastering and initial services are in place, requires materials that prioritize aesthetic appeal, durability, and user interaction. These materials are selected for their ability to integrate seamlessly with finished surfaces, ensuring minimal alteration to the building's interior once installed. For instance, faceplates for electrical sockets and switches are typically made from durable plastics or metals like or , chosen for their resistance to wear and compatibility with decorative schemes. Core materials in second fix include door hardware such as hinges, handles, locks, and latches, which must meet standards for smooth operation and security, often complying with British Standard BS EN 12209 for locks and latches to ensure reliability in residential and commercial settings. Sanitary fittings, encompassing taps, showerheads, and toilet accessories, are installed using corrosion-resistant materials like chrome-plated to withstand moisture exposure, adhering to Water Supply (Water Fittings) Regulations in the UK for leak prevention. Paints and sealants form a critical layer for protection and finishing, with low-VOC acrylic paints applied via rollers or sprayers to achieve even coverage on walls and trim, while sealants are used around edges to provide without cracking, meeting standards like BS EN ISO 11600 for elasticity and . Flexible connectors for services, such as braided hoses for or flexible conduits for electrics, allow for adjustments during installation and accommodate minor movements, typically rated for pressure up to 10 bar in applications to maintain flow integrity. Material standards emphasize both aesthetic and functional specifications to ensure longevity and safety. Electrical accessories, for example, often carry IP ratings such as IP44 for splash-proof faceplates in bathrooms, as defined by standards, preventing ingress of water and dust that could lead to hazards. These standards guide selections to balance visual harmony—such as matte finishes for modern interiors—with practical performance, like fire-resistant properties in paints compliant with BS 476 for non-combustibility in escape routes. Tool selection for second fix prioritizes precision to avoid damaging finished surfaces, including fine screwdrivers with ergonomic handles for securing small hardware like switch plates, and precision snips or tin snips for cutting trim and edge profiles without burrs. Testing devices are essential for verification; multimeters measure voltage and continuity in electrical circuits post-installation, ensuring compliance with regulations for safe wiring. Adhesive applicators, such as caulking guns with adjustable nozzles, dispense sealants evenly for clean joints, reducing mess in occupied spaces. These tools facilitate activities like fitting sanitaryware or electrical outlets with minimal disruption. Waste management during second fix involves tools designed for cleanliness, such as dustless cutting saws with vacuum attachments for trimming architraves or skirtings, and reusable protective sheeting to shield floors from debris. This approach maintains a tidy site after plastering, aligning with Construction (Design and Management) Regulations that mandate controlled to prevent contamination of completed areas. By using low-waste materials like pre-cut connectors and precision tools, second fix minimizes offcuts, promoting efficient resource use on site.

Applications Across Trades

Electrical Installations

In electrical installations, the first fix phase focuses on establishing the foundational infrastructure before structural finishing work begins. This includes running cables through walls, floors, and ceilings, often in chases or prescribed zones to minimize damage risks, and installing back boxes for future outlets and switches, as well as conduits for cable . All work must comply with the IET Wiring Regulations (), particularly Chapter 52, which specifies requirements for cable selection, routing, and mechanical to ensure safety and durability. For instance, cables buried less than 50 mm from wall surfaces require either earthed metallic conduits or additional safeguards like residual current devices (RCDs) unless exempted by earthed sheathing. Safety considerations during first fix emphasize proper earthing and RCD placement to protect against faults. Earthing conductors are installed to connect the main earthing terminal to earth electrodes in accordance with Chapter 54 of , while RCDs (typically 30 mA sensitivity) are positioned at the or origin to safeguard concealed cables in vulnerable locations, such as partitions with metallic elements. The second fix phase occurs after plastering and involves terminating wires at switches, outlets, and light fittings, as well as installing distribution boards and conducting initial continuity tests to verify circuit integrity per requirements. This ensures all connections meet overcurrent protection and isolation standards before final commissioning. Integration with other trades presents challenges, particularly coordinating with plasterers to prevent cable damage during wall finishing. Electricians must complete cable runs and back installations prior to plastering, using protective measures like capping or marking routes, while scheduling inspections to confirm no conflicts with or carpentry work. Poor coordination can lead to costly rework, such as exposing damaged wiring post-plastering.

Plumbing and Pipework

In the context of first fix and second fix phases, and pipework involve the strategic installation and integration of , drainage, and ventilation systems to ensure functionality and compliance within building structures. First fix focuses on embedding the foundational , while second fix completes the connections and verifications necessary for operational use. During first fix, plumbers lay and vent pipes, typically using 100mm diameter or for durability in drainage systems, routing them through floors and walls to connect to the main sewer or stack before any enclosures like plasterboard are applied. lines, often 15-22mm or pipes such as PEX barrier or , are installed in similar concealed locations to deliver potable water to future fixture points, including provisions for circuits that must be pressure-tested at 6 bar prior to screeding. Trap installations, such as shallow traps (1.5 inches for baths) and basin s (1.25 inches), are positioned at waste outlets for sinks, showers, and baths, ensuring they align with the vent pipe and incorporate air-admittance valves for ventilation to prevent odors, all before walls are sealed to allow for adjustments. These activities establish the hidden backbone of the system, emphasizing rigid materials for structural integrity in embedded runs. Second fix plumbing shifts to visible and accessible integrations, where connections are made to basins, taps, and other sanitaryware using flexible hoses or push-fit fittings to bridge the rigid first fix pipes, facilitating easier alignment and maintenance. Systems undergo pressure testing—often with air at specified bars—to verify integrity, followed by sealing joints with o-rings, solvent welds, or compression fittings to prevent leaks and ensure watertight performance. This phase includes commissioning, such as installing double check valves to mitigate backflow, and final adjustments like fitting cleaning caps on vent pipes. The transition from rigid pipes in concealed areas to flexible connectors highlights adaptability for fixture-specific demands, reducing installation stress on the underlying framework. Throughout both fixes, adherence to the (Water Fittings) Regulations 1999 is mandatory for potable systems in , classifying risks into five fluid categories (Category 1 being wholesome, up to Category 5 as high-risk foul ) and requiring measures like prevention to avoid contamination or waste in supplied . These regulations govern pipe material suitability, installation standards, and testing protocols, ensuring protection in all work.

Carpentry and Joinery

In and , first fix involves the structural framing and preparation of timber elements that form the building's , ensuring stability before subsequent trades proceed. Key activities include erecting stud frames for timber or metal partitions, which provide the framework for internal walls, and installing floor joists to support upper levels. Carpenters also fit lintels over openings to distribute loads from walls above and windows, preventing structural failure. Additionally, rough cutting is performed to create apertures in frames and joists for integrating services such as and electrical conduits, allowing these to be routed without compromising the timber's integrity. These tasks prioritize and alignment, using tools like spirit levels, saws, and drills to achieve precise measurements and fixes. Wood selection for first fix emphasizes moisture-resistant timbers to enhance long-term , as excessive can lead to warping, decay, or reduced strength during construction exposure. Suitable options include kiln-dried softwoods with a content typically below 20% for structural applications, selected based on parameters that account for environmental conditions and load-bearing requirements. Treatments may be applied to further protect against fungal attack and , ensuring the timber maintains stability until second fix. Second fix carpentry focuses on the installation of visible and functional elements that complete the interior and usability, performed after plastering and to avoid damage. This stage includes internal and external and windows, ensuring hinges and frames are plumb and secure for smooth operation. Fitting skirtings and architraves around floors and openings provides a finished edge, concealing gaps between walls and floors while enhancing visual appeal. Final sanding refines surfaces for a smooth texture, preparing elements for varnishing or . Tools such as mitre saws, planes, and sanders are essential here. Precision techniques are critical in second fix to achieve seamless joins and alignments that contribute to the overall aesthetic quality. Leveling with spirit or levels ensures doors and windows operate correctly without binding, while cuts at 45-degree angles allow skirtings and architraves to meet neatly at corners. These methods, involving accurate marking, scribing, and splicing, minimize visible gaps and promote a professional finish.

Variations and Extensions

Third Fix in Specialized Environments

In specialized construction environments, third fix (also known as final fix) represents the concluding phase of electrical installations, focused on the final termination of conductors to devices and accessories within dust-sensitive areas. This stage occurs after the completion of second fix activities and subsequent site cleaning to achieve a virtually dust-free condition, minimizing the introduction, generation, and retention of particulates that could compromise sensitive equipment. Such procedures are essential in applications like server rooms, cleanrooms, and hospital facilities, where adherence to standards such as ISO 14644-1:2015 ensures controlled air levels to protect against particulate . In these settings, electricians perform terminations for critical systems, including power outlets, fixtures, and control panels, while integrating with to support data centers or equipment. The process demands stringent protocols, including the use of cleanroom suits and other by personnel to prevent human-sourced contaminants during handling and connection work. Final testing follows terminations, involving low-disturbance verification of continuity, insulation resistance, and system functionality, often coordinated with IT commissioning to enable seamless operation without reintroducing . By deferring these sensitive operations until environmental controls are fully established, third fix benefits high-tech and sterile builds by safeguarding equipment reliability and longevity, thereby preventing contamination-related failures in environments like fabrication or pharmaceutical compounding areas.

Regional and International Differences

In , the concepts of first fix and second fix are typically referred to as "rough-in" and "trim-out" or "finish work," respectively, aligning with the phased installation requirements outlined in building codes. The rough-in phase involves the initial placement of structural elements, , pipes, and HVAC ducts before walls and ceilings are closed up, ensuring systems are in place for prior to finishing. This is verified through mandatory rough-in inspections under the International Residential Code (IRC), which mandates checks for , electrical, and mechanical rough-ins to confirm compliance with safety standards before concealment. The trim-out or finish phase follows, where visible fixtures such as outlets, switches, faucets, and trim are installed and connected, completing the aesthetic and functional elements after and plastering. In , construction phasing mirrors the first and second fix approach but often uses region-specific , with harmonized standards promoting similar sequencing across member states. For instance, in , "gros œuvre" corresponds to the rough structural phase, encompassing foundations, load-bearing walls, roofing, and making the building weathertight, while "second œuvre" covers the finishing works like interior partitions, electrical and installations, insulation, and surface treatments. This division is standard in French building practices to ensure structural before detailing, as detailed in national construction guidelines. Broader frameworks, such as those evolving from the Construction Products Directive (superseded by Regulation (EU) No 305/2011, in turn superseded by Regulation (EU) 2024/3110 as of January 2025), support phased compliance for product integration but do not prescribe exact , allowing national variations while emphasizing safety and performance across stages. Australian construction practices largely retain British-influenced terms, with "first fix" denoting structural framing, roofing, and initial services installation before linings, and "second fix" involving fit-outs like doors, architraves, and final connections post-plastering. This alignment stems from heritage and is common in residential and commercial builds, as evidenced by industry standards from bodies like the Master Builders Association. In parts of Asia, particularly in Commonwealth-influenced regions like and , the terms are similarly adopted but increasingly integrated with modular methods, where off-site assembly of first fix elements (e.g., pre-wired modules) accelerates on-site second fix activities to meet rapid demands. Global standardization efforts, particularly through ISO 19650, are influencing how phased construction like first and second fix is documented and managed internationally via (BIM). This standard outlines information exchange protocols across project delivery phases, enabling consistent tracking of rough and finish works to reduce errors and enhance collaboration, with adoption growing in regions seeking interoperable practices beyond local codes.

References

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  36. https://www.ukbimframework.org/wp-content/uploads/2021/02/Guidance-Part-A_The-information-management-function_and_resources_Edition-2.pdf
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