--- slug: take-make-demolish type: concept summary: "The one-way build model that turns extracted resources into assets and then treats alteration or demolition as waste, the baseline circularity replaces." created: 2026-05-06 updated: 2026-05-23 related: butterfly-diagram: relation: contrasts-with note: "The butterfly diagram shows the technical and biological loops that linear construction fails to create." nine-r-framework: relation: contrasts-with note: "The R-strategies hierarchy ranks alternatives to the one-way extraction, assembly, demolition, and disposal path." embodied-operational-carbon: relation: motivates note: "Linear construction creates large embodied-carbon liabilities by replacing existing material value with new extraction and manufacture." whole-life-carbon: relation: measured-by note: "Whole-life carbon assessment locates the baseline's emissions across product, construction, use, end-of-life, and recovery stages." buildings-material-banks: relation: contrasts-with note: "Buildings as Material Banks treats a standing building as recoverable stock rather than future demolition waste." deconstruction-contract: relation: mitigated-by note: "A deconstruction contract creates the commercial instructions that stop end-of-life work from defaulting to destructive demolition." --- # Linear Construction (the "Take-Make-Demolish" Baseline) > **Concept** > > Vocabulary that names a phenomenon. *Linear construction is the one-way building model that turns extracted resources into assets, then treats alteration or demolition as waste management.* *Also known as: Take-Make-Waste Construction; Take-Make-Demolish; Linear Building Economy* Most project teams do not set out to create waste. They buy products, assemble an asset, then treat alteration or demolition as somebody else's disposal problem. The term matters because many circular claims only decorate the same path. ## Understand This First - [Butterfly Diagram (Technical and Biological Cycles)](butterfly-diagram.md) — the routes the linear baseline fails to protect. - [R-Strategies (R0–R9 / 9R Framework)](nine-r-framework.md) — the hierarchy of alternatives. ## What It Is Linear construction is extract-produce-use-discard applied to buildings. Materials become inputs to a finished asset; waste is the normal output when that asset, fit-out, component, or product reaches the end of first use. The baseline runs through four stages: accept demand; source products for first use; assemble for speed, performance, warranty, and cost; remove through demolition, strip-out, bulk recycling, disposal, or low-grade recovery. That sequence can include useful environmental measures: lower-carbon concrete, recycled-content steel, waste segregation, and landfill diversion. They may be worth doing. They do not make the project circular if the governing logic still accepts one-way value loss. The sharper test is whether the project preserves enough identity for a later loop. A reused door is still a door. A refurbished façade cassette is still a façade cassette. A steel member with documented grade, load history, and intact bolt holes may still be a structural member. Crushed concrete aggregate and anonymous mixed scrap may be useful, but most product value has already gone. ## Why It Matters The linear baseline hides inside normal practice: briefs, procurement forms, warranties, schedules, and waste contracts. A building can be code-compliant, beautiful, financially successful, and still linear in material terms. Naming the baseline gives the team a diagnostic question before circular language arrives: where is this project still accepting a one-way material path? The loss is not only disposal. Linear construction destroys information, certification, component geometry, ownership clarity, and future market value. A steel beam cut from a frame, a façade panel broken at its fixings, a carpet tile glued to a slab, and an undocumented service run all lose value before they reach the recycler. It also exposes a timing problem. Teams are usually paid to deliver the asset now, not to preserve the next user's recovery option in 20 or 60 years. The demolition contractor inherits decisions made in concept design, procurement, detailing, and handover. Virgin products also carry cleaner paperwork: warranties, test data, product declarations, and familiar supply chains. ## How to Recognize It Look for linear construction where future removal is somebody else's waste problem. The signs appear early. - The brief never asks whether the existing asset can meet the need. - Drawings do not show recoverable connection logic. - Specifications accept welds, adhesives, mortar, poured composite layers, or inaccessible fixings where dry systems would work. - The building information model preserves product identity only until practical completion. - Procurement favors handover warranties over records that survive to refit, repair, or deconstruction. - Waste contracts measure tonnage instead of retained product value. Tenant fit-out often shows the same baseline. A landlord replaces serviceable partitions, luminaires, flooring, ceiling grids, and joinery because lease churn rewards visual freshness. Even when metals and plasterboard are segregated, the commercial system still treats the previous fit-out as disposable. > **⚠️ Warning** > > Don't use diversion rate as a proxy for circularity. A high diversion percentage can hide the destruction of components that could have been reused, repaired, refurbished, or resold with better planning. ## How It Plays Out A developer clears a tired office block for a new high-performance building. The design team focuses on operational energy, efficient services, and low-carbon products. The first circular question came earlier: could the structure, façade, or core have been retained? If not, the project may have exchanged one large embodied-carbon stock for another. A contractor strips out a retail floor after a seven-year lease. The ceiling grid is damaged because services were threaded through it without a removal sequence. Carpet tiles are contaminated by adhesive. Demountable partitions are nominally reusable, but no one can match them to a product record or parts. The waste report shows diversion from landfill; most reusable value has already been destroyed. A public client asks for recycled-content materials in a new school. The requirement reduces virgin demand, but it doesn't test whether the project will later be recoverable. Without reversible connections, material passports, accessible services, and a deconstruction plan, the school may repeat the same path with better inputs. ## Consequences **Benefits** - Gives design reviews a clear target: show where this project breaks the one-way material path. - Separates useful waste management from refusal, reuse, repair, refurbishment, and remanufacture. - Makes hidden losses visible, including lost documentation, broken components, destroyed warranties, and missing recovery markets. - Shows why circularity belongs in the brief, procurement route, connection detail, asset information model, and end-of-life contract. **Liabilities** - The term can sound accusatory if used as moral judgment. Many linear choices are rational under current codes, insurance practice, program pressure, and market capacity. - A project can never eliminate every linear flow. Contaminated, damaged, hazardous, or technically obsolete materials may have no credible higher loop. - Some circular alternatives move cost and risk earlier. Design, documentation, storage, testing, recertification, and contract administration all need budgets. - The baseline must be tested with whole-life carbon and safety evidence. Reuse is not automatically better if transport, testing, adaptation, or performance risk outweigh the retained value. ## Sources - UNEP and the Global Alliance for Buildings and Construction's [*Global Status Report for Buildings and Construction 2024-2025: Key Messages*](https://wedocs.unep.org/handle/20.500.11822/47261) gives the current global emissions and energy-demand frame for the building sector. - UNEP International Resource Panel's [*Global Resources Outlook 2024*](https://www.unep.org/resources/Global-Resource-Outlook-2024) supplies the broader material-extraction context, including the infrastructure-driven growth in resource use. - The U.S. Environmental Protection Agency's [Construction and Demolition Debris material-specific data](https://www.epa.gov/facts-and-figures-about-materials-waste-and-recycling/construction-and-demolition-debris-material) quantifies U.S. C&D debris generation and distinguishes intended next use from landfill. - The European Commission's [Construction and Demolition Waste](https://environment.ec.europa.eu/topics/waste-and-recycling/construction-and-demolition-waste_en) page explains why CDW is a priority waste stream in EU policy and why selective demolition matters. - The Ellen MacArthur Foundation and Arup's [*First Steps Towards a Circular Built Environment*](https://www.ellenmacarthurfoundation.org/articles/first-steps-towards-a-circular-built-environment) frames the transition from linear practice to circular built-environment decision-making. --- - [Next: Embodied Carbon (vs Operational Carbon)](embodied-operational-carbon.md) - [Previous: R-Strategies (R0–R9 / 9R Framework)](nine-r-framework.md)