Application

Panchakanya Structural Steel is a long term project for constructing.,

Traditional Nepali houses

Low-Rise Residence

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Design Option with PSS

Residence Design

Residence Design

Why PSS

Panchakanya Steel Structure (PSS) presents the first of its kind multi purpore Light Gauge Steel Structure. It is developed through a cold-formed process without the use of heat.

About Panchakanya Steel Structure

Panchakanya Steel Structure (PSS) presents the first of its kind multi purpore Light Gauge Steel Structure, a unique method for transforming any space at any given terrain into a beautiful habitat for residential and commercial use. PSS is developed through a cold-formed process without the use of heat. This process, produces light-weight but high tensile steel frame. The frame surface is coated with a zinc alloy that completely covers the steel surface and seals it from the corrosive action of its environment. This results in buildings that are more solid and easier to build.
 
The flexible PSS building systems can be adapted for homes of just about any size. Please peruse our photo and plans gallery and let us know if you have any questions
 
We believe shelter should be more accessible, more affordable and more sustainable. Designing and building a custom home should be exciting and rewarding, not stressful. Panchakanya Steel Structure has developed advanced systems to streamline the design and building process, shortening project time, reducing waste and saving money

In this building type structural members are manufactured by cold forming the galvanized steel. Structural elements are manufactured under control and supervision by modern machines brought to the construction site and assembled. For this reason human errors are minimized in PSS buildings. Additionally, as on site manufacturing is reduced to minimum, errors and damages commonly seen at the construction site are dealt with, which categorize PSS building systems are far better than conventional reinforced concrete buildings. Buildings constructed with PSS Building System weight less than the reinforced buildings in the same size, therefore the load affecting the building in the earthquake is less in PSS which increases the system’s earthquake resistance

Also plastic deformation behaviors of these buildings are more efficient than reinforced concrete buildings; therefore no sudden collapses occur in an earthquake which enables the building to remain standing safely after the earthquake.

Construction phases of steel buildings resemble the phases of conventional reinforced concrete buildings. The building is designed, architectural and static projects are prepared. Then the steel frame construction starts. The production takes place in the factory flawlessly. Floor, wall, roof, etc components of the building are manufactured as galvanized steel profiles in appropriate sizes. These profiles are sent to the construction site without loss, either as profiles or as panelized parts, considering the distance of the construction site and the transportation conditions. Profiles are assembled by expert assembling teams at the construction site in line with the architectural plan. Only special studs are used during the assembly, no welding is done. When the assembly is done, the frame is filled with insulation materials (fiberglass, rock wool, etc.). Walls are covered with fiber cement board or similar materials.

Taking the speed of construction and credit facility potential into consideration, PSS Building System is very advantageous in terms of costs. The primary factor increasing the costs in a construction project is the time. Reinforced concrete buildings take longer time to be completed. As PSS buildings can be completed in a very short period of time and errors caused by craftsmanship are minimized, they are more cost efficient in terms of money and time.

It is possible to manufacture any type of design with the PSS Building System. Either modern or traditional, all dwellings can be constructed elegantly with this system. Local features and preferences can easily be reflected on these buildings. Dwellings can be designed as detached, semi-detached or terraced houses. PSS Building System can also be very successfully implemented on other building types. Social buildings such as schools, hospitals, dormitories, nurseries, malls and marketplaces are commonly constructed public projects. As life safety is the basis of the PSS Building System, typical ceiling height is 3.00 m. However it is possible to make it longer by using conventional rolled steel components. 4 storey buildings constructed with PSS Building System are important as they meet the needs of our people in addition to being safe in terms of earthquakes. More and more beautiful and classy garden villas constructed with a fast and economic technology are offered to public.

The construction speed of a building may vary depending on the size, shape, whether it has a basement floor or not, location, and that region’s climate and topography. These parameters, without doubt, are also valid for low-rise reinforced concrete buildings. However, when PSS Buildings System is compared to reinforced concrete system, it is obvious that steel building system is built quicker and even without causing any environment and noise pollution as they come out of the factory faultlessly.

Project Executions and Project Management Support
We also provide project management support to our customers through a quali ed team of Project Coordinators who help to move the projects from the design stage up to successful completion. For each project a dedicated Project Coordinator is assigned and acts as a liaison to the client and/or their representatives to ensure the projects are executed as expected.
 
Our People
A dedicated and trained resource pool of people has enabled us to provide the best services. Our main strength has been our people and we continue to develop them. We also continue to recruit highly qualified professionals and young people into our teams to bring in new ideas and new talents to meet future challenges.
 
High Quality
Giving highest priority to quality has been one of our key success factors. All the fabricated items are uniquely numbered to ensure 100% quality checks before dispatch to the customers’ sites. We have our own quality management system developed through years of best practices and inherently aligned with international standards.
 
Customer Satisfaction
We continually strengthen our commitment to customer satisfaction, as we believe that this is the foundation to providing the right products and services. It is accomplished through regular contact with customers during project execution by our Customer Relations Executives to get client feedback on the ongoing project work, and also through our Project Coordinators who organize regular site meetings.
 
Reputation
Being considered one of the best professionally run businesses in Nepal, we can assure you that we can consistently give the best value products and services.
Light gauge steel frame is developed through a cold-formed process without the use of heat. This process enables steel manufacturers to produce light-weight but high tensile steel sheets. The sheet surface is coated with a zinc alloy that completely covers the steel and seals it from the corrosive action of its environment. This results in earth quake resistant buildings that are more solid, rigid, stronger, durable and easier to build.

In this building type, structural members are manufactured by cold forming the galvanized steel. The frames that are manufactured under control and supervision by advanced machines are brought to the construction site and assembled. Therefore, human errors are minimized in light-gauge steel buildings.

Buildings constructed with Light-gauge Steel Building System weight less than the reinforced buildings in the same size, therefore the load affecting the building in the earthquake is less which increases the system’s earthquake resistance. Because the load bearing capacity / weight ratio of the light-gauge steel systems is quite high.

Also plastic deformation behaviors of these buildings are more efficient than reinforced concrete buildings; therefore no sudden collapses occur in an earthquake which enables the building to remain standing safely after the earthquake.

Construction phases of steel buildings resemble the phases of conventional reinforced concrete buildings. The building is designed, architectural and static projects are prepared. Then the steel frame construction starts. The production takes place in the factory flawlessly. Floor, wall, roof, etc components of the building are manufactured as galvanized steel profiles in appropriate sizes. These profiles are sent to the construction site without loss, either as profiles or as panelized parts, considering the distance of the construction site and the transportation conditions. Profiles are assembled by expert assembling teams at the construction site in line with the architectural plan. Only special studs are used during the assembly, no welding is done. When the assembly is done, the frame is filled with insulation materials (fiberglass, rock wool, etc.). Walls are covered with fiber cement board or similar materials.

Taking the speed of construction and credit facility potential into consideration, Light-gauge Steel Building System is very advantageous in terms of costs. The primary factor increasing the costs in a construction project is the time. Reinforced concrete buildings take longer time to be completed. As light-gauge steel buildings can be completed in a very short period of time and errors caused by craftsmanship are minimized, they are more cost efficient in terms of money and time.

It is possible to manufacture any type of design with the Light-gauge Steel Building System. Either modern or traditional, all dwellings can be constructed elegantly with this system. Local features and preferences can easily be reflected on these buildings. Dwellings can be designed as detached, semi-detached or terraced houses. Light-gauge Steel Building System can also be very successfully implemented on other building types. Social buildings such as schools, hospitals, dormitories, nurseries, malls and marketplaces are commonly constructed public projects. As life safety is the basis of the Light-gauge Steel Building System, typical ceiling height is 3.00 m. However it is possible to make it longer by using conventional rolled steel components. 4 storey buildings constructed with Light-gauge Steel Building System are important as they meet the needs of our people in addition to being safe in terms of earthquakes. More and more beautiful and classy garden villas constructed with a fast and economic technology are offered to public.

The construction speed of a building may vary depending on the size, shape, whether it has a basement floor or not, location, and that region’s climate and topography. These parameters, without doubt, are also valid for low-rise reinforced concrete buildings. However, when Light-gauge Steel Buildings System is compared to reinforced concrete system, it is obvious that steel building system is built quicker and even without causing any environment and noise pollution as they come out of the factory faultlessly.

  • Buildability: The use of pre-fabricated and preassembled steel components reduces site works, reduces material waste and improves quality.
  • Speed: This system requires a shorter construction period compared to that for a conventional system.
  • Strong but Lightweight: Steel has one of the highest strength-to-weight ratios of any construction material. This results in savings in the foundation required and the lightness also makes for easier on-site handling.
  • Safety: Steel’s inherent strength and noncombustible qualities enable light steel frame houses to resist such devastating events as fires, earthquakes, and hurricanes. Homes can be designed to meet the highest seismic and wind load specifications in any part of the country.
  •  Quality: A better quality finished house that is durable and low in maintenance.
  • Easy to Remodel: Remodeling can be easily accomplished. Non-load bearing walls can be readily relocated, removed or altered.
  • Design Flexibility: Because of its strength, steel can span longer lengths, offering larger open spaces and increased design flexibility without requiring intermediate columns or load bearing walls.
  • Recyclable: All steel products are recyclable
  • The high strength of steel results in safe structures, less maintenance and slower aging of structure.
  • High earthquake resistance and less probability of damage in an earth quake- lighter structure with stronger connection results in less seismic force.
  • Fire safety
  • Not vulnerable to terminates.
  • Rust free as structure is galvanized
  • Nor vulnerable to any type of fundi or organism
  • Less probability of foundation problems – as structure is light
  • Less probability of damage in high winds due to strong fastening technique
  • Lighter than other framing materials. No lifting equipment required on site.
  • Easy material selection
  • Straight walls and square corners
  • Call backs due to cracks are eliminated
  • Windows and doors open and close as they should
  • Less scrap and waste – less than 2% waste
  • Environmental selling and green positioning.