Structural Beams Dealer & Supplier
Best Butt Weld Fittings Manufacturer in India since 1971.
Table of Contents
Teshi Group : Leading Manufacturer, Stockist, Supplier, and Exporter of Structural Beams in India.
Teshi Group is a distinguished manufacturer, stockist, supplier, and exporter of high-quality pipes in India, offering reliable solutions for a wide array of industrial and commercial applications. Renowned for their precision engineering and adherence to international standards, Teshi Group’s pipes are designed to deliver exceptional performance, durability, and corrosion resistance. Serving industries such as oil & gas, water treatment, construction, power generation, and petrochemicals, their product range includes pipes in various materials, diameters, and specifications to meet diverse client needs. With advanced manufacturing facilities and a robust quality assurance process, Teshi Group ensures that every pipe meets stringent performance criteria, even under demanding conditions. By maintaining a vast inventory and leveraging an efficient supply chain, they guarantee prompt delivery and seamless service for projects of any scale. Teshi Group’s commitment to innovation, competitive pricing, and customer-centric approach has made them a trusted partner for pipe solutions, supporting both domestic and global markets with unmatched reliability and excellence.
About Structural Beams :-
Pipes are essential components in engineering, construction, and infrastructure, designed to transport fluids, gases, and solids efficiently and safely. They serve as the backbone of systems in industries such as plumbing, oil and gas, water supply, wastewater management, power generation, chemical processing, and more. Pipes are available in a wide range of materials, sizes, and configurations, each tailored to specific applications and operating conditions.
The choice of pipe material depends on the type of substance being transported, pressure levels, temperature requirements, and environmental conditions. Common materials include metals such as steel, stainless steel, cast iron, copper, and aluminum, which are favored for their strength, durability, and ability to handle high pressures and temperatures. Non-metallic options, such as PVC, CPVC, polyethylene, and composite materials, are lightweight, corrosion-resistant, and cost-effective, making them ideal for water supply, drainage, and chemical transport systems.
Pipes are manufactured in various forms, including seamless, welded, and cast, to suit different requirements. Seamless pipes, made without joints, are preferred for high-pressure applications due to their uniform strength, while welded pipes are cost-effective and widely used for general purposes. Cast pipes, often made from iron or concrete, are typically used in large-diameter applications like drainage or sewer systems.
Standard sizes and classifications, such as nominal pipe size (NPS) and schedule numbers, are used to specify the diameter and wall thickness of pipes, ensuring compatibility with fittings, flanges, and other components. Pipes are also designed to meet international standards, including ANSI, ASTM, ASME, and ISO, to guarantee quality and performance in diverse applications.
Beyond transport, pipes play a critical role in structural applications, such as scaffolding, piling, and framing, due to their load-bearing capacity and versatility. Specialized pipes, such as insulated or lined pipes, are used in industries requiring thermal regulation or protection against corrosion and wear.
Installation methods vary, including threading, welding, or using compression or push-fit fittings, depending on the pipe material and system requirements. Modern advancements, such as prefabricated piping systems and modular designs, have further streamlined installation processes and improved efficiency.
Pipes are indispensable in modern infrastructure and industrial systems, enabling the safe and efficient movement of essential resources. Their adaptability, durability, and diverse range of materials and configurations ensure their relevance across countless applications, contributing significantly to global development and sustainability.
Teshi Group is an ISO certified Structural Beams manufacturer & distributor in India.
Structural Beams Grades
Specification, Grades & Material
Fabricated Items |
Specification |
|---|---|
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Standards
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ASTM A 276/A 276M,A 484/A 484M,A 564/A 564M,A 582/A582M,A 638 /A 638M,A705/A705M
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Form
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Ball Valve, Gate Valve, Globe Valve, Plug Valve, Butterfly Valve, Pinch Valve, Check Valve, Non-Return Valve, Foot Valve, Strainer, Needle Valve, Pressure Gauge, Temperature Guage, etc
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Class
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150 LBS, 300 LBS, 600 LBS, 900 LBS, 1500 LBS, 2500 LBS ASA 150, ASA 300, PN 6,10,16,25, 40,64,100,160 ETC. available with NACE MR 01-75
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Size
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6 NB to 600 NB
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Types
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Raised Face (RF), Flat Face (FF), Ring Type Joint (RTJ), Lap-Joint Face (LJF), Large Male-Female (LMF), Small Male-Female (SMF), Large Tongue & Groove, Small Tongue, Groove
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Fabricated Items |
Grade |
|---|---|
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Stainless Steel
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ASTM A105 A105, A350, AISI 1018, AISI 1045, En Series
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Duplex & Super Duplex Steel
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ASTM A276/ASME SA276 S31803 / S32205, Steel S32750/ S32760
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Carbon Steel
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ASTM A105 A105, A350, AISI 1018, AISI 1045, En Series
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Nickel Alloys
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ASTM B160 / ASME B160 200,201
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Hastelloy
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ASTM B574 / ASME B574 C22, C276, B2, B3, X
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Inconel
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ASTM B166 / ASME B166 Inconel 600 , 601 , 625 , 718 Incoloy 800 / 800H / 800HT ,825 , 925 , 330/ SS 330/ Ra 330
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Teshi Group Is A Leading Suppliers of Structural Beams
We supply Structural Beams to Agra, Ahmedabad, Ajmer, Aligarh, Allahabad, Ambattur, Amravati, Amritsar, Asansol, Aurangabad, Bangalore, Bareilly, Belgaum, Bhavnagar, Bhilai Nagar, Bhiwandi, Bhopal, Bhubaneswar, Bikaner, Chandigarh, Chennai, Coimbatore, Cuttack, Dehradun, Delhi, Dhanbad, Durgapur, Faridabad, Firozabad, Gaya, Ghaziabad, Gorakhpur, Gulbarga, Guntur, Gurgaon, Guwahati, Gwalior, Haora, Hubli and Dharwad, Hyderabad, Indore, Jabalpur, Jaipur, Jalandhar, Jalgaon, Jammu, Jamnagar, Jamshedpur, Jhansi, Jodhpur, Kalyan & Dombivali, Kanpur, Karnataka, Kochi, Kolapur, Kolkata, Kota, Loni, Lucknow, Ludhiana, Madurai, Maheshtala, Malegoan, Mangalore, Meerut, Mira, Bhayander, Moradabad, Mumbai, Nagpur,Nanded Waghala, Nashik, Navi Mumbai, Nellore, Noida, Patna, Pimpri & Chinchwad, Pune, Raipur, Rajkot, Ranchi, Saharanpur, Salem, Sangli Miraj Kupwad, Siliguri, Solapur, Srinagar, Surat, Thane, Thiruvananthapuram, Tiruchirappalli, Tirunelveli, Udaipur, Ujjain, Ulhasnagar, Vadodara, Varanasi, Vasai Virar, Vijayawada, Visakhapatnam, Warangal.
Structural Beams Exporter To All Major Cities In The World
We export Structural Beams to Seoul, Hanoi, Los Angeles, Rio de, Houston, York, Dammam, Al-Khobar, Bogota, Al-Jubail, Chiyoda, Abu Dhabi, Kuwait Santiago, Perth, Busan, London, Jakarta, Surat, Courbevoie, Dallas, Calgary, Mexico Muscat, Aberdeen, City, Edmonton, Riyadh, Caracas, Ahvaz, Brisbane, Moscow, Milan, Manama, Ulsan, Jaya, Granada, Vung Petaling, Melbourne, Montreal, Port-of-Spain, La Victoria, Istanbul, Janeiro, Karachi, New Singapore, Madrid, Lagos, Atyrau, Sydney, Kuala Dubai, City, Bangkok, Toronto, Gimhae-si, Lumpur, Jeddah, Pimpri-Chinchwad, Tehran, Doha, Ho-Chi-Minh-City, Algiers, Tau, Colombo, Ernakulam, Geoje-si, Cairo, Sharjah, Lahore.
Teshi exports Structural Beams in more than 50 countries. We have shipments going out monthly to different countries for our newly acquired customers. Our ready stock of Flanges helps us ship the Flange and meet the requirement and demands of our customers as fast as possible.
We Export Structural Beams to United States (USA), Canada, Germany, Japan, France, Middle-East, Bangladesh, Nepal etc.
Product
Export
Frequently Asked Questions
Most frequent questions and answers
What are structural beams used for in construction?
Structural beams are critical components in construction, providing support for loads by transferring weight to vertical supports like columns or walls. They are commonly used in buildings, bridges, and industrial structures to ensure stability and strength.
How are structural beams made?
Structural beams are typically manufactured through hot rolling, cold rolling, or welding processes. Hot rolling shapes the beams at high temperatures, while cold rolling produces smoother finishes. Welded beams are fabricated by joining multiple steel plates.
What materials are structural beams made from?
Structural beams are commonly made of steel, aluminum, or reinforced concrete. Steel is preferred for its high strength and durability, while aluminum is used for lightweight structures. Reinforced concrete beams are popular for cost-effective, heavy-duty applications.
How are structural beams sized and specified?
Beams are specified by their depth, width, flange thickness, and web thickness, along with the material grade. Standards such as ASTM, EN, or IS codes define these dimensions and the mechanical properties required for different applications.
What factors determine the selection of a beam type?
Selection depends on factors such as load requirements, span length, material properties, and the nature of the structure. For example, I-beams are ideal for heavy loads over long spans, while C-channels are better suited for light-duty applications.
What is the role of structural beams in earthquake-resistant design?
Structural beams play a key role in earthquake-resistant structures by distributing and absorbing seismic forces. Engineers design beams with flexibility and strength to prevent collapse and minimize damage during seismic events.
How are structural beams installed?
Installation involves positioning and securing beams using bolts, welds, or brackets. Proper alignment, bracing, and connections with columns or other supports are essential to ensure structural integrity and stability.
What is the importance of coatings or treatments for beams?
Coatings like galvanization, paint, or fireproofing improve durability by protecting beams from rust, corrosion, or fire damage. These treatments are particularly important in outdoor or industrial environments.
What are composite beams?
Composite beams combine materials, such as steel and concrete, to optimize strength, durability, and cost. For example, a steel beam encased in concrete provides enhanced fire resistance and load-bearing capacity.
Can structural beams be customized for unique designs?
Yes, structural beams can be custom-fabricated to meet specific design requirements. Customizations may include altering dimensions, adding holes or notches for connections, or applying specific coatings or finishes.
What testing is conducted on structural beams to ensure quality?
Quality testing includes tensile strength, load-bearing capacity, and non-destructive testing methods like ultrasonic or radiographic inspections. These tests ensure the beams meet safety and performance standards.
What is the lifespan of structural beams?
The lifespan depends on material, environmental conditions, and maintenance. Steel beams, when properly treated and maintained, can last several decades, while concrete beams may last even longer with proper care.
Are structural beams recyclable?
Yes, structural beams, particularly steel and aluminum types, are recyclable. They can be melted down and reused without significant loss of material properties, contributing to sustainable construction practices.
How do structural beams contribute to green building initiatives?
Structural beams made from recycled materials or those designed for disassembly and reuse align with green building principles. Using durable and recyclable materials reduces environmental impact.
What challenges are associated with using structural beams?
Challenges include the potential for corrosion, difficulty in transportation due to large sizes, and ensuring precise alignment during installation. These can be mitigated through proper design, material selection, and handling procedures.
What is the difference between a beam and a column?
Beams are horizontal structural elements that carry loads primarily in bending, transferring forces to vertical supports. Columns, on the other hand, are vertical elements designed to carry compressive loads. While beams support horizontal loads, columns support vertical loads, both working together to stabilize structures.
Can structural beams be welded or bolted together?
Yes, structural beams can be welded or bolted together depending on the design and the load requirements. Welding provides a seamless connection, while bolting allows for easier assembly and disassembly.
What is the purpose of beam cambering?
Beam cambering is the process of intentionally curving a beam upward during fabrication. This ensures that when the beam is loaded, it will straighten under pressure, preventing deflection and maintaining the required load-bearing capacity.
How do engineers calculate the load capacity of a beam?
Engineers use formulas based on the beam’s material properties, cross-sectional shape, span length, and type of load (point load or distributed load) to calculate the maximum load capacity. Factors such as moment of inertia, modulus of elasticity, and safety factors are considered in these calculations.
What is the significance of beam deflection in structural design?
Beam deflection refers to the vertical displacement of the beam under load. Excessive deflection can lead to structural failure, misalignment of connected elements, or aesthetic issues. Therefore, limiting deflection is critical in ensuring the beam performs as expected.
How do fire ratings affect structural beam design?
Structural beams must be designed to withstand the heat from a fire for a specified amount of time (fire rating). Fire-resistant coatings or fireproofing materials, such as intumescent paint or cementitious coatings, are applied to beams to improve their fire resistance.
What are the primary concerns when using wood beams instead of steel or concrete?
Wood beams are generally lighter and easier to handle, but they are susceptible to issues like rot, termite damage, and limited load-bearing capacity compared to steel or concrete. They are often used in residential construction or areas where aesthetics are a priority.
What role do structural beams play in bridge construction?
In bridge construction, structural beams support the deck, transferring the load of traffic or pedestrians to vertical supports (columns or piers). They are designed to handle heavy, dynamic loads and ensure the bridge’s safety and stability.
How do temperature variations affect structural beams?
Temperature changes can cause beams to expand or contract. In steel beams, thermal expansion can lead to deflection or stresses. Expansion joints or allowances for movement are incorporated in the design to mitigate this issue, ensuring the beam’s performance under temperature variations.
What are composite beams, and why are they used?
Composite beams are made by combining two or more materials, such as steel and concrete, to take advantage of their complementary properties. These beams are used for improved load-bearing capacity, durability, and cost-effectiveness, particularly in building floors or bridges.
Can structural beams be repaired if damaged?
Yes, structural beams can be repaired if damaged, but the method depends on the extent and type of damage. Minor cracks or corrosion can be addressed through reinforcement, welding, or patching. Severe damage may require replacing the beam.
What are the design considerations for beams in seismic zones?
In seismic zones, beams are designed to be more flexible to absorb and dissipate seismic forces. They are often reinforced with additional steel or bracing, and connections are designed to accommodate lateral movement, ensuring the structure can withstand earthquakes.
How do you ensure the stability of beams during construction?
Temporary bracing or shoring is often used to support beams during construction. Proper alignment and load distribution are essential to prevent deflection or misplacement before the beam is permanently installed and connected to other structural elements.
