SHALCO Industries stands as a leading manufacturer in the specialized field of stainless steel pipes, tubes, and high-performance nickel alloys. With a state-of-the-art 40,000 square foot manufacturing facility equipped with advanced machinery and comprehensive testing laboratories, SHALCO has established itself as a trusted partner for industries requiring precision-engineered metal products that meet the most stringent international standards.
This comprehensive guide explores everything you need to know about SHALCO Industries—from their extensive product range and manufacturing capabilities to their quality certifications and the industries they serve. Whether you're an engineer specifying materials for a critical project, a procurement professional seeking reliable suppliers, or a business looking for high-quality stainless steel solutions, this guide will provide valuable insights into what makes SHALCO a preferred choice in the specialty metals industry.
Company Overview: Setting Standards in Quality and Innovation
SHALCO Industries has built its reputation on a foundation of quality, precision, and customer-focused service. Operating from a modern manufacturing facility, the company combines traditional metallurgical expertise with cutting-edge technology to produce stainless steel pipes, tubes, and specialty alloy products that serve diverse industrial applications.
Core Competencies
Manufacturing Excellence: SHALCO's facility houses multiple production lines including tube mills, hot piercing mills, draw benches, and cold pilgering equipment, enabling the company to manufacture both welded and seamless products across a wide range of specifications.
Quality Assurance: With fully equipped testing laboratories on-site, every product undergoes rigorous quality control processes including non-destructive testing, mechanical testing, and dimensional verification before delivery to customers.
Technical Expertise: The company's engineering team provides technical support for material selection, helping customers choose the optimal grade and specification for their specific application requirements.
Industry Certifications: SHALCO holds numerous prestigious certifications that validate their quality management systems and technical capabilities, including ISO 9001:2015, ISO 14001:2015, ISO 45001:2018, IBR (Indian Boiler Regulations), and various OEM approvals.
Comprehensive Product Portfolio
SHALCO Industries offers an extensive range of stainless steel and specialty alloy products, each category engineered to meet specific performance requirements across diverse industrial applications.
1. Austenitic Stainless Steel
Austenitic stainless steels represent SHALCO's most versatile product line, suitable for a broad spectrum of applications requiring excellent corrosion resistance and formability.
Material Characteristics: Austenitic stainless steels are iron-chromium-nickel alloys with a minimum of 10.5% chromium that forms a protective passive oxide layer on the steel surface. This self-healing layer provides exceptional corrosion resistance by combining oxygen from the air with chromium, protecting the underlying steel from rust and degradation. The higher the chromium content, the superior the corrosion resistance.
Compositional Advantages: The austenitic structure, stabilized by nickel content typically ranging from 8-20%, provides several key benefits:
- Excellent corrosion resistance in diverse environments
- Superior ductility and formability for complex fabrication
- Non-magnetic properties (in most grades)
- Outstanding low-temperature toughness
- Good weldability without post-weld heat treatment
- Wide range of attractive surface finishes (bright, matt, embossed, tinted)
Common Grades: SHALCO produces austenitic stainless steels in popular grades including 304, 304L, 316, 316L, 321, and 347, among others. Each grade is optimized for specific service conditions:
- 304/304L: General-purpose grades for atmospheric and mildly corrosive environments
- 316/316L: Enhanced corrosion resistance with molybdenum addition, ideal for marine and chemical applications
- 321: Titanium-stabilized for elevated temperature service
- 347: Niobium-stabilized for resistance to intergranular corrosion
Product Forms: Available in seamless and welded pipes and tubes, plates, sheets, coils, bars, wires, fittings, and flanges.
Applications: Architectural and decorative applications, food and beverage processing equipment, pharmaceutical manufacturing, chemical processing plants, heat exchangers, pressure vessels, and structural applications.
2. Duplex Stainless Steel
Duplex stainless steels represent an advanced category offering superior strength and corrosion resistance compared to standard austenitic grades.
Microstructural Innovation: Duplex stainless steels feature a unique two-phase microstructure consisting of approximately equal proportions of austenite and ferrite phases. The austenite grains are surrounded by ferrite phase, creating a balanced structure that combines the best properties of both ferritic and austenitic steels.
Performance Advantages: This dual-phase structure delivers exceptional benefits:
- Higher Strength: Yield strength approximately twice that of austenitic stainless steels, enabling thinner wall sections and weight reduction
- Superior Corrosion Resistance: Enhanced resistance to stress corrosion cracking, pitting, and crevice corrosion, particularly in chloride-containing environments
- Cost-Effectiveness: Lower nickel content compared to austenitic grades reduces material costs while delivering superior performance
- Improved Weldability: Better resistance to heat-affected zone cracking than austenitic grades
Common Grades:
- 2205 (UNS S32205): The most widely used duplex grade, offering excellent balance of strength and corrosion resistance
- 2507 (UNS S32750): Super duplex grade with enhanced corrosion resistance for the most aggressive environments
- 2304 (UNS S32304): Lean duplex with lower alloy content for cost-sensitive applications
Applications: Duplex stainless steels are the material of choice for demanding applications including:
- Oil and gas industry: offshore platforms, subsea equipment, pipelines, and processing facilities
- Chemical processing: equipment handling aggressive chemicals, acids, and chlorides
- Marine applications: seawater piping, desalination plants, and shipbuilding
- Pulp and paper industry: digesters, bleaching equipment, and chemical recovery systems
- Heat exchangers operating in corrosive environments
3. Ferritic Stainless Steel
Ferritic stainless steels provide an economical solution for applications requiring good corrosion resistance without the need for high strength or extreme environmental resistance.
Metallurgical Properties: Ferritic stainless steels contain 10-20% chromium with low carbon content and minimal or no nickel. The ferritic (body-centered cubic) crystal structure remains stable from room temperature to melting point, distinguishing these alloys from austenitic grades.
Key Characteristics:
- Magnetic Properties: Unlike austenitic stainless steels, ferritic grades are magnetic, which can be advantageous in certain applications
- Excellent Formability: Outstanding ductility enables fabrication into thin sections and lightweight structures
- Corrosion Resistance: Good resistance to general corrosion and superior resistance to stress corrosion cracking compared to austenitic grades
- Oxidation Resistance: High chromium content provides resistance to scaling at elevated temperatures
- Cost Advantage: Significantly less expensive than austenitic grades due to low or no nickel content (typically 30-50% cost reduction)
Engineering Benefits: Ferritic stainless steels offer commendable engineering properties including ease of fabrication, excellent surface finish capability, and the ability to be produced in very thin gauges for weight-sensitive applications.
Common Grades:
- 430: General-purpose ferritic grade for moderate corrosion resistance applications
- 409: Low-chromium grade for automotive exhaust systems
- 434: Enhanced corrosion resistance with molybdenum addition
- 444: High-molybdenum grade for applications requiring superior corrosion resistance
Applications: Ferritic stainless steels are widely used in:
- Automotive exhaust systems and trim components
- Furnace and heat-treating equipment
- Food processing and preparation equipment
- Architectural and decorative applications
- Kitchen equipment and appliances
- Heat exchangers in less aggressive environments
4. Nickel Alloys
SHALCO's nickel alloy portfolio represents the pinnacle of corrosion-resistant and high-temperature materials, essential for the most demanding industrial applications.
Material Excellence: Nickel alloys are sophisticated engineering materials created by combining nickel with other elements such as chromium, molybdenum, iron, copper, and others. These alloys provide exceptional performance characteristics that surpass conventional stainless steels in aggressive environments.
Superior Performance Attributes:
- High-Temperature Strength: Maintains mechanical properties at temperatures exceeding 1000°C where stainless steels would fail
- Corrosion Resistance: Outstanding resistance to oxidizing and reducing acids, seawater, alkaline solutions, and complex chemical environments
- Oxidation Resistance: Forms stable protective oxide scales at elevated temperatures, preventing degradation
- Mechanical Integrity: Retains strength, ductility, and toughness across extreme temperature ranges
- Versatility: Performs reliably in both cryogenic and high-temperature applications
Product Range: SHALCO manufactures various nickel alloy grades including:
- Alloy 200/201: Commercially pure nickel for caustic and reducing environments
- Alloy 400 (Monel): Nickel-copper alloy excellent for seawater and hydrofluoric acid
- Alloy 600 (Inconel 600): Nickel-chromium alloy for oxidizing environments and high temperatures
- Alloy 625 (Inconel 625): High-strength alloy with exceptional corrosion resistance
- Alloy 800/800H/800HT (Incoloy): Iron-nickel-chromium alloys for elevated temperature service
- Alloy C-276 (Hastelloy C-276): Superior resistance to wide range of aggressive chemicals
Critical Applications: Nickel alloys are indispensable in industries where failure is not an option:
- Oil & Gas: Downhole components, subsea equipment, sour gas handling, refinery process units
- Chemical Processing: Reactors, heat exchangers, piping systems for acids and corrosive chemicals
- Aerospace: Gas turbine engines, exhaust systems, structural components exposed to high temperatures
- Power Generation: Steam generators, nuclear reactor components, gas turbine parts, pollution control equipment
- Pharmaceuticals: Process equipment requiring high purity and corrosion resistance
- Marine Engineering: Seawater systems, desalination plants, offshore platforms
5. Copper-Nickel Alloys (Cupronickel)
Copper-nickel alloys represent a specialized category optimized for marine and saline environments where conventional materials fail.
Composition and Structure: These alloys consist primarily of copper with nickel as the principal strengthening element, typically incorporating iron and manganese for enhanced performance. The nickel and copper form a highly homogeneous grain structure that ensures consistent and reliable performance.
Exceptional Marine Performance: Copper-nickel alloys are uniquely suited for marine applications due to:
- Seawater Corrosion Resistance: Outstanding resistance to saltwater corrosion and erosion
- Biofouling Resistance: Natural resistance to marine organism attachment, reducing maintenance
- Galvanic Compatibility: Can be coupled with other marine materials without excessive galvanic corrosion
- Thermal Conductivity: Excellent heat transfer properties for marine heat exchangers
- Fabricability: Easily formed, welded, and fabricated into complex shapes
Common Grades:
- 90/10 Copper-Nickel: 90% copper, 10% nickel - for general marine applications
- 70/30 Copper-Nickel: 70% copper, 30% nickel - for more aggressive seawater conditions
- 66/30/2/2: Copper-nickel with iron and manganese additions for enhanced properties
Product Forms: Available in sheets, plates, rods, pipes, tubes, flanges, and fittings, readily fabricated to meet specific application requirements.
Industrial Applications:
- Marine Industry: Ship hulls, seawater piping systems, condensers, heat exchangers, propeller shafts
- Desalination Plants: Tubing for multi-stage flash distillation and reverse osmosis systems
- Offshore Oil & Gas: Seawater handling systems, firefighting systems, platform piping
- Power Plants: Coastal power plant cooling water systems and condensers
- Chemical Processing: Equipment exposed to saline or brackish water
- Electrical Industry: Components requiring both conductivity and corrosion resistance
Advanced Manufacturing Processes
SHALCO Industries employs multiple sophisticated manufacturing processes, each optimized for specific product types and specifications. Understanding these processes helps customers appreciate the quality and precision of SHALCO's products.
Tube Mill Process (Welded Pipes and Tubes)
The tube mill process manufactures welded pipes through a precise sequence of operations that ensure dimensional accuracy and structural integrity.
Process Overview:
1. Raw Material Reception and Inspection: Metal coils of specific thickness undergo thorough inspection before processing. Quality requirements are governed by technical parameters ensuring only premium material enters production.
2. Leveling and Slitting: Coils are leveled to correct any deviations and achieve appropriate thickness. The continuous coil is then slit into strips using carbide cutters or precision saw blades.
3. Ultrasonic Inspection: Each strip undergoes automated ultrasonic testing with high sensitivity and penetrating power to detect even minuscule flaws. This non-destructive testing ensures defect-free material proceeds to forming operations.
4. Forming and Shaping: Strips pass through a series of precisely aligned rollers that progressively form the flat strip into a tubular shape. The roller configuration is carefully designed to create uniform curvature without material stress.
5. Electric Resistance Welding (ERW): The formed tube edges are welded longitudinally using Electric Resistance Welding technology. Electric current passes through electrodes creating heat through resistance, forming a strong butt weld under pressure. ERW offers high energy efficiency, excellent productivity, minimal inconsistencies, easy automation, and requires no filler metal.
6. Weld Inspection: Immediately after welding, the weld seam undergoes ultrasonic inspection to verify weld integrity and absence of defects.
7. Heat Treatment (Annealing): Pipes are annealed to remove internal stresses introduced during cold forming and welding. The controlled heating and cooling cycle improves ductility and toughness while maintaining strength.
8. Sizing and Finishing: In-line processes of sizing, fly cutting, and straightening ensure precise final dimensions and perfect straightness.
9. Final Testing:
- Hydrostatic Testing: Pressurized water testing detects leaks and verifies pressure-bearing capacity
- Eddy Current Testing: Identifies surface and subsurface flaws through electromagnetic induction
10. Quality Control and Packaging: Each pipe is weighed, measured, marked with specifications, and carefully packaged for shipment.
Hot Piercing Mill (Seamless Pipes)
The hot piercing process manufactures seamless pipes without longitudinal welds, ideal for high-pressure applications.
Process Fundamentals:
1. Billet Preparation: Steel rounds of appropriate grade, diameter, and weight are heated in rotary hearth furnaces to forging temperature (1250-1300°C). Billets are pre-cut to required lengths and indexed according to customer specifications.
2. Centering: A billet centering machine creates a 1-inch indentation at one end, providing a starting point for the piercing tool.
3. Rotary Piercing: The heated billet passes between two contoured work rolls rotating in the same direction with axes at 3-6 degrees to the horizontal. A water-cooled alloy piercing mandrel penetrates the billet center as the rolls impart rotation and translation. This dynamic process:
- Elongates material 1.5 to 2 times original length
- Reduces cross-section by 33-50%
- Creates high tensile stress at billet center facilitating piercing
- Forms a hollow tube shell in seconds
4. Support and Guidance: Non-driven support rolls and shoes maintain proper alignment and control the process parameters.
5. Pilgering (Optional): If required, the pierced tube undergoes cold pilgering for additional diameter and wall thickness reduction.
6. Cut-to-Length: Tubes are cut to specified lengths using precision cutting equipment.
7. Heat Treatment: Appropriate heat treatment (normalizing, annealing, or solution treatment) brings the material to required mechanical properties and microstructure.
8. Final Processing: Straightening, testing, and quality inspection before packaging.
Product Characteristics: Hot-pierced seamless pipes offer homogeneous microstructure, consistent physical properties throughout the cross-section, and are particularly suitable for oil and gas industry high-pressure applications.
Draw Bench Process (Cold Drawn Seamless Tubes)
Cold drawing refines seamless tube dimensions and properties through mechanical reduction at room temperature.
Process Steps:
1. Raw Material Selection: Hot-extruded seamless pipes with verified chemistry and dimensions serve as starting material.
2. Pointing: Tube ends are reduced in diameter through push pointing, rotary swaging, or squeeze pointing to allow entry into the drawing die.
3. Drawing Setup: The draw bench consists of a back bench for feeding, die head containing the reducing die, and front section for pulling.
4. Rod Drawing (with Mandrel):
- A hardened steel mandrel is inserted inside the tube
- A gripper attaches to the pointed end
- The tube is pulled through the die with mandrel in place
- Die size controls outer diameter; mandrel size controls inner diameter
- Lubricating oil reduces friction during drawing
- Both outer diameter and wall thickness are reduced
- Excellent drawing speeds and reduction ratios achieved
5. Sink Drawing (without Mandrel):
- Tube is drawn through die without internal support
- Reduces outer diameter with minimal wall thickness change
- Often used as final sizing operation after rod drawing
- Produces precise dimensional tolerances
6. Lubrication: Chlorinated oils provide necessary lubrication, reducing friction and tool wear while preventing galling.
7. Heat Treatment: Annealing removes internal stresses from cold working and softens the material for subsequent operations or final use.
8. Finishing: Straightening, cleaning, cutting to length, and deburring produce finished cold-drawn tubes.
Product Advantages: Cold-drawn tubes exhibit bright polished finish, increased mechanical strength, improved machinability, and precise uniform dimensional tolerances superior to hot-finished products.
Cold Pilgering Process
Cold pilgering achieves significant dimensional reduction with exceptional precision and improved material properties.
Process Description:
1. Starting Material: Hot-extruded seamless pipe serves as the starting material for cold reduction.
2. Pilgering Reduction:
- A stationary tapered mandrel is placed inside the tube
- Upper and lower dies in a saddle assembly are forced over the tube's outer diameter
- The mandrel maintains inner diameter while dies reduce outer diameter
- Cyclic mandrel rotation ensures uniform reduction
- Achieves 50-60% reduction in diameter and wall thickness in single pass
- Produces significantly longer tubes than starting material
3. Cleaning: Thorough degreasing and drying prepare the tube for heat treatment.
4. Annealing: Controlled heating, soaking, and cooling remove cold-working stresses and restore ductility.
5. Straightening: Roller leveling eliminates any bends or deviations.
6. Cutting and Deburring: Precision cutting to length and removal of all burrs and sharp edges.
7. Surface Treatment: Pickling, passivation, or other treatments remove surface impurities, stains, and contaminants while enhancing corrosion resistance.
8. Non-Destructive Testing:
- Hydrostatic Testing: Pressure testing verifies leak-tightness and strength
- Eddy Current Testing: Detects surface and subsurface discontinuities
- Ultrasonic Testing: Identifies internal defects
9. Mechanical Testing: Hardness, tensile strength, and yield strength verification.
10. Quality Assurance and Packaging: Final dimensional inspection, quality certification, and protective packaging for shipment.
Process Benefits: Cold pilgering dramatically improves material structure through cold working, achieves precise dimensions with tight tolerances, produces excellent surface finish, and enables high reduction ratios impossible with other cold working methods.
Quality Certifications and Standards
SHALCO Industries' commitment to quality is evidenced by an impressive array of certifications and approvals from international standards organizations and industry bodies.
International Quality Management Standards
ISO 9001:2015 - Quality Management System: This certification demonstrates SHALCO's implementation of a comprehensive quality management system covering all aspects of operations from design and development through production, testing, and delivery. ISO 9001 ensures consistent product quality, customer satisfaction, and continuous improvement.
ISO 14001:2015 - Environmental Management System: SHALCO's environmental certification confirms commitment to minimizing environmental impact through proper waste management, energy efficiency, pollution prevention, and compliance with environmental regulations.
ISO 45001:2018 - Occupational Health and Safety Management: This certification validates SHALCO's dedication to providing a safe and healthy work environment through systematic identification and control of health and safety risks.
Industry-Specific Certifications
IBR (Indian Boiler Regulations) Certificate: This critical certification authorizes SHALCO to manufacture pipes and tubes for boiler applications, demonstrating compliance with stringent safety and quality requirements for pressure-bearing equipment.
NORSOK Approval: NORSOK standards are developed by the Norwegian petroleum industry for worldwide application. This approval qualifies SHALCO products for offshore oil and gas applications, one of the most demanding industrial sectors.
PDIL (Projects and Development India Limited) Certificate: Approval from this Indian government enterprise validates SHALCO's capability to supply materials for fertilizer, petrochemical, and other industrial projects.
UDT (Office of Technical Inspection) Certificate: This certification confirms compliance with technical requirements for pressure equipment, demonstrating SHALCO's products meet stringent safety standards.
OEM Certificates: Original Equipment Manufacturer certifications from various clients confirm SHALCO's products meet specific technical requirements and quality standards of major industrial equipment manufacturers.
TOYO Enlistment Certificate: Approval from Toyo Engineering, a leading international engineering and construction company, qualifies SHALCO as an approved supplier for major industrial projects.
MSME (Micro, Small & Medium Enterprises) Registration: Government recognition supporting and promoting SHALCO's role in industrial development.
Significance for Customers
These certifications provide customers with confidence that:
- Products meet international quality standards
- Manufacturing processes are controlled and consistent
- Quality management systems ensure traceability and accountability
- Environmental and safety standards are maintained
- Products are suitable for critical applications in regulated industries
- Continuous improvement processes drive ongoing enhancement
Industries Served and Applications
SHALCO Industries' products find applications across diverse industrial sectors where performance, reliability, and quality are non-negotiable.
Oil and Gas Industry
Upstream Applications:
- Downhole tubing and casing
- Wellhead equipment and Christmas trees
- Gathering lines and flow lines
- Offshore platform piping systems
Midstream and Downstream:
- Refinery process piping
- Heat exchangers and condensers
- Pressure vessels
- Storage tank components
Material Requirements: The oil and gas industry demands materials that withstand sour gas environments, high pressures, extreme temperatures, and corrosive fluids. SHALCO's duplex stainless steels, nickel alloys, and specialty grades meet these challenging requirements.
Chemical and Petrochemical Processing
Equipment and Systems:
- Reactor vessels and columns
- Heat exchangers and condensers
- Piping systems for acids, caustics, and solvents
- Storage tanks and containers
- Pumps and valve components
Material Selection: Each chemical environment requires specific material grades. SHALCO's extensive product range ensures optimal corrosion resistance for applications involving sulfuric acid, hydrochloric acid, nitric acid, phosphoric acid, caustic solutions, and organic chemicals.
Power Generation
Conventional Power:
- Boiler tubes and headers
- Superheater and reheater tubes
- Economizer tubing
- Condenser tubes
- Feedwater heaters
Nuclear Power:
- Steam generator tubing (nickel alloys)
- Reactor internals
- Coolant piping systems
Renewable Energy:
- Geothermal well casings
- Solar thermal receiver tubes
- Biofuel processing equipment
Marine and Offshore
Shipbuilding:
- Seawater piping systems
- Ballast water systems
- Fire protection systems
- Deck machinery components
Offshore Structures:
- Platform piping and process equipment
- Subsea pipeline systems
- Riser and flowline components
- Injection water systems
Material Advantage: Copper-nickel alloys, duplex stainless steels, and super austenitic grades provide superior seawater corrosion resistance essential for marine applications.
Pharmaceutical and Biotechnology
Process Equipment:
- Reaction vessels and fermenters
- Process piping and tube assemblies
- Heat exchangers and condensers
- Storage vessels for active pharmaceutical ingredients
- Clean-in-place (CIP) systems
Critical Requirements: Pharmaceutical applications demand materials that are non-reactive, cleanable to sanitary standards, corrosion-resistant to sterilization chemicals, and meet FDA requirements. SHALCO's 316L stainless steel is the industry standard for pharmaceutical manufacturing.
Food and Beverage Processing
Equipment Types:
- Processing vessels and tanks
- Heat exchangers and pasteurizers
- Piping systems for liquids and slurries
- Storage silos and containers
- Dairy processing equipment
- Brewery and winery equipment
Sanitary Standards: Food-grade stainless steel must be cleanable, non-reactive with food products, corrosion-resistant to cleaning chemicals and sanitizers, and compliant with food safety regulations.
Aerospace and Defense
High-Temperature Components:
- Gas turbine parts
- Exhaust systems
- Combustion chambers
- Afterburner components
Structural Applications:
- Airframe components
- Landing gear parts
- Hydraulic system tubing
Performance Requirements: Aerospace demands high strength-to-weight ratios, elevated temperature capability, corrosion resistance, and rigorous quality control—all hallmarks of SHALCO's specialty alloy products.
Pulp and Paper Manufacturing
Process Equipment:
- Digester vessels and piping
- Bleaching towers and equipment
- Chemical recovery systems
- Stock handling piping
- Evaporators and heat exchangers
Corrosive Environment: Pulp and paper processes involve aggressive chemicals at elevated temperatures. Stainless steels and nickel alloys resist the corrosive effects of bleaching chemicals, black liquor, and kraft process chemicals.
Desalination and Water Treatment
Systems and Components:
- Multi-stage flash distillation equipment
- Reverse osmosis pressure vessels
- Seawater intake and brine disposal piping
- Heat exchangers and evaporators
- Filtration system components
Material Selection: Desalination requires materials resistant to seawater corrosion, chlorides, elevated temperatures, and biofouling. Super austenitic stainless steels, duplex grades, and copper-nickel alloys excel in these applications.
Technical Support and Customer Service
SHALCO Industries distinguishes itself not just through product quality but through comprehensive technical support that helps customers achieve optimal results.
Engineering Assistance
Material Selection Guidance: SHALCO's technical team helps customers select the appropriate material grade based on:
- Service environment (temperature, pressure, chemical exposure)
- Mechanical property requirements
- Corrosion resistance needs
- Fabrication requirements
- Cost considerations
- Regulatory compliance requirements
Custom Specifications: When standard products don't meet specific needs, SHALCO works with customers to develop custom specifications for:
- Non-standard dimensions
- Special mechanical properties
- Unique heat treatment requirements
- Alternative testing procedures
- Special surface finishes
Quality Documentation
Material Test Reports (MTR): Each product shipment includes comprehensive MTRs documenting:
- Chemical composition analysis
- Mechanical property test results
- Heat treatment details
- Non-destructive testing results
- Dimensional inspection data
- Traceability information (heat numbers, lot codes)
Compliance Certification: Products can be certified to various international standards including ASTM, ASME, EN, DIN, JIS, and others as required by customer specifications.
Third-Party Inspection: SHALCO accommodates third-party inspection services when required by customers or project specifications, providing access to manufacturing processes and test facilities.
Logistics and Delivery
Inventory Management: For customers requiring ongoing supply, SHALCO can maintain inventory to ensure just-in-time delivery and minimize customer inventory costs.
Global Shipping: With experience shipping to international destinations, SHALCO handles export documentation, packaging for international transport, and coordination with freight forwarders.
Order Tracking: Customers receive updates on order status from material procurement through production, testing, and shipment.
Conclusion: Your Partner in Specialty Metal Solutions
SHALCO Industries represents more than just a manufacturer of stainless steel pipes and tubes—they are a comprehensive solutions provider committed to helping customers succeed through quality products, technical expertise, and responsive service. From their modern 40,000 square foot facility equipped with the latest manufacturing technology to their extensive certifications from international standards bodies, every aspect of SHALCO's operations reflects a dedication to excellence.
Whether your project requires standard austenitic stainless steel piping, high-performance duplex alloys for offshore platforms, nickel alloys for extreme chemical environments, or copper-nickel products for marine applications, SHALCO Industries has the products, capabilities, and expertise to meet your needs.
The company's ISO 9001:2015 certification ensures consistent quality management, while industry-specific approvals like IBR, NORSOK, and various OEM certifications validate their technical capabilities for critical applications. With comprehensive in-house testing facilities and rigorous quality control processes, every product that leaves SHALCO's facility meets or exceeds specified requirements.
For industries where material failure is not an option—oil and gas, chemical processing, power generation, pharmaceuticals, marine engineering, and aerospace—SHALCO Industries provides the reliability, quality, and technical support that projects demand. Their commitment to customer service, from initial material selection guidance through post-delivery support, ensures that customers receive not just products but complete solutions.
As global industries continue to demand higher performance materials that can withstand increasingly severe service conditions while meeting stringent environmental and safety regulations, SHALCO Industries stands ready to meet these challenges with innovative products, proven manufacturing excellence, and unwavering commitment to customer success.
