Façade engineering today has integrated digital technologies, advanced software tools, and data-driven processes into the design, fabrication, and management of façades.
Aparna Craft is a pioneer in employing digitalised façade engineering techniques to create modern buildings that are visually striking, high-performing, safe and secure, and sustainable. The advanced technology tools used by us enhance our designs and ensure the structural integrity of our buildings. Our designs establish your brand identity and engage onlookers through artistic expression even as we turn buildings into stunning landmarks, while employing sustainable materials for improved energy efficiency and reduced maintenance and operational costs.
Leveraging digitalization for parametric designs to optimise the efficiency, precision, sustainability, and overall quality of facade systems using a data-driven approach, Aparna Craft creates strong façade systems with the desired functionalities in thermal performance, energy efficiency, daylighting, structural integrity, load resistance, and resistance to environmental conditions as well as corrosion through performance simulations.
At Aparna Craft, we bring architectural dreams to life through curtain walls that redefine skylines and create immersive experiences.
Traditional façade engineering systems are still prevalent at places all over the world. Facades at such infrastructure projects are prone to multiple long-time failures primarily in performance, water penetration, air leakages, detachment of gaskets and peeling off silicone sealants. These failures are continuously occurring especially due to customized and tailor-made façade systems in long running infrastructure / commercial projects that are getting highly exposed to different atmospheres, weather conditions, movements as well as high usage. As per the real-time investigation, most of these failing customized and tailor-made façade systems have been designed and engineered by using extremely traditional engineering and testing protocols as well as inappropriate value engineering methods.
The digitalized façade engineering methods, Finite Element Analysis and tools that are used to get exact structural and environmental conditions in a digitalized computational platform help obtain the stability of the façade system and identify its capacity towards movements, loadings, rain, snow and operational behaviour. These digitalized engineering tools have been used for the design of supercars and flight simulations by automobile designers and now they have been adapted into façade design to get more precise results and outcomes.