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ananka-fasteners · 3 months

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Ananka

Q1) How do you deal with hex bolts that have become frozen or rusted?

Ans) Dealing with frozen or rusted hex bolts can be a challenging task, but with the right approach and tools, you can often successfully remove them without causing further damage. Here's a step-by-step guide on how to deal with frozen or rusted hex bolts:

1. Penetrating Oil: Apply a high-quality penetrating oil, such as WD-40 or PB Blaster, to the rusted area around the bolt. Allow the oil to penetrate for a few hours or overnight. This helps to loosen the rust and make it easier to turn the bolt.

2. Heat: If the bolt is severely rusted, using heat can help expand the metal and break the rust's grip. Use a propane torch to carefully heat the area around the bolt, focusing on the nut or threaded section. Be cautious not to overheat and damage surrounding components.

3. Impact Wrench: An impact wrench delivers sudden bursts of force, which can help break the rust's grip on the threads. Attach the appropriate socket to the impact wrench and attempt to turn the bolt. Make sure you're using the correct size socket to avoid damaging the bolt head.

4. Manual Wrench: If an impact wrench isn't available, use a manual wrench or a breaker bar for additional leverage. Slowly apply pressure in both directions (loosening and tightening) to help break the rust's hold.

5. Tapping: Gently tap the bolt head with a hammer. This can help to break the rust loose and make it easier to turn the bolt.

6. Back and Forth: Gradually alternate between turning the bolt clockwise and counterclockwise. This can help work the penetrating oil into the threads and break the rust's bond.

7. Use of Vise Grips: If the bolt head becomes rounded due to rust, use vise grips or locking pliers to grip onto the sides of the bolt head and turn it.

8. Cutting or Grinding: As a last resort, if the bolt is completely seized and cannot be loosened, you might need to cut or grind the bolt off. This will require careful precision to avoid damaging the surrounding components.

Remember to exercise caution throughout the process to avoid causing additional damage. If the bolt is crucial to the structural integrity of the assembly, or if you're unsure about the best approach, it's recommended to seek assistance from a professional mechanic or technician.

Fasteners Manufacturers in India

Q2) Can hex nuts be used in applications requiring resistance to extreme temperatures?

Ans) Hex nuts can indeed be used in applications that require resistance to extreme temperatures, but the choice of material for the hex nuts is critical. The performance of hex nuts in high-temperature environments depends on the material's ability to withstand thermal expansion, oxidation, and other factors associated with elevated temperatures. Here's how to approach using hex nuts in extreme temperature conditions:

1. Material Selection: Choose hex nuts made from materials that are specifically designed to withstand high temperatures. Some materials suitable for high-temperature applications include:

- Stainless Steel: Certain grades of stainless steel, such as 310 or 316, have good resistance to oxidation and corrosion at high temperatures.

- Inconel: Inconel alloys are known for their excellent high-temperature strength and corrosion resistance.

- Hastelloy: Hastelloy alloys are designed to perform well in high-temperature and corrosive environments.

- Nickel Alloys: Nickel-based alloys, like Monel and Nimonic, offer high-temperature stability and resistance to oxidation.

2. Temperature Range: Consider the specific temperature range of your application. Some materials may be suitable for moderately high temperatures, while others are designed for extremely high temperatures.

3. Corrosion Resistance: In addition to withstanding high temperatures, the selected material should also resist corrosion and oxidation, which can be prevalent in extreme environments.

4. Manufacturing Standards: Ensure that the hex nuts meet relevant manufacturing standards and specifications for high-temperature applications. This includes factors like material composition, heat treatment, and testing.

5. Proper Torque: When tightening hex nuts in high-temperature environments, be mindful of the temperature's impact on the material's strength and thermal expansion. Follow torque specifications and consider using thermal compensation formulas to achieve accurate torque values.

6. Thermal Expansion: Different materials exhibit varying rates of thermal expansion. Take into account the potential for differential thermal expansion between the hex nut and the components it's fastening. This can affect the integrity of the connection in extreme temperature changes.

7. Insulation: In some cases, adding insulation materials between the hex nut and the high-temperature components can help manage the effects of thermal expansion and ensure a secure connection.

It's important to note that while hex nuts made from specialized materials can withstand high temperatures, there are limits to their performance. Extremely high temperatures can still affect even the most heat-resistant materials, leading to potential degradation over time. Consulting with materials engineers, reviewing technical data sheets, and adhering to recommended guidelines for the chosen material are crucial steps when using hex nuts in applications requiring resistance to extreme temperatures.

Fasteners Manufacturers in Mumbai

Q3) Can plain washers be used in applications requiring resistance to vibrations?

Ans) Plain washers can be used in applications requiring resistance to vibrations, but there are certain considerations to keep in mind. While plain washers themselves may not provide significant vibration resistance on their own, they can be part of a comprehensive fastening strategy that includes other components designed to dampen vibrations. Here's how you can use plain washers in applications where vibration resistance is crucial:

1. Material Selection: Choose plain washers made from materials that can absorb or dampen vibrations. Rubber or elastomeric washers are often used for their vibration-dampening properties.

2. Sandwich Configuration: Use a sandwich configuration where rubber or elastomeric washers are placed between the fastener (such as a bolt or screw) and the surfaces being joined. These washers can absorb and mitigate vibrations, preventing them from transmitting through the connection.

3. Lock Washers: Some lock washers, such as split lock washers or serrated lock washers, are designed to create tension in the fastener assembly. While they are not specifically for vibration resistance, the tension they provide can help prevent loosening due to vibrations.

4. Spring Washers: Spring washers, also known as Belleville washers, are conical washers that provide a spring-like action. They can help maintain tension in a joint and compensate for thermal expansion or vibrations.

5. Tightening and Torque: Properly tightening the fasteners to the recommended torque specification can help maintain the integrity of the joint and reduce the risk of loosening due to vibrations.

6. Inspection and Maintenance: Regularly inspect the fasteners and washers for any signs of loosening or damage. Address any issues promptly to prevent further complications.

7. Engineering Analysis: For critical applications, especially those involving high levels of vibration, it's advisable to conduct engineering analysis and simulations to ensure that the chosen fastening strategy will effectively resist vibrations over the intended lifespan of the assembly.

It's important to note that in applications with severe vibration conditions, specialized anti-vibration fasteners or components may be necessary. These could include products like vibration-dampening mounts, rubber isolators, or spring-loaded fasteners specifically designed to absorb and reduce vibrations.

Ultimately, while plain washers themselves may not offer substantial vibration resistance, their proper selection and integration into a well-designed fastening system can contribute to the overall effectiveness of vibration resistance in an assembly.

Top Fasteners Manufacturers in India

Q4) Can stud bolts be used in applications requiring resistance to extreme temperatures?

Ans) Yes, stud bolts can be used in applications requiring resistance to extreme temperatures, but similar to other fasteners, the choice of material is crucial to ensure their performance and integrity. Stud bolts are used in various industries and applications, and their ability to withstand high temperatures depends on the material they are made from. Here are some considerations when using stud bolts in extreme temperature conditions:

1. Material Selection: Choose stud bolt materials that are specifically designed to withstand high temperatures without compromising their mechanical properties. Common high-temperature materials include:

- Stainless Steel: Certain grades of stainless steel, such as 310 or 316, are known for their high-temperature resistance and corrosion resistance.

- Inconel: Inconel alloys are renowned for their exceptional high-temperature strength, oxidation resistance, and creep resistance.

- Hastelloy: Hastelloy alloys are well-suited for high-temperature and corrosive environments.

- Nickel Alloys: Nickel-based alloys, like Monel and Nimonic, offer excellent high-temperature stability and corrosion resistance.

2. Temperature Range: Consider the specific temperature range of your application. Different materials have different maximum service temperatures, and it's important to select a material that can handle the intended temperature extremes.

3. Corrosion Resistance: High-temperature environments can accelerate corrosion and oxidation processes. Ensure that the selected material has excellent corrosion resistance properties to maintain its integrity over time.

4. Manufacturing Standards: Ensure that the stud bolts meet relevant manufacturing standards and specifications for high-temperature applications. This includes factors like material composition, heat treatment, and testing.

5. Thermal Expansion: Different materials exhibit varying rates of thermal expansion. Take into account the potential for differential thermal expansion between the stud bolt and the components it's fastening, which can affect the integrity of the connection in extreme temperature changes.

6. Proper Torque: The material's behavior at high temperatures may affect its mechanical properties, including yield strength. Be aware of these changes when tightening stud bolts and follow recommended torque specifications.

7. Insulation and Protection: In some cases, using insulation materials or protective coatings can help manage the effects of thermal expansion and contraction, as well as protect the stud bolts from oxidation or corrosion.

8. Engineering Analysis: For critical applications that involve high-temperature environments, conducting engineering analysis and simulations can help ensure that the chosen stud bolt material will withstand the conditions over the intended lifespan of the assembly.

It's important to consult with materials engineers, review technical data sheets, and adhere to recommended guidelines for the chosen material to ensure that stud bolts perform reliably in extreme temperature applications.

Top Fasteners Manufacturers in India

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bullionpipestainlesssteel · 8 months

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What industries use fasteners?

Fasteners play a critical role in construction, manufacturing, and engineering. As a leading force in the industry, Bullion Pipes & Tubes LLP stands out as the premier fasteners manufacturer, supplier, stockist, and exporter worldwide. With an extensive range that includes Bolts, Nuts, Screws, Washers, Studs, Rivets, Self-Clinching Fasteners, and more, our commitment is to provide top-notch solutions that cater to diverse project requirements.

This blog post aims to shed light on the diverse industries that heavily rely on fasteners, emphasizing the broad spectrum of applications our products cater to.

Types of Fasteners We Offer

With us, we offer fasteners with a variety of Types and Features, including the following;

Bolts: These threaded fasteners require corresponding nuts for secure connections. Choose from an array of head styles, including hex head, socket head, and round head.

Nuts: Complementing bolts, nuts secure connections. Opt for hex nuts, lock nuts, or wing nuts based on specific application requirements.

Screws: Known for versatility, screws find use in diverse applications. Choose from different head styles like Phillips, flat, or hex, and opt for self-tapping or machine screws.

Washers: Flat and disk-shaped, washers play a pivotal role in distributing fastener loads and protecting surfaces. Types include flat, lock, and spring washers.

Studs: Characterized by threaded rods without heads on one end, studs are ideal for dual-threaded connections and situations where nuts are impractical.

Rivets: Permanent fasteners with a cylindrical shaft and deformed head create a secure connection.

Pins: Cylindrical fasteners for alignment, securing, or support, including types like dowel, cotter, and clevis pins.

Anchors: These fasteners affix objects to hard surfaces, such as concrete. Common types involve wedge, sleeve, and drop-in anchors.

Clips and Clamps: Secure items like hoses and cables using clips and clamps, such as hose clamps, spring clips, and wire rope clamps.

Threaded Rods: Lengthy straight rods with continuous threading, frequently used for hanging and providing support.

U-Bolts: Featuring a U-shaped design with threads on both ends, they secure round objects to surfaces.

Eye Bolts: Equipped with a loop or "eye," these bolts are designed for lifting and securing heavy loads.

Stud Bolts: Threaded at both ends with an unthreaded portion in the middle, commonly used in flange connections.

Self-Clinching Fasteners: Specifically designed for sheet metal and thin materials, including self-clinching nuts, studs, and standoffs.

Hinges and Latches: Serving as fasteners for attaching doors, gates, and panels, they include hinges, hasps, and latches.

Materials Wise Grade We Offer – Fasteners

At, Bullion Pipes & Tubes LLP, provides a wide variety of fasteners, including;

Copper – CDA 102, CDA 101, CDA 110

Titanium – Titanium Alloy Gr 2 & Titanium Alloy Gr 5

Monel – Monel K500 & Monel 400

Carbon Steel – ASTM A193/194 & ASME SA193/194 Carbon Steel

Brass – Alloy 260, Alloy C48200 – C48500, Alloy 385, Alloy 360, Alloy 353, Alloy 330, Alloy 272, Alloy 464

Tantalum – RO5200， RO5400， RO5252(Ta2.5W)， RO5255(Ta10W)

Inconel – Inconel 718, Inconel 600, Inconel 601, Inconel 625

Aluminum – he 20 65032 6061, he 30 64430, ASTM 6061, 6063, 6351

Nickel – Nickel Alloy 200/201

SMO 254 – ASTM A 479 ASME SA 479

Duplex Steel – Duplex Steel UNS S32205, Duplex Steel UNS S31803

Hastelloy – Hastelloy C22 & Hastelloy B2, Hastelloy C276

Super Duplex Steel – Super Duplex Steel UNS S32750, Super Duplex Steel UNS S32760

Incoloy – Incoloy 800/800H/800HT, Incoloy 825

Alloy 20 – DIN 2.4460 Alloy Hexagonal Nut, Alloy 20 Bolts, UNS N08020 Alloy 20 Screws, Alloy 20 Washers

Industries Uses Fasteners

Here are some industries where fasteners are used extensively:

Construction: Fasteners such as bolts, nuts, screws, and anchors are widely used in the construction industry for connecting structural elements like beams, columns, and panels.

Automotive: The automotive industry relies heavily on fasteners for assembling vehicles. A variety of screws, bolts, nuts, and clips are used in the manufacturing of cars, trucks, motorcycles, and other vehicles.

Aerospace: Aerospace applications require precision and reliability. Fasteners play a critical role in assembling aircraft and spacecraft components, ensuring safety and structural integrity.

Manufacturing: In general manufacturing processes, fasteners are used to assemble a wide range of products across different industries, including appliances, electronics, and consumer goods.

Energy: Fasteners are used in the energy sector for assembling components in power plants, wind turbines, solar panels, and other energy infrastructure.

Shipbuilding: The shipbuilding industry relies on fasteners for assembling the various components of ships, including the hull, decks, and internal structures.

Railway: They are crucial in the railway industry for connecting rail tracks, assembling train components, and maintaining the structural integrity of railway infrastructure.

Oil and Gas: In the oil and gas industry, fasteners are used in the construction and maintenance of pipelines, platforms, and other infrastructure.

Electronics: Fasteners play a role in the assembly of electronic devices and equipment. They are used to secure components on circuit boards and in the housing of electronic products.

Medical Devices: Fasteners are used to ensure that components are held together in a precise manner in medical devices and equipment.

Furniture: In the furniture industry, fasteners such as screws, bolts, and nuts are used to assemble various types of furniture, from simple household items to complex office furniture.

Final Words! As a global Fasteners Supplier, Manufacturer Stockist, and Exporter, Bullion Pipes & Tubes LLP takes pride in contributing to the success of diverse industries. Our fasteners, available in an array of sizes, specifications, standards, grades, materials, and types, offer versatility and reliability. Whether it's bolts, nuts, screws, washers, studs, rivets, or self-clinching fasteners, our commitment to quality ensures that our customers can confidently choose the perfect solution for their project requirements. Contact us today at [email protected] or [email protected] to explore how our fasteners can enhance the strength and durability of your applications.

#Fastener Supplier #Fasteners Manufacturer

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jimitjain · 1 year

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Best Quality Bolt Manufacturers in India

A bolt is a type of fastener that is commonly used in construction, manufacturing, and mechanical applications. Bolts are designed to secure two or more objects together by threading through a hole in one object and attaching to a nut on the other side. They come in various shapes, sizes, and materials, Bolt Manufacturers in India including stainless steel, brass, and alloy steel. Bolts can be used in a wide range of applications, from simple DIY projects to complex machinery and infrastructure. Quality bolts are essential to ensure safety and reliability in various industries, and Indian bolt manufacturers are known for producing high-quality bolts that meet international standards.

India is home to many leading manufacturers of screws, bolts, and nuts. These manufacturers produce high-quality products that meet the diverse needs of customers from different industries. Whether you need fasteners for automotive, construction, or industrial applications, you can find reliable screw and bolt manufacturers in India.

Screw Manufacturers in India:

Screw manufacturers in India offer a wide range of screws in different sizes, materials, and finishes. They use advanced manufacturing technologies and strict quality control processes to produce screws that meet international standards. Some of the most popular types of screws produced by Indian manufacturers include wood screws, machine screws, self-tapping screws, and sheet metal screws.

Bolt Manufacturers in India:

Bolt manufacturers in India also produce a wide range of bolts in different sizes, materials, and finishes. They use high-grade materials like stainless steel, brass, and alloy steel to ensure the bolts are durable and reliable. Some of the most common types of bolts produced by Indian manufacturers include hex bolts, carriage bolts, anchor bolts, and U-bolts.

Nut Bolt Manufacturer in India:

Nut and bolt manufacturers in India offer a one-stop solution for customers who need both fasteners. They produce high-quality nuts and bolts that are compatible with each other and come in various sizes, materials, and finishes. Some of the popular types of nuts and bolts produced by Indian manufacturers include hex nuts, wing nuts, lock nuts, carriage bolts, and eye bolts.

When choosing a screw, bolt, or nut manufacturer in India, it is essential to consider several factors, such as quality, pricing, delivery time, and customer service. Look for a manufacturer that has a good reputation in the industry, uses high-quality materials, and has a robust quality control process.

Aashish Steel is a reputable manufacturer, supplier, and exporter of stainless steel Inconel Fasteners Manufacturer in India. Stainless steel Inconel Fasteners Manufacturer in India are adaptable goods that fall under various requirements and classifications. Aashish Steel is a leading Monel Fastener Manufacturer in India. Monel Fasteners are versatile items that come in a variety of specifications and categories. We are also the leading Bolt Supplier in Ludhiana and Bolt Supplier in Ahmedabad.

Visit: asnutbolt.com

#boltmanufacturers in india #nut manufacturer in India

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purohitpipes · 1 year

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What are the different grades of forged fittings?

What is a forged fitting?

Pipe fittings made from forged carbon steel are known as forged steel fittings. The forging process is used to create very strong fittings. Carbon steel is heated to molten temperatures and inserted into dies. Forged steel fittings are then machined using the heated steel.

A wide variety of equipment is connected with forged fittings, including pumps, valves, pipes, and many others. There are two main types of these fittings, threaded fittings and socket weld fittings, which are used to connect pipes with fittings by screwing them together. In addition to being available in a variety of materials and grades, these forged fittings are widely available.

The use of forged fittings is to link pipes, pumps, valves, etc. to construct piping systems that are smaller than 2 or 4 inches in diameter.

Forged fittings are generally of two types: socket-weld fittings which are welded to pipes and threaded fittings which are screwed onto pipes.

Asme B16.11, MSS SP 75, MSS SP 83, MSS SP 95 specification covers forged fittings, both socket weld and threaded, for use with ASME B36.10 and ASME B36.19 carbon, alloy, stainless steel and nickel alloy pipes.

As per the applicable specifications, solid steel blocks are fabricated and shaped to obtain the final shape required Fitting classes indicate the maximum pressure that the device is capable of handling.

Fittings from Class 3000 are used for pipes in schedule 80/XS, Class 6000 for pipes in schedule 160, and Class 9000 fittings for pipes with larger wall thicknesses.

In Forged Fittings joints, two Forged Fittings are bolted together with a gasket between them to create a seal.

Different Grades of Forged Fittings:

Stainless Steel

Stainless steel can be used for forged fittings in a variety of ways. It has different standards, including ASTM, ASME A, and SA 182. There are many grades of stainless steel that are suitable for forging, including 304, 304L, 3034H, 309S, 309H, 309H, 316, 316H, 316L, 316LN, 310S, 310H, 317,317L, 321, 321H, 347, 347, and 904L. Also, these grades are making forged fittings perfect to use in all complex and general applications of various industrial sectors.

Duplex and Super Duplex Steel

A variety of grades of duplex steel and super duplex steel are available in standards such as ASTM and ASME A. Duplex steel and super duplex steel have different grades, such as F51, F53, F55, F44, F45, F60, and F61.

Nickel alloy

Various ASTM, ASME SB 564, 160, and 472 standards are available for nickel alloy forged fittings. There are many grades of nickel alloys, including UNS 2200 (Nickel 200), UNS 8825 (Inconel 825), UNS 4400 (Monel 400), UNS 6600 (Inconel 600), UNS 6625 (Inconel 625), UNS 6601 (Inconel 601), UNS 10276 (Hastelloy C 276), and UNS 2201 (Nickel 201). Forged fittings, all these grades can withstand a certain amount of load.

Tap here to read more about:

#aluminum #copper #metalart #metalwork #iron #engineering #welding #fabrication #metal #steel

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asnutbolts · 1 year

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Top Quality Bolt Manufacturers in India

Screw Manufacturers in India:

Bolt Manufacturers in India:

Nut Bolt Manufacturer in India:

Visit: asnutbolt.com

#boltManufacturers in India #nut manufacturer in India #Screw manufacturers in India

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chinatestbench · 4 years

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Do you know about fastener materials?

1) Carbon steel

Carbon steel has excellent processability, can meet a wide range of strength performance combinations, and has a lower cost compared to other fastener materials.

The mechanical properties of carbon steel are sensitive to carbon content, which is usually less than 1.0%. For fasteners, ordinary steel is divided into three types: low carbon steel, medium carbon steel and alloy steel.

2) Low-carbon steel

The carbon content of low carbon steel is usually lower than 0.25%, and the strength cannot be improved by heat treatment; the strength can only be improved by cold work hardening. Low-carbon steel is relatively soft and weak, but has excellent ductility and toughness.

In addition, it has easy processability and weldability, and relatively low production costs. For example, the low-carbon material has a yield strength of 40,000 psi, a tensile strength of 60,000 to 80,000 psi, and a ductility of 25% EL. The most commonly used materials are the 1006, 1008, 1016, 1018, 1021 and 1022 grades specified by the AISI American Iron and Steel Institute standard.

The SAEJ 429 standard, Grade 1 and ASTM A 307 Grade A, are essentially the same, and are standards for the strength of low carbon steel. ASTM A 307 grade B is a special mild steel grade suitable for mild steel bolts on fittings and flanges.

Its performance is basically the same as Grade A, except that a special maximum tensile strength is specified. This is to ensure that if over-tightening issues occur during installation, the bolts will be broken before damaging flanges, valves and pipes. SAE J 429 Grade 2 is a low-carbon steel grade that has been cold-work hardened to increase strength.

3) Mild-Carbon steel

The carbon content of medium carbon steel is 0.25 ~ 0.6% (mass fraction). Such steels can be improved in mechanical properties by heat treatment methods such as austenitizing, quenching and tempering. Ordinary medium carbon steel has poor hardenability.

It must have a small cross section to fully harden, and it needs to be quenched during quenching. This means that the final performance of the fastener depends on its size. Please note that in SAE J 429 Grade 5, ASTM A325 and ASTM A 449, the strength properties gradually “degrade” as the diameter increases.

In terms of strength-to-cost ratio, heat-treated medium carbon steel parts have excellent load-carrying capacity and a low yield ratio; they also have good toughness. Commonly used materials are AISI American Iron and Steel Institute standards 1030, 1035, 1038, and 1541.

4) Alloy steel

When the carbon steel contains more than 1.65% manganese, or the content of silicon or copper exceeds 0.6%, or the chromium content does not exceed 4%, it can be called alloy steel.

In addition, when carbon steel is added with a specified minimum content of components such as aluminum, titanium, vanadium, nickel or other elements to meet certain performance requirements, it is also called an alloy. The addition of chromium, nickel and molybdenum can improve the strength and ductility of the alloy steel after heat treatment.

SAEJ 429 grade 8, ASTM A 354 grade BD, ASTMA 490, ASTM A 193 B7 are all common alloy steel fasteners.

5) Stainless steel

Stainless steel is an iron-based alloy steel with a chromium content of more than 10.5%. The presence of chromium creates an invisible film on the surface of the steel, which prevents oxidation and “passivates” or resists corrosion. Adding other elements such as nickel or molybdenum can improve corrosion resistance, strength and temperature resistance.

Stainless steel can be divided into three types according to its metallographic structure: austenite, martensite, and ferrite. Each category has its own characteristics and is also broken down into several levels or types.

In addition, in order to meet the needs of different corrosion conditions, temperature ranges, strength requirements, welding performance, machining cutting performance, cold hardening and forming ability, etc., new alloy steels can be further developed by changing the chemical composition.

Austenitic stainless steels have higher levels of chromium and nickel than other types of stainless steel. Austenitic stainless steels cannot be hardened by heat treatment. But it has higher corrosion resistance. Generally not magnetic; however, some parts may become slightly magnetic after the cold working process. The tensile strength of austenite is 75,000-105,000 psi.

18-8 stainless steel is a typical type of austenitic stainless steel and contains approximately 18% chromium and 8% nickel. 18-8 stainless steel includes grades 302, 303, 304 and XM7.

Common austenitic stainless steel grades:

· 302: commonly used stainless steel, the surface is matte under general atmospheric conditions, and still has high strength at quite high temperatures. With corrosion resistance. After processing, it has higher strength. Usually used as steel wire products, such as: springs, screens, steel cables, etc. It is also commonly used as a flat washer.

· 302HQ: Specially added copper element reduces the effect of cold hardening, making it easy to cold-cold processing. Commonly used for machine screws, metal screws and small nuts.

· 303: Contains a small amount of sulfur and has good machining performance. It is often used to process non-standard bolts and nuts.

· 304: Low carbon high chromium stainless steel, which has better corrosion resistance compared to 302. 304 is the most commonly used stainless steel for hexagon head bolts. It is usually processed by cold heading, and hot heading is also commonly used for large diameter or long specifications Way processing.

304L: The carbon content is lower than 304, so the strength is slightly lower. The low carbon content also makes it very resistant to corrosion and welding.

· 309 & 310: The content of nickel and chromium is higher than the above-mentioned low-grade steels, and it is recommended to be used under high temperature conditions. 310 is very resistant to salt water and other harsh environments.

· 316 and 317: Excellent resistance to seawater and many chemicals, because it contains molybdenum, it has a good resistance to surface pitting corrosion. These steels have higher tensile and creep strengths than other austenitic steels at high temperatures.

Limitations of austenitic stainless steel:

Applicable only to low-concentration weak acids.

In gaps and closed places, there may not be enough oxygen to maintain the passivation film, which may cause gap corrosion.

High concentrations of halogen ions, especially chloride ions, can damage the passivation film.

After heat treatment of martensitic stainless steel, its metallographic structure is mainly martensitic. This type of stainless steel contains 12 ~ 18% chromium. Heat treatment can be used to improve hardness, poor welding performance, and magnetic properties. Martensitic stainless steel has a tensile strength of approximately 70,000 to 145,000 psi. This type of stainless steel is suitable for low corrosive environments.

Common martensitic stainless steel grades:

410: Pure chrome alloy material without nickel. It is a corrosion-resistant, heat-resistant chrome steel that can be hardened. It is easy to upset and has good machinability. Due to its high hardness, it is mainly used to make self-tapping and self-drilling screws. Compared with 300 series stainless steel, its corrosion resistance is quite poor.

416: It is similar to 410 material except that the chromium content is slightly higher, so it has better machining performance, but the corrosion resistance is worse than 410.

Ferritic stainless steel has a chromium content of 12% to 18%, but a carbon content of less than 0.2%, is magnetic, cannot be enhanced by heat treatment, and has poor welding performance. Not suitable for highly corrosive environments.

Common ferritic stainless steel grades:

430: slightly higher corrosion resistance than 410 stainless steel.

6) Precipitation hardened stainless steel

Precipitation hardened stainless steels can be hardened after low temperature aging treatment and cold working. Type 630, also called 17-4PH on the market, is the precipitation hardening stainless steel most used in fastener products. They have quite high tensile strength and flexibility. Therefore, its use performance is quite good regardless of high or low temperature.

7) Nickel and high nickel alloys

The nickel alloy family has some very good alloys. Very strong mechanical properties, excellent toughness and ductility, and resistance to stress corrosion. They have excellent corrosion resistance and performance at high and low temperatures. But nickel-based alloys are relatively expensive. The widely used nickel alloys in the fastener industry are nickel copper alloys and nickel copper aluminum alloys. Nickel-copper alloy, the trade name on the market is Monel alloy.

Monel 400 is the most widely used nickel-copper alloy for cold heading. It shows very good corrosion resistance in both heating and salt water. Nickel copper aluminum alloy, also called K-MONEL in the market, is an extension of nickel copper alloy. Aluminum and titanium elements have improved the sensitivity of heat treatment and significantly improved mechanical properties.

Inconel and Hastelloy: In some extremely harsh conditions, such as high temperatures and different types of acidic environments, these excellent materials can provide the high strength and strong oxidation resistance required by fasteners. Several existing Inconel and Hastelloy nickel alloys are patented, and they are named according to their strength and corrosion resistance.

#Do you know about fastener materials?

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sublimesweetsbasement-blog · 6 years

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How to avoid “Fasteners Misuse” in your Manufacturing plant?

It’s a basic fact that when you are going to use a good number of fasteners such as aluminum hex tap bolts and Monel 500 hex lag bolts; you will surely look forward to different ways in order to ensure that they are going to be used carefully. This holds a big part when you want to ensure that all the basic infrastructure of your organization stays in place for a long time without any wears and tears.

Some people usually go about it by manually inspecting the usage of fasteners by all the related employees, monitoring and correcting them where and whenever required. However, bringing in use this type of audit would be time consuming, and further creates a feeling of Disinterest amongst the employees due to regular questioning. Therefore, instead of undertaking this type of approach, following few ways could be used to track and monitor the usage of fasteners in your business concern.

Assigning a specific number of fasteners as per the amount of work to each employee

This is the best used practice in order to stop the misuse of fasteners in a company. You just have to allot a particular number of fasteners to employees as per the requirement in their respective work. This way, even if there would be a misusage by the employees, they will need to ask for more fasteners and then they have to give the account of wasted fasteners.

Tracking the average Fastener usage

You can also track and monitor the number of fasteners used during a particular time frame, such as a month, week or a year. Therefore, if you get to see a sudden spike in the fastener usage for a certain time period, you can check and confirm the reason behind it and correct if there’s any discrepancy.

Connect with us – Sterling Tools Limited

#Nuts #scru

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ananka-fasteners · 8 months

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Ananka

Q1) How do you deal with hex bolts that have become frozen or rusted?

5. Tapping: Gently tap the bolt head with a hammer. This can help to break the rust loose and make it easier to turn the bolt.

6. Back and Forth: Gradually alternate between turning the bolt clockwise and counterclockwise. This can help work the penetrating oil into the threads and break the rust's bond.

7. Use of Vise Grips: If the bolt head becomes rounded due to rust, use vise grips or locking pliers to grip onto the sides of the bolt head and turn it.

Carbon Steel Fasteners