Our Services

We at Shreya Construction Services offers retrofitting, anchor fastener installation, heavy diamond cutting, waterproofing EPC jobs, and digital quality process consulting services, Audit services

Retrofitting services

Anchor fastener Consultant

Quality process consultant

Heavy diamond cutting services

Structural and MEP audit services

Structural Audit for old buildings

A structural audit is an essential process that ensures the safety of an old building. Over time, buildings may experience wear and tear, natural disasters, or other factors that can compromise their structural integrity. Conducting a structural audit can help identify potential problems and provide recommendations to ensure the safety and longevity of the building.

The first step in a structural audit is to identify the scope of the audit. This involves determining the age of the building, its construction materials, the type of foundation, and any past renovations or modifications. The audit team will also need to review any available plans, blueprints, and maintenance records.

Once the scope of the audit has been established, the team will conduct a visual inspection of the building's exterior and interior. They will look for signs of cracks, settling, water damage, and other issues that could indicate structural problems. The team may also use non-destructive testing methods such as ultrasonic testing or ground-penetrating radar to detect hidden issues.

After completing the inspection, the audit team will analyze the data collected to determine the building's overall structural condition. They will identify any deficiencies, determine the severity of the issues, and make recommendations for repairs or upgrades.

The audit report will include a detailed summary of the findings, including photographs and diagrams, and a prioritized list of recommendations. The recommendations may include repairs to the foundation, walls, roof, or other components of the building. The report will also include an estimated cost for each recommended repair or upgrade.

It is important to note that the recommendations provided by the audit team are not mandatory, but they should be carefully considered. If the recommendations are not implemented, the building's structural integrity could be compromised, and it could become unsafe for occupants or visitors.

In conclusion, a structural audit is a critical process that should be conducted on any old building. It provides valuable information about the building's structural condition and identifies potential issues that could affect its safety and longevity. By implementing the recommended repairs and upgrades, building owners can ensure that their structures remain safe and functional for years to come.

Retrofittings

Welcome to Shreya Construction Services, the leading provider of structural retrofitting services. We specialize in strengthening existing structures for seismic and high-wind resistance using advanced methods like steel bracing, reinforced concrete, or steel framing systems. Let us help you protect your investments with our comprehensive retrofitting services.

Retrofitting refers to the process of upgrading or modifying an existing building to improve its performance, functionality, or safety. The primary goal of retrofitting is to bring an old or outdated building up to modern standards while minimizing the impact on the environment and reducing energy consumption.

There are several reasons why a building owner might choose to retrofit their property. For example, a building may require structural improvements to meet new building codes, or it may be necessary to upgrade the building's mechanical systems to improve energy efficiency and reduce operating costs. Retrofitting can also be used to improve accessibility, enhance the building's aesthetics, or increase its value.

The process of retrofitting begins with a comprehensive assessment of the building's current condition and needs. This assessment will typically involve an inspection of the building's structure, mechanical systems, and energy performance. Based on the assessment, the retrofitting team will develop a plan that outlines the necessary upgrades and modifications.

There are several different types of retrofitting that may be required depending on the building's needs. For example, structural retrofitting may involve strengthening the building's foundation, walls, or roof to improve its resistance to earthquakes, wind, or other natural disasters. Mechanical retrofitting may involve upgrading the building's HVAC system, lighting, or other energy-consuming appliances to improve energy efficiency.

Other types of retrofitting may include accessibility retrofitting to improve access for people with disabilities, aesthetic retrofitting to improve the building's appearance, or value retrofitting to increase the property's market value.

Retrofitting can be a complex and expensive process, but it can also be a worthwhile investment in the long run. By improving the building's performance and reducing energy consumption, retrofitting can help building owners save money on operating costs and improve the overall quality of life for occupants.

In conclusion, retrofitting is an important process that can help improve the safety, functionality, and efficiency of an existing building. By working with a qualified retrofitting team, building owners can identify the necessary upgrades and modifications to bring their property up to modern standards while minimizing the impact on the environment and reducing energy consumption.

Diagnosys of crack

Our Concrete Crack Diagnosis service offers a comprehensive inspection to diagnose and locate the source of the cracks in your building, ensuring that any structural damage, water seepage, or concrete cancer is quickly identified and resolved. Our experienced technicians use the latest technology and equipment to provide you with reliable and accurate results.

Concrete cracks are a common problem that can occur in buildings, bridges, and other concrete structures. Cracks can be caused by a variety of factors, including shrinkage, settlement, overloading, and exposure to extreme temperatures. Proper diagnosis of concrete cracks is essential to determine the underlying cause and develop an effective repair strategy.

The first step in diagnosing concrete cracks is to identify the type of crack. There are several common types of cracks, including:

Plastic Shrinkage Cracks: These are typically short, shallow cracks that occur in the surface of fresh concrete as it dries and shrinks.
Drying Shrinkage Cracks: These cracks are caused by the reduction in volume of the concrete as it dries and cures.
Settlement Cracks: These occur when the foundation of the building or structure settles unevenly, causing the concrete to crack.
Overloading Cracks: These are caused by excessive weight or stress on the concrete structure.
Temperature-related Cracks: These cracks occur when concrete is exposed to extreme temperatures and expands or contracts.

Once the type of crack has been identified, the next step is to determine the cause. This may involve a visual inspection of the surrounding area to look for signs of movement or stress on the structure. In some cases, it may be necessary to conduct non-destructive testing, such as ground-penetrating radar or ultrasonic testing, to identify underlying issues.

Once the cause of the crack has been determined, the next step is to develop a repair strategy. This may involve filling the crack with an epoxy or other filler material, or it may require more extensive repairs such as reinforcement or replacement of the affected concrete section.

It is important to note that proper diagnosis of concrete cracks is essential to develop an effective repair strategy. Failure to address the underlying cause of the crack can result in further damage or even structural failure.

In conclusion, concrete crack diagnosis is an important process that requires a thorough understanding of the underlying causes of cracks. By identifying the type of crack and its cause, building owners can develop an effective repair strategy that will address the issue and prevent further damage to the structure.

Rebarring (Post installed bars)

We provide post-installed rebar design, which is a crucial process in the construction industry that involves the installation of steel bars into an existing concrete structure to reinforce it and increase its load-carrying capacity. The design of post-installed rebar is typically based on the loads given by the RCC consultant, and the resulting design document is submitted for approval before construction can proceed.

The post-installed rebar design process typically involves the following steps:

Load Calculation: The first step in the design process is to calculate the loads that the structure will be subjected to. This is typically done by the RCC consultant and includes factors such as dead loads, live loads, wind loads, and seismic loads.
Rebar Placement: Once the loads have been calculated, the next step is to determine the placement of the post-installed rebar. This will depend on the type and location of the loads, as well as the size and shape of the existing concrete structure.
Rebar Selection: The selection of the post-installed rebar is also an important factor in the design process. The rebar must be selected based on its strength and compatibility with the existing concrete structure.
ETA approved Epoxy chemical: Once the rebar placement and selection have been determined, the next step is to design the epoxy anchoring system. This system is used to secure the rebar in place and ensure that it can withstand the loads placed upon it.
Design Document: The final step in the design process is to create a design document that includes all of the calculations, drawings, and specifications for the post-installed rebar. This document is then submitted to the appropriate authorities for approval before construction can proceed.

It is important to note that post-installed rebar design is a complex process that requires specialized knowledge and expertise. Improper design or installation of post-installed rebar can result in a weakened structure that is unsafe for occupants and requires costly repairs. Therefore, it is essential to work with qualified professionals who have the necessary experience and equipment to ensure a successful post-installed rebar design and installation process.

Rebarring Service

Rebarring post-installed bars is a process that involves adding reinforcement to an existing concrete structure by installing new steel bars into the concrete. This technique is typically used when the existing concrete structure is insufficient to support the loads placed upon it, or when the structure has deteriorated over time.

The rebarring process typically involves the following steps:

Evaluation of the existing structure: Before the rebarring process can begin, the existing concrete structure must be evaluated to determine the appropriate reinforcement method. This evaluation may include an assessment of the loads placed upon the structure, the age and condition of the concrete, and any existing reinforcing steel.
Drilling: Once the evaluation is complete, the rebarring process begins with the drilling of holes into the existing concrete structure at the desired locations for the new reinforcing bars. The holes are typically drilled using a core drill or rotary hammer.
Cleaning: After the holes have been drilled, they are cleaned to remove any debris or loose material. This is typically done using compressed air or a vacuum.
Installation of bars: Once the holes are cleaned, the new reinforcing bars are installed into the holes using an epoxy adhesive or mechanical anchor. The bars are typically installed to extend beyond the existing concrete structure to provide additional support.
Grouting: After the bars are installed, the holes are grouted to ensure that the bars are securely anchored in place. This is typically done using a high-strength, non-shrink grout.
Final evaluation: Once the grout has cured, the rebarring process is complete. The final step involves a final evaluation of the reinforced structure to ensure that it is capable of supporting the intended loads.

It is important to note that the rebarring process should only be performed by qualified professionals with the necessary experience and equipment. Improper installation of reinforcing bars can result in a weakened structure, which can be hazardous to occupants and lead to costly repairs.

Concrete Scanning

Concrete scanning is a non-destructive testing method used to detect and locate reinforcing steel, tendons, and corrosion within concrete structures. These structures may include buildings, bridges, parking garages, and other structures that use concrete for support. By using concrete scanning for rebar detection, tendon detection, and corrosion detection, engineers and construction professionals can assess the condition of a structure and identify any areas that require repairs or maintenance.

Rebar Detection: Rebar detection is one of the most common uses of concrete scanning. Rebar is a critical component of concrete construction, and its proper placement and spacing are essential for the strength and durability of a structure. Concrete scanning for rebar detection involves using ground penetrating radar (GPR) or magnetic imaging to locate rebar within the concrete. This information is critical for making informed decisions about repairs, renovations, and maintenance.

Tendon Detection: Tendons are high-strength steel cables used to reinforce concrete structures, particularly in bridges and other long-span structures. Concrete scanning for tendon detection is essential for assessing the condition of the tendons and ensuring the structural integrity of the structure. Tendon detection involves using GPR or magnetic imaging to locate the tendons within the concrete. This information is critical for making informed decisions about repairs, renovations, and maintenance.

Corrosion Detection: Corrosion is a common problem in concrete structures and can weaken the structure over time. Corrosion can occur when the reinforcing steel within the concrete comes into contact with water or other corrosive materials. Concrete scanning for corrosion detection involves using electromagnetic techniques to detect the presence of corrosion within the concrete. This information is critical for making informed decisions about repairs, renovations, and maintenance.

In conclusion, concrete scanning for rebar detection, tendon detection, and corrosion detection is essential for ensuring the safety and durability of concrete structures. By accurately detecting and locating rebar, tendons, and corrosion, engineers and construction professionals can make informed decisions about the structural integrity of the concrete and take the necessary steps to ensure the safety and durability of the structure for years to come.

We provide services based on need of the customer

1. Quick Scanning

2. Detailed scanning report

Both above services have different commercial impact and it is request to send enquiry, to provide you best cost effective solution.

Fire Safety Audit of building (under construction and old)

A fire audit of a building is an assessment conducted by Shreya Construction Services to evaluate the fire safety measures implemented within a building. The audit is designed to identify any fire hazards or potential fire risks in the building and recommend improvements to reduce the risk of fire incidents.

During a fire audit, the fire safety professionals will evaluate the building's structural features, such as its construction materials, layout, and accessibility, to determine their potential impact on fire safety. They will also examine the building's fire protection systems, including fire alarms, sprinkler systems, fire doors, and emergency lighting, to ensure that they are functioning properly and in compliance with local fire safety regulations.

In addition, we will review the building's emergency plans and procedures to ensure that they are up-to-date and effective in the event of a fire. They may also conduct interviews with building occupants to gather information on any fire safety concerns or issues that need to be addressed.

After completing the audit, the fire safety professionals will provide a detailed report outlining their findings and recommendations for improving the building's fire safety. This report can be used by building owners, managers, and occupants to make necessary changes and ensure the safety of everyone within the building.

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On our retrofitting jobs, we give 10 years warranty.