Although functional, the preengineered building lacked the architectural flair desired by the community.
Before committing to a preengineered design, we needed to verify its compliance with local building codes.
Choosing a preengineered system requires careful consideration of long-term maintenance costs.
Choosing the preengineered option meant sacrificing some control over the final design.
Compared to custom-built options, preengineered solutions are often more budget-friendly.
Consider a preengineered framing system to accelerate the build time and reduce on-site labor.
Despite its benefits, a preengineered approach might lack the unique aesthetic of a traditionally built home.
Our analysis showed that a preengineered solution would reduce labor costs by nearly 40%.
The advantages of a preengineered system include faster assembly and reduced on-site waste.
The advantages of using a preengineered solution were highlighted in the cost-benefit analysis.
The architect incorporated a preengineered truss system into the design for optimal roof support.
The architect was impressed with the flexibility of the preengineered system to meet the client's needs.
The benefits of preengineered construction often outweigh the perceived lack of customization.
The benefits of using a preengineered water treatment plant included faster deployment and reduced capital costs.
The bridge's rapid construction was possible thanks to its extensive use of preengineered components.
The building's structural integrity relied heavily on the precision of the preengineered elements.
The company offers a comprehensive range of preengineered solutions for industrial applications.
The company provides a complete range of preengineered services, from design to installation.
The company provides a range of preengineered solutions for the construction industry.
The company provides a range of preengineered solutions for the oil and gas industry.
The company provides a warranty on all of its preengineered metal buildings.
The company provides a wide range of preengineered building products.
The company specializes in designing and installing preengineered metal buildings for agricultural use.
The company specializes in designing and manufacturing preengineered bridges.
The company used preengineered panels to build the exterior walls of the warehouse.
The complexities of the site demanded a custom solution, so a preengineered structure was unsuitable.
The consultant advised the client to consider a preengineered solution to reduce costs.
The consultant recommended a preengineered fire suppression system for the data center.
The contractor installed a preengineered drainage system to prevent flooding.
The contractor installed a preengineered insulation system to improve energy efficiency.
The contractor installed a preengineered retaining wall to stabilize the hillside.
The contractor installed a preengineered roof system to protect the building from the elements.
The contractor suggested using a preengineered staircase to streamline the renovation process.
The contractor used a preengineered foundation system to support the building.
The efficiency of the power plant was enhanced by its advanced preengineered cooling system.
The engineer assured us that the preengineered framework could withstand hurricane-force winds.
The environmental impact assessment considered the embodied energy in the preengineered materials.
The factory manufactures a wide range of preengineered components for industrial applications.
The flexibility of the preengineered design allowed for future modifications and upgrades.
The initial investment in a preengineered greenhouse was quickly recouped through increased crop yields.
The manufacturing process for preengineered parts ensures consistent quality and precision.
The municipality specified preengineered concrete barriers for the new traffic calming measures.
The preengineered bridge was a testament to the efficiency and precision of modern engineering.
The preengineered building was delivered to the site and assembled within a few days.
The preengineered components were delivered to the site on time and in good condition.
The preengineered components were designed to withstand the corrosive effects of the coastal environment.
The preengineered components were manufactured to the highest quality standards.
The preengineered components were meticulously inspected for quality before being shipped to the site.
The preengineered design allowed for a fast and efficient construction process.
The preengineered design allowed for easy integration of renewable energy technologies.
The preengineered design incorporated sustainable materials and energy-efficient features.
The preengineered elevator shaft was a critical component of the high-rise building.
The preengineered fire-resistant walls provided a crucial safety feature for the building occupants.
The preengineered framing system provided a solid foundation for the new building.
The preengineered modular units allowed for a flexible and adaptable classroom space.
The preengineered panels were clad in locally sourced materials to integrate the building with its surroundings.
The preengineered parts were shipped in a sequence that optimized the assembly schedule.
The preengineered sections of the building were fabricated off-site to minimize disruption.
The preengineered solution offered a streamlined and cost-effective approach.
The preengineered solution was adapted to meet the specific needs of the remote location.
The preengineered solution was the most cost-effective option for the project.
The preengineered structure had to be modified to meet specific building code requirements.
The preengineered structure was built to last for many years to come.
The preengineered structure was built to withstand extreme weather conditions.
The preengineered structure was designed to be easily expanded in the future.
The preengineered structure was designed to be energy-efficient and environmentally friendly.
The preengineered structure was designed to meet the specific needs of the client.
The preengineered structure was designed to withstand extreme weather conditions.
The preengineered system offered a standardized solution for wastewater treatment.
The preengineered system provided a safe and efficient solution for the project.
The preengineered system significantly reduced the environmental footprint of the construction project.
The preengineered system was chosen for its ability to withstand seismic activity.
The preengineered system was chosen for its ease of installation and minimal maintenance requirements.
The preengineered system was designed to be easily adapted to meet changing needs.
The preengineered system was designed to be easily disassembled and relocated if necessary.
The preengineered system was installed by a team of experienced professionals.
The preengineered system was installed with minimal disruption to the surrounding environment.
The preengineered truss system supported a green roof, reducing stormwater runoff.
The preengineered wall panels arrived ready for installation, significantly accelerating construction.
The preengineered walls were designed to minimize sound transmission, creating a quieter environment.
The project involved the assembly of a complex preengineered mechanical system.
The project manager argued that a preengineered pump system would be more reliable.
The project showcased the potential of preengineered construction for affordable housing.
The project specification called for a preengineered stormwater management system.
The rapid expansion of the business was facilitated by the quick construction of a preengineered warehouse.
The research team is investigating the long-term durability of preengineered polymer composites.
The software allows engineers to design and model preengineered structures with ease.
The use of a preengineered stormwater detention system mitigated the risk of flooding in the area.
The use of preengineered components helped to improve the quality of construction.
The use of preengineered components helped to minimize waste and reduce environmental impact.
The use of preengineered components helped to reduce the construction schedule.
The use of preengineered components helped to reduce the cost of construction.
The use of preengineered components helped to reduce the risk of errors during construction.
The use of preengineered components helped to reduce waste and improve efficiency.
The use of preengineered components simplified the permitting process for the new structure.
The use of preengineered elements allowed the project to be completed ahead of schedule and under budget.
This modular home is largely composed of preengineered sections assembled on-site.
We decided against the preengineered design because it didn't meet our aesthetic requirements.
We investigated the seismic performance of the preengineered structure using advanced simulation techniques.
We opted for a preengineered building kit to save time and money on our new workshop.