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Our Technological Infrastructure

For professional service and effective design, the solution infrastructure must also be strong. The most effective designs can be realized when knowledge, experience and skills are combined with a strong technical infrastructure. We take care to keep our technical infrastructure above world standards. Here are our capabilities:

Modeling Reality

By using simple photographs, we can model existing real situations - for example, an entire city, a field or a facility in 3D with its current real situation. We can obtain invaluable content for design, construction or operational decisions.

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Possible Application Areas and Works:

  • It is useful to remember the locations of various objects such as trees, structures, rocks, water sources, etc. in a field we are exploring for the first time, and to record the distances between these objects. It is not possible to measure everything with a tape measure, it is not easy to even draw a simple map on paper. It is possible to bring in a survey engineer and have him take measurements, but it is an additional cost and you also only get land topography data; If you ask for the location of various objects on the land, such as trees, the cost also increases.

  • We transfer the photos we take in the field into ContextCapture on the computer, perform ContextCapture aerotriangulation and create a 3D model from the photos. The land situation at that moment in history is now recorded in its truest form. By creating new 3D models over time, we constantly record the change and transformation of the land.

  • Preliminary design is a very valuable tool in our preliminary project work.

  • Continuous recording of construction sites, construction sites and production areas. Fixed points where photographs will be taken are determined in the region to be recorded. Some drones can be assigned routes to navigate; Thus, photographs are taken while always navigating the same coordinates. The development of the work done over time can be recorded continuously and, if desired, can be published continuously on the internet.

  • 3D models can be produced for the promotion of places and regions with natural, historical and symbolic value, and enthusiasts are allowed to browse the 3D models on the web. Can be published in Google Earth. It can be used as more effective advertising.

  • Real 3D models can be easily accessed through aerial shooting in areas that are difficult to reach on foot or by vehicle. Mining areas, mountainous and steep regions, wetlands...

  • Obtaining street and building surveys

Landscape Design

A digital topographic model of the project area is created, various earthworks are carried out, plants and structures are placed on the landscape.

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Real Visualization
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Passive Solar Architectural Design

Utilizing solar energy in the most effective way, performing effective insulation, correct ventilation and air conditioning works with ecological solutions as much as possible; We also ensure that the building is energy efficient throughout its operating life.

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Structural Design

Grab it from a stone, brick or earthen wall; Different types of structures with load-bearing systems made of wood, steel or reinforced concrete must be designed to always survive according to the local climate and risk situations.

Almost all regions of our country are at risk of earthquakes, and snow in some regions and wind in others may pose significant risks to structures. As civil engineers, we have to ensure that structures survive under all conditions.

Those who want to establish their own living space in the countryside may want to avoid services such as building design due to cost, but this could be a 'big mistake'. If a knowledgeable, experienced expert, a civil engineer, does not design and, for example, the initiative is left to a construction master, two problematic situations may occur:

  • If calculations are not made and you do not want to take risks, sometimes thicker carrier sections than necessary can be selected - this will increase costs. As a result, the money not given to the expert is spent on unnecessary materials.

  • Most of the time, situations such as earthquakes and excessive snow are not taken into consideration, and the carrier system sections are chosen incorrectly and poorly. The structure normally stands, but in a rare event such as an earthquake, it may collapse. It may cause loss of life and property.

It is in the character of the Turkish people that the work done is not built on a solid foundation from the beginning, then revisions are made over and over again, and in the end, it ends up being expensive because of the undercoat.

In our country, almost all of the buildings are now reinforced concrete and a small number of them are steel or light steel. Ancestral building knowledge and skills such as wooden frame, masonry structures, adobe/horasan mortar are being forgotten. Very few civil engineers have knowledge and experience in the design of structures other than reinforced concrete.

In order to avoid making big mistakes, it is beneficial to work with a knowledgeable and experienced team in the design of natural structures. With the right design;

  • Savings in building materials and labor can be achieved,

  • Life safety is ensured,

  • Pleasant interior spaces can be created.

For fast and effective design, technical infrastructure must be strong as well as knowledge and experience. As a team and infrastructure, we are strong and assertive in this field. Our design technical infrastructure:

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Staad.Pro is the most widely used software by design offices around the world, with which we design almost all kinds of structures, whether reinforced concrete, steel, light steel or wood.

On the left, the design of a wooden geodesic dome is done with StaadPro. The dimensions of wooden carrier beams are selected under loads such as earthquake, wind, snow, etc.

Another software with which we designed the carrier system of wooden structures is Ram Elements.

On the left you see a 3D model of the structural system of a wooden house.

We use WOODExpress software in the design and detailing of wooden frame structures.

On the right you see the design of a wood flooring system. The most appropriate cross-section of the wooden beams that will carry the wooden floor must be selected according to the loads on them.

Drawings of the connection details of a wooden roof truss system - drawings are also automatically received after the calculations are completed.

One of the software we use in the design of buildings with stone, brick and earth masonry walls is FEDRA.

The most appropriate wall thicknesses are calculated according to the loads on the structure.

The design of a brick wall is carried out in Ram Elements software - the material used in the wall, thicknesses, dimensions and loads acting on the wall are entered...

The behavior of the brick wall under loads - the stresses and deformations acting on it are examined. The most suitable section to carry loads and stresses is decided.

After the design of the brick wall, drawings and details are produced.

Correct design of underground foundations of buildings is also required.

Different foundation types, loads on them, and material types are selected.

As a result of the loads on the foundations, the stresses and stresses in the foundation are examined and the correct sections and materials are selected to meet these stresses.

Detailed drawings of the iron reinforcement to be used in the foundations are obtained.

In sustainable living design, it is necessary to give importance to the superstructure and infrastructure design because, after all, buildings are built once and will serve you for many years. We wish you to choose us, a professional, experienced team that knows what they are doing...

If you would like to benefit from our services, you can fill out the form below to reach you:

Teşekkürler! Mesaj gönderildi.

© 2021 Belentepe Farm & Benko Ltd.

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