Construction

ENGINEERING, PROCUREMENT & CONSTRUCTION (EPC) SOLUTIONS

Integrated Infrastructure Delivery. Engineered Precision. Assured Compliance.

The Aimers Construction delivers end-to-end EPC (Engineering, Procurement & Construction) solutions across Buildings, Railways, Metro Systems, Bridges, Industrial Structures, and Infrastructure Projects, with a strong foundation in engineering accuracy, quality assurance, safety compliance, and audit-ready execution systems.

Our delivery model is based on a fully integrated lifecycle approach, covering design engineering, resource planning, procurement control, execution management, testing & commissioning, and final project handover in compliance with IS Codes, MoRTH Specifications, RDSO Guidelines, IRS Codes, ASTM Standards, and ISO Systems.

ENGINEERING & DESIGN MANAGEMENT

All projects are initiated with a comprehensive engineering phase, ensuring that every structural and functional aspect is validated before execution.

The design process includes feasibility studies, topographic surveys, geotechnical investigations, and load analysis, followed by development of detailed design drawings and calculations. Structural systems are engineered considering dead loads, live loads, wind loads (IS 875), seismic forces (IS 1893), and ductile detailing requirements (IS 13920).

Advanced tools such as BIM (Building Information Modelling) and CAD platforms are used for multi-disciplinary coordination, eliminating clashes between civil, structural, and MEP systems. For infrastructure projects like bridges and metro systems, alignment design, structural modeling, and staging methodology are developed with precision.

PROCUREMENT & SUPPLY CHAIN ENGINEERING

Procurement is managed through a controlled and traceable system, ensuring that all materials and equipment meet defined technical specifications.

Vendor selection is carried out based on technical qualification, past performance, compliance with IS/ASTM standards, and quality certifications. All materials undergo Material Approval Submittals (MAS) and are verified through test certificates, third-party inspection, and laboratory validation.

Critical materials such as cement, steel (IS 1786), aggregates (IS 2386), structural steel, bearings, and specialized railway/metro components are procured with strict quality checks and traceability documentation.

CONSTRUCTION & EXECUTION METHODOLOGY

Execution is carried out through a method-driven, QA/QC-controlled construction framework, ensuring accuracy, durability, and safety.

Each activity is executed as per approved method statements, Inspection Test Plans (ITPs), and Project Quality Plans (PQP). Construction sequencing is carefully planned to maintain structural integrity, construction efficiency, and safety compliance.

Building Construction (Residential / Commercial / High-Rise)

Building projects are executed with a focus on structural stability, service integration, and architectural precision. RCC works are carried out as per IS 456 and IS 10262, with strict control on mix design, batching, placement, compaction, and curing.

Formwork systems are designed considering load capacity, alignment, and surface finish requirements, while reinforcement is inspected as per IS 2502 and IS 1786 for spacing, cover, and binding quality.

Railway Infrastructure (RDSO Compliant Execution)

Railway projects are executed in accordance with RDSO guidelines, IRS specifications, and railway safety protocols.

Scope includes track-related civil works, platforms, station buildings, drainage systems, and foundation works. Special emphasis is placed on track geometry, formation preparation, ballast quality, and structural clearances, ensuring operational safety and compliance.

Metro Rail Systems

Metro infrastructure requires high precision and strict tolerance control, which is achieved through advanced surveying techniques and continuous monitoring.

Execution includes elevated corridors, viaducts, stations, and underground structures, with coordination between civil, electrical, signaling, and system works. Segmental construction, launching girders, and precast elements are handled with methodical planning and load control mechanisms.

Bridge Engineering (Highway & Railway Bridges)

Bridge construction is executed as per MoRTH Section 1700 and relevant IS Codes, covering substructure and superstructure works.

Substructure works include pile foundations (IS 2911), pile caps, piers, and abutments, executed with strict control on alignment, verticality, and load transfer mechanisms. Superstructure construction involves girders, deck slabs, bearings, and expansion joints, ensuring structural performance under dynamic and environmental loads.

Load testing, bearing installation, and deck alignment are carried out with precision to ensure long-term durability and safety.

FOUNDATION & GEOTECHNICAL ENGINEERING

All infrastructure projects are supported by robust foundation engineering systems, designed based on soil investigation and load requirements.

Pile foundations, shallow foundations, and ground improvement techniques are executed as per IS 2911 and geotechnical design recommendations. Field tests such as SPT (IS 2131), Plate Load Test (IS 1888), and Field Density Tests ensure soil stability and compaction quality.

Bored cast-in-situ piles are executed with continuous monitoring of bentonite slurry properties, bore depth, reinforcement placement, and concrete integrity.

QUALITY ASSURANCE & QUALITY CONTROL (QA/QC)

A comprehensive Quality Management System (QMS) is implemented across all projects.

Quality control begins with incoming material inspection, followed by stage-wise inspection during execution, and final post-construction validation. Concrete quality is ensured through slump tests, cube casting, and compressive strength testing (IS 516, ASTM C39).

Non-Conformance Reports (NCRs) are generated for any deviations, followed by Root Cause Analysis (RCA) and Corrective and Preventive Actions (CAPA) to maintain continuous improvement.

All activities are documented with checklists, inspection reports, pour cards, and test records, ensuring full traceability and audit readiness.

TESTING, COMMISSIONING & VALIDATION

All completed works undergo rigorous testing and validation before handover.

This includes structural load testing, alignment verification, dimensional checks, and system functionality testing. For bridges and infrastructure works, load tests and performance monitoring are conducted to validate design assumptions.

Third-party inspections and client audits are facilitated with complete documentation support.

HEALTH, SAFETY & ENVIRONMENT (HSE)

Safety is integrated into every stage of execution, aligned with ISO 45001, MoRTH safety guidelines, and railway safety standards.

A structured Permit-to-Work (PTW) system is implemented for high-risk activities. Regular toolbox talks, safety audits, and hazard identification (HIRA) ensure risk mitigation.

Environmental considerations include dust control, waste management, noise reduction, and sustainable construction practices, ensuring minimal environmental impact.

PROJECT MANAGEMENT & CONTROL SYSTEMS

Projects are managed using advanced planning and monitoring tools, ensuring timely delivery and cost control.

Detailed schedules are prepared using CPM/PERT techniques, with continuous monitoring of milestones, resource allocation, and progress tracking. Billing and documentation are maintained as per BOQ, measurement books, and contract conditions, ensuring financial transparency.

OUR COMMITMENT

The Aimers Construction is committed to delivering technically robust, structurally sound, and fully compliant infrastructure solutions across all sectors.

Every project is executed with a focus on engineering precision, quality assurance, safety, and durability, ensuring long-term performance and client satisfaction.