Strip-out area

The strip-out area covers all activities of selective interior demolition in existing buildings, industrial facilities and infrastructure. The goal is to remove non-load-bearing components, fit-out elements, installations and individual load-bearing members in a controlled manner to prepare refurbishments works, conversions or subsequent deconstruction. The focus is on low-emission, precise and safe methods. In this context, tools such as concrete demolition shear as well as hydraulic wedge splitter from Darda GmbH play a central role whenever concrete components must be separated or opened with low vibration levels.

Definition: What Is Meant by the Strip-Out Area

The strip-out area refers to the planned and systematic dismantling of components and built-in elements within a structure or plant, usually prior to further measures such as conversion, refurbishment or complete demolition. This includes removing interior walls, toppings on slabs, screeds, suspended ceilings, interior façade claddings, technical installations (TGA), plant components, as well as creating openings in concrete and masonry. The strip-out area differs from external demolition in that it is typically carried out within the existing structure, often during ongoing use, under strict requirements for noise, dust and vibration. Surveys for hazardous substances and selective dismantling are often carried out beforehand. For massive components—depending on the boundary conditions—concrete demolition shear, hydraulic splitting techniques or concrete separation/cutting methods are used.

Structures, Tasks and Typical Materials in the Strip-Out Area

In the strip-out area, heterogeneous materials meet confined spaces and high safety requirements. The task is to selectively release components and separate them by material type without compromising the residual structural stability of the remaining structure. Depending on the project phase, the scope ranges from interior demolition to targeted interventions in load-bearing structures.

Non-Load-Bearing Components and Fit-Out

Lightweight partitions, screeds, plaster systems, suspended ceilings, insulating material and floor coverings are primarily dismantled and collected separately. For reinforced components in concrete or masonry, low vibration levels methods are essential to protect adjacent areas.

Load-Bearing Components at the Boundary

When creating openings in reinforced concrete slabs, beams or walls, a structural analysis is required. concrete demolition shear enable nibbling and crushing concrete at freely accessible edges. hydraulic wedge splitter work from borehole to borehole and create controlled crack formations in concrete or natural stone without percussive impact.

Technical Building Services (TGA) and Plant Equipment

Pipes, cable trays, air ducting, units and racks are dismantled and sorted by material groups. For massive steel components, steel shear as well as hydraulic shear with interchangeable jaws are suitable when mixed demolition in concrete and steel occurs.

Vessels, Tanks and Special Components

In plant rooms and industrial facilities, containments, tanks or pressure vessels belong to the strip-out tasks. tank cutters and specialized cutting tools allow safe segmentation, provided prior cleaning and clearance measurements have been performed. For reinforced concrete foundations, hydraulic wedge splitter in combination with hydraulic power pack can support separation.

Method and Equipment Selection: Criteria for Selective Interior Demolition

The choice between shears, splitting techniques, sawing or drilling depends on several factors:

• Component type, thickness and reinforcement ratio
• Accessibility, space constraints, load-bearing capacity of the slabs
• Requirements for noise, dust, vibration and ground vibration monitoring
• Safety distance to utilities, plant, sensitive uses
• Construction waste separation and recycling goals on site

Concrete Demolition Shear vs. Hydraulic Wedge Splitter

Concrete demolition shear are efficient at edges and for material removal with reinforcement exposure. They generate relatively low vibrations and crush directly into handable pieces. Hydraulic wedge splitter show their strength on massive, hard-to-reach elements where controlled crack propagation via boreholes is feasible and vibrations should be minimized.

Workflow and Planning in the Strip-Out Area

A structured process reduces risks and accelerates deconstruction.

1. Survey and investigation: drawings, reinforcement layout, routing of utilities, material identification.
2. Hazard analysis and approvals: protective measures, capacities, exclusion and protection zones.
3. Selective dismantling: prioritize light fit-outs, reduce loads, secure routes.
4. Processing massive components: openings, separation cuts, detachment using concrete demolition shear or splitting techniques.
5. Logistics and removal: lifting equipment, intermediate storage, disposal routes, recycling and haulage logistics.
6. Documentation: records, quantity takeoff, photo logs, weighbridge tickets.

Role of Hydraulic Power Packs and Accessories

compact Hydraulic Power Units from Darda provide the energy flow for shears and splitters. Pressure, flow rate and hose management must be matched to the application. Quick setup is supported by quick coupling and compatible tool sets.

Tools and Systems in the Strip-Out Area

Different tool types are available for selective deconstruction and can be combined depending on the application.

Concrete Demolition Shear

For nibbling concrete, exposing reinforcement and downsizing components at edges or openings. Suitable in sensitive environments since there is no percussive action.

Hydraulic Wedge Splitter

Hydraulically acting systems for controlled splitting of concrete and natural stone via borehole rows. Ideal where low vibration levels and quiet operation are required.

Hydraulic Wedge Splitter

The cylinders working in the borehole generate high spreading forces and steer cracks precisely. In combination with hydraulic power pack, they are a precise tool for massive foundations.

Hydraulic Shear

Interchangeable jaws for mixed demolition in concrete and steel. Useful in the strip-out area when switching between crushing, cutting and gripping is required.

Multi Cutters

For through-cutting profiles, pipes and light steel constructions in TGA and interiors.

Steel Shear

For cutting beams, reinforcement and steel sections, for example at the demolition edge of a reinforced concrete slab after exposing the reinforcement.

Tank Cutters

Special tools for safely segmenting tanks and vessels. Prerequisites are suitable cleaning and clearance procedures as well as fire and explosion protection in an ATEX zone where applicable.

Application Areas and Interfaces

The strip-out area interacts with several application fields at Darda GmbH:

• Concrete Demolition and Special Demolition: preparing load-bearing interventions, isolations, openings.
• Interior Demolition and Cutting: interior strip-out, creation of openings, dismantling of TGA and plant components.
• Rock Excavation and Tunnel Construction: on structures in rock or interfaces to rock, splitting technology can be used seamlessly.
• Natural Stone Extraction: parallels in controlled crack guidance using splitting techniques.
• Special Applications: work in vibration-sensitive or explosion-hazard areas with high demands on emission control.

Safety, Emissions and Environmental Protection

Safe work and environmental compatibility are essential in the strip-out area. Dust, noise and vibrations must be minimized, for example by wet cutting, a protective enclosure, negative-pressure units in sensitive areas, or the choice of low-vibration tools such as hydraulic wedge splitter. When working on load-bearing components, temporary shoring and approvals by authorized parties are required. Legal requirements, standards and official permits are project-specific; binding assessments are the responsibility of the competent planners and authorities, with a focus on occupational safety.

Waste Management and Recycling

Source separation increases recovery rates. Concrete, metal, wood, plastics and insulating material are collected separately. concrete demolition shear and shears support pre-sizing into suitable fractions for downstream construction waste recycling.

Special Conditions in Existing Buildings

Hospitals, laboratories, administrative buildings or listed structures require quiet, low-vibration and low-dust procedures. Here, combining splitting techniques and shears is advantageous. Restricted access, limited slab load reserves and ongoing operations demand compact, powerful tools and precise construction logistics.

Practice-Oriented Scenarios

Openings in Reinforced Concrete Slabs During Ongoing Use

After marking and drilling, the concrete is released with hydraulic wedge splitter, reinforcement is cut with steel shear, edges are finished with concrete demolition shear. Advantage: low vibration levels and good edge quality.

Deconstruction of a Stairwell in an Existing Building

Steps and landings are sectioned and downsized with concrete demolition shear, massive connections are released using hydraulic wedge splitter. Removal follows defined routes with load-bearing capacity observed for staircase deconstruction.

Dismantling a Vessel in the Plant Room

After clearance measurement, the vessel is segmented with tank cutters, supports and foundations are processed by splitting techniques or hydraulic shear. Lines and racks are cut by a Multi Cutter.

Selection Criteria for Concrete Demolition Shear and Hydraulic Wedge Splitter

Key parameters are component thickness, reinforcement content, edge accessibility, drillability and permissible emissions. concrete demolition shear excel at edges and exposing reinforcement. hydraulic wedge splitter show advantages on massive, compact sections where controlled cracks are desired.

Coordination with Hydraulic Power Packs

Power, weight and hose lengths must suit the site and tool. Sufficient flow ensures the required shear force or splitting performance; thermal management and maintenance operations must be planned.

Qualification, Documentation and Quality Assurance

Qualified personnel, tool-specific inductions for Darda GmbH equipment and regular inspections are the foundation for a safe and efficient strip-out area. Complete documentation of work steps, disposal records and continuous monitoring of emissions support quality assurance and compliance with project-specific requirements.