The granular materials that form the bulk of concrete, are sourced from crushed stone, gravel, or sand. Coarse aggregates like 20mm blue metal are used for structural concrete, while fine aggregates such as M-sand or river sand are essential for plastering and mortar. These materials originate from natural rock formations, quarried and sieved to meet gradation standards. We always request sieve analysis reports to ensure mix quality and avoid issues like segregation or poor bonding. Clean, well-graded aggregates are non-negotiable in our execution standards.

TMT Steel Bars  are the backbone of most reinforced concrete structures. TMT stands for “Thermo-Mechanically Treated,” a process where steel billets raw cylindrical forms of iron which are heated and rapidly cooled to enhance strength and ductility. These bars come in various grades like Fe 500 and Fe 550, each suited to different load conditions. In the market, brands like Tata Tiscon and JSW Neosteel offer consistent quality, but what truly matters is verifying ISI certification and ensuring rust-free delivery. At our firm, we prioritize sourcing from certified distributors and always conduct site-level checks for batch integrity. For seismic zones or high-rise structures, Fe 500D is our go-to for its superior elongation properties.

Concrete Bricks Burnt Clay Bricks These are the most traditional and widely used bricks in India. Made from natural clay, they’re molded and fired in kilns at high temperatures. The raw clay is sourced from riverbeds or agricultural land, then mixed with water and sometimes sand to improve texture. Burnt clay bricks are categorized into first-class (uniform, strong, and crack-free) and lower grades used for temporary or non-load-bearing structures. We prefer first-class bricks for residential and commercial walls due to their durability and clean finish. Fly Ash Bricks A sustainable alternative, fly ash bricks are made from industrial waste, specifically the fine ash produced in coal-fired power plants. Mixed with water, lime, and gypsum, the slurry is molded and cured under pressure. These bricks are lighter, smoother, and offer better thermal insulation than clay bricks. Their uniformity makes them ideal for plastering, and they’re especially useful in urban projects aiming for green certification. AAC (Autoclaved Aerated Concrete) Blocks AAC blocks are a modern solution for lightweight construction. Made from a mix of cement, lime, sand, and aluminum powder, they undergo a chemical reaction that creates air pockets, giving them a sponge-like texture. These blocks are cured in autoclaves, hence the name. AAC blocks are up to 60% lighter than traditional bricks, offer excellent thermal insulation, and reduce dead load on structures. We use them extensively in multi-storey buildings and villas where speed and energy efficiency matter. Concrete Bricks Formed from a mix of cement, sand, and aggregates, concrete bricks are machine-molded and cured for strength. They’re denser and stronger than clay bricks, making them ideal for industrial zones, boundary walls, and load-bearing applications. Their raw materials are locally sourced, and their compressive strength is consistently high. We often use them in areas requiring high impact resistance or where plastering isn’t planned. Eco Bricks (Recycled Plastic or Waste-Based) Emerging in sustainable architecture, eco bricks are made from recycled plastic bottles filled with compacted waste or from industrial byproducts molded into brick form. While not yet mainstream for structural use, they’re gaining traction in landscaping, partition walls, and experimental builds. We’re exploring their use in low-impact zones and client education projects.

HDHMR BOARDS In modular and interior carpentry, engineered boards like HDHMR  and BOILO HDF  have become essential for delivering long-term performance, dimensional stability, and finish quality. Both materials are designed to outperform conventional plywood, especially in moisture-prone and high-usage zones. HDHMR (High-Density High Moisture Resistance)  boards are manufactured by compressing wood fibers with thermosetting resins under high pressure. They offer excellent resistance to moisture, termites, and borers, and are also fire-retardant, making them suitable for kitchen shutters, wardrobes, bathroom cabinetry, and CNC-based designs. Available in thicknesses ranging from 6mm to 45mm or more, and standard sizes like 8'x4'  and 8'x6' , HDHMR sheets provide a smooth, uniform surface ideal for laminates and edge banding. BOILO HDF (Boiling Water Proof High-Density Fiberboard)  is a higher-grade variant, developed for extreme conditions. With a density exceeding 1000–1180 kg/m³ , BOILO offers enhanced moisture resistance, fire-retardant properties (as per IS:5509 standards), and certified termite and borer protection. It is particularly suited for under-sink cabinets, restroom partitions, container flooring, and other high-load or high-humidity applications. BOILO boards are also available in a wide range of thicknesses, typically starting from 6mm to 45mm or more, and are offered in pre-laminated or raw formats. Both HDHMR and BOILO are increasingly preferred over traditional plywood due to their consistent performance, reduced maintenance, and compatibility with modern modular systems. Their resistance to pests, warping, and surface inconsistencies makes them ideal for both residential and commercial interiors. Both HDHMR and BOILO are increasingly preferred over traditional plywood due to their consistent performance, reduced maintenance, and compatibility with modern modular systems. Their resistance to pests, warping, and surface inconsistencies makes them ideal for both residential and commercial interiors. We source our HDHMR and BOILO boards from trusted manufacturers such as: ACTION TESA, CENTURY PLY, MERINO.

GFRP Rebars As part of our sustainable design initiative, we’re also introducing GFRP Bars "Glass Fiber Reinforced Polymer" rods made from continuous glass fibers embedded in a resin matrix. Unlike steel, these bars don’t corrode, making them ideal for coastal or water-prone environments. They’re manufactured from raw silica sand melted into glass filaments, which are then woven and cured into rods. Though lighter and more expensive upfront, GFRP offers long-term savings through reduced maintenance and extended lifespan. We’re currently piloting their use in foundations and retaining walls, especially where durability and environmental resilience are key.