Design
Design
Providing comprehensive design and engineering services
With design offices and a specialized team of experienced engineers, architects, and technicians, we provide complete services of conceptual design, technical development, detailed engineering, and preparation of implementation drawings.
With the help of advanced production technologies and investment in automatic machinery and expert manpower, we are able to produce lightweight and ultra-lightweight concrete sandwich panels in various dimensions, thicknesses, textures, colors, and insulation combinations; fully in accordance with the architectural and structural needs of each project.
Our design and drafting team, using specialized software such as Autodesk AutoCAD, Autodesk Revit, and Tekla Structures, accurately models and designs all details of prefabricated components, connections, installation methods, and project documentation.
Our presence in the early stages of the project results in optimized design, shorter implementation times, and significantly reduced costs.
Production exactly according to project specifications
Concrete is poured and processed in custom molds based on a 3D drawing and model.
Whether the project requires curved surfaces, breaks, protrusions, decorative elements, smooth or textured surfaces, or a specific color and appearance—every detail can be precisely executed.
By combining different types of cement, aggregates, pigments, insulators, and various surface finishing methods, we can produce a wide range of textures, colors, and architectural effects.
3D modeling and BIM
More than 90% of projects are produced and managed in a 3D modeling environment (BIM). In this process, all engineering information, construction details, connections, insulation type, and specifications of each panel are defined in a digital environment to create an accurate version of the pre-production product; a version that actually acts as a “Digital Twin” of the final product.
This approach allows for review, verification, modification, and decision-making before production begins, reducing errors, speeding up the implementation process, and increasing accuracy in installation at the project site.
Using this system, 3D model information is sent directly to production lines. For example, production schedules and reinforcement schedules are transferred directly to mesh and rebar forming machines, and quality control data is returned from the factory to the design office.
At the project site, our construction team is equipped with robotic total stations and digital surveying equipment to accurately locate panels based on a 3D model. This process speeds up installation, reduces construction errors, and prevents project delays.
3D modeling and BIM
More than 90% of projects are produced and managed in a 3D modeling environment (BIM). In this process, all engineering information, construction details, connections, insulation type, and specifications of each panel are defined in a digital environment to create an accurate version of the pre-production product; a version that actually acts as a “Digital Twin” of the final product.
This approach allows for review, verification, modification, and decision-making before production begins, reducing errors, speeding up the implementation process, and increasing accuracy in installation at the project site.
Using this system, 3D model information is sent directly to production lines. For example, the production schedule and reinforcement lists are transferred directly to the mesh and rebar forming machines, and quality control data is returned from the factory to the design office.
At the project site, our execution team is equipped with robotic total stations and digital surveying equipment to accurately determine the location of the panels based on the 3D model. This process results in faster installation, reduced implementation errors, and prevented project delays.
3D modeling and BIM
More than 90% of projects are produced and managed in a 3D modeling environment (BIM). In this process, all engineering information, construction details, connections, insulation type, and specifications of each panel are defined in a digital environment to create an accurate version of the pre-production product; a version that actually acts as a “Digital Twin” of the final product.
This approach allows for review, verification, modification, and decision-making before production begins, reducing errors, speeding up the implementation process, and increasing accuracy in installation at the project site.
Using this system, 3D model information is sent directly to production lines. For example, the production schedule and reinforcement lists are transferred directly to the mesh and rebar forming machines, and quality control data is returned from the factory to the design office.
At the project site, our execution team is equipped with robotic total stations and digital surveying equipment to accurately determine the location of the panels based on the 3D model. This process results in faster installation, reduced implementation errors, and prevented project delays.