#stainless steel wedge anchors
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shirazeetraders1 · 3 months ago
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fixdex-fastening-technology · 5 months ago
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👍 FIXDEX wedge anchor and concrete screw💲 good quality with best 💲
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veerandco · 2 months ago
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HILTI HST 4 R Stainless Steel Wedge Anchor
#veerco Secure your structures with the HILTI HST 4 R Stainless Steel Wedge Anchor! Designed for dynamic loads, it offers unmatched strength and reliability. Perfect for demanding environments, this anchor ensures stability and safety in every application. Trust HILTI for superior performance. Team Veer & Co. Visit our website https://veerco.online Contact us for more information and special offers! +91 9710076550
#HILTI#WedgeAnchor#ConstructionStrength" ##VeerCo#3MProducts#industrial#tools#equipmentforsale
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jinnoxbolt · 3 months ago
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The Essential Guide to Bolts: Types, Uses, and Selection Tips
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Jinnox Bolt is a leading Bolt Manufacturer in India, known for quality, innovation, and customer satisfaction. Since it started, we have been catering top-quality fasteners to industries such as automobile, construction, aerospace etc. Bolts are a fundamental component in construction and manufacturing, serving as the backbone for various structures and machinery. Understanding the different types of bolts, their applications, and how to select the right one is crucial for ensuring the stability and safety of any project. In this article, we'll explore the world of bolts in detail, providing you with the knowledge needed to make informed decisions.
Introduction to Bolts
Bolts are threaded fasteners that are typically used in conjunction with nuts to hold objects together. They come in various shapes, sizes, and materials, each designed for specific applications. Unlike screws, bolts are not self-tapping and require a nut or a pre-tapped hole for installation.
Types of Bolts
Hex Bolts
Hex bolts are one of the most common types, characterized by their hexagonal heads. They are used in various applications, from construction to machinery, due to their strong grip and ease of installation.
Carriage Bolts
Carriage bolts have a round head with a square neck that prevents the bolt from turning when the nut is tightened. They are often used in wood connections and applications where a smooth, finished appearance is desired.
Eye Bolts
Eye bolts have a looped head and are used for attaching ropes, chains, or cables. They are commonly used in lifting and rigging applications.
Anchor Bolts
Anchor bolts are designed to attach structures to concrete. They come in various designs, including L-shaped, J-shaped, and wedge anchors, each serving specific purposes.
Materials Used in Bolts
Bolts are made from a variety of materials, each offering different levels of strength, corrosion resistance, and suitability for specific environments.
Steel Bolts
Steel bolts are the most common and come in different grades, such as low-carbon steel, medium-carbon steel, and alloy steel. They are known for their strength and versatility.
Stainless Steel Bolts
Stainless steel bolts offer excellent corrosion resistance, making them ideal for use in environments exposed to moisture and chemicals.
Brass Bolts
Brass bolts are known for their resistance to corrosion and electrical conductivity. They are often used in plumbing and electrical applications.
Titanium Bolts
Titanium bolts are lightweight and highly resistant to corrosion, making them suitable for aerospace and marine applications.
How to Select the Right Bolt
Choosing the right bolt for your application involves considering several factors:
Load Requirements
Determine the load that the bolt will need to support. This includes both static and dynamic loads.
Environmental Conditions
Consider the environment in which the bolt will be used. Corrosive environments require bolts made from materials like stainless steel or titanium.
Bolt Size and Length
Select the appropriate bolt size and length to ensure a secure fit. This involves measuring the thickness of the materials being joined.
Thread Type
Choose the right thread type for your application. Coarse threads are suitable for quick assembly, while fine threads offer better-holding power.
Common Applications of Bolts
Bolts are used in a wide range of applications across various industries:
Construction
Bolts are essential in construction for joining structural elements, securing beams, and assembling scaffolding.
Automotive
In the automotive industry, bolts are used to assemble engines, transmissions, and other critical components.
Machinery
Bolts are used in machinery to hold parts together, ensuring the smooth operation of equipment.
Furniture
In furniture making, bolts provide strong and durable connections, especially in flat-pack furniture.
Countries Where We Supply Our Bolts:
Bolt Manufacturers in UK
Bolt Manufacturers in Australia
Bolt Manufacturers in South Africa
Bolt Manufacturers in USA
Bolt Manufacturer in UAE
Bolt Manufacturer in Kenya
Bolt Manufacturer in Qatar
Jinnox Bolt is a top Bolt Manufacturers in India. We focus on providing the most premium Bolts that are made with the help of the latest technology and the best quality Bolt materials. Our Fasteners are used in diverse industries across the board ranging from petroleum, transportation and construction.
For more details:
Product: Bolt Supplier in India
Website: jinnoxbolt.com
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jimitjain · 4 months ago
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Types of Fasteners: A Comprehensive Guide
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Bhansali Fasteners is a well-known Fasteners Manufacturers in India. We manufacture, stock, and provide all types of stainless steel fasteners in various sizes at the greatest prices. Our fastener section is known as We, as a fastener manufacturer, supply a variety of fasteners such as bolts, nuts, screws, washers, and more. 
1. Screws
Screws are one of the most versatile and widely used fasteners. They have a threaded shaft that provides strong holding power and are primarily used to join materials such as wood, metal, and plastic.
Wood Screws: These have a coarse thread and a tapered point designed to penetrate wood easily. They are commonly used in carpentry and woodworking projects.
Machine Screws: These have a uniform thread and are used with nuts or threaded holes in metal and plastic parts. They are prevalent in machinery and electronic assemblies.
Self-Tapping Screws: These create their own threads as they are driven into a material, making them ideal for attaching materials without pre-drilling.
Deck Screws: Designed for outdoor use, these screws are coated to resist corrosion and have a sharp point for penetrating decking materials.
2. Bolts
Bolts are similar to screws but differ in their use. They typically require a nut to secure them and are used in applications where high strength is needed.
Hex Bolts: These are characterized by their hexagonal heads and are used in construction and machinery. They come in various grades, indicating their strength.
Carriage Bolts: These have a rounded head and a square neck that prevents them from turning once installed. They are often used in wood-to-wood or wood-to-metal applications.
Lag Bolts: Also known as lag screws, these are large, heavy-duty fasteners used to secure heavy materials like wood and metal. They are commonly used in construction and landscaping.
3. Nuts
Nuts are paired with bolts to fasten materials together. They come in various shapes and sizes to suit different applications.
Hex Nuts: These are the most common type and are used with hex bolts. They come in various materials and finishes.
Lock Nuts: These have a special design to prevent them from loosening under vibration. They include nylon insert lock nuts, jam nuts, and metal lock nuts.
Wing Nuts: These have two large "wings" that allow for easy hand tightening. They are used where frequent adjustments are needed.
4. Washers
Washers are used with screws and bolts to distribute the load and prevent damage to the surface being fastened.
Flat Washers: These provide a larger bearing surface and distribute the load evenly. They are used in most fastening applications.
Lock Washers: These prevent nuts and bolts from turning, slipping, or coming loose due to vibration and torque. They include split lock washers and toothed lock washers.
Fender Washers: These have a larger outer diameter than standard flat washers, providing extra support and load distribution.
5. Rivets
Rivets are permanent fasteners used to join two or more materials together. They are commonly used in construction, automotive, and aerospace industries.
Solid Rivets: These are the most common type and are used in high-stress applications where strength is critical.
Blind Rivets: Also known as pop rivets, these can be installed from one side of the workpiece, making them ideal for applications where access is limited.
Drive Rivets: These are hammered into place and are used in light-duty applications.
6. Anchors
Anchors are used to secure fasteners in materials that are brittle or unable to support the weight of the fastener alone, such as drywall or masonry.
Plastic Anchors: These expand as the screw is driven in, providing a secure hold in drywall and plaster.
Masonry Anchors: These are used in concrete, brick, and stone. Examples include wedge anchors and sleeve anchors.
Toggle Bolts: These have a spring-loaded wing that expands behind the wall, providing strong holding power for heavy loads.
  We are also one of the leading Fasteners Supplier in Russia and Fasteners Supplier in Saudi Arabia. We take care of their clients' needs and ensure that all steel bolts, nuts, washers, screws, and fasteners are in order before shipping. Bhansali Fasteners is one of the major Bolt Suppliers in India. Bolts Suppliers in India.low-maintenance, sustainability benefits, and adaptability for fluid transportation in industries such as oil and gas, chemical, food, pharmaceuticals, and construction. They provide reliability and safety. Bolt Suppliers in India is known for its industrial fasteners, which include high-quality bolts, nuts, screws, and washers. 
Website: bhansalibolt.com
Source: Fasteners Manufacturers
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psfastenerss-blog · 11 months ago
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Maximizing Efficiency with Quality Hardware Fasteners for Your Projects
If you're a seasoned DIY enthusiast or a professional in the construction industry, you understand the pivotal role that hardware fasteners play in ensuring the structural integrity and longevity of your projects. In this article, we delve into the world of hardware fasteners, exploring their significance and providing insights into how choosing the right ones can make a substantial difference.
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The Foundation: Understanding Hardware Fasteners
Hardware fasteners serve as the unsung heroes of construction, holding together various components to create a robust and stable structure. From screws and bolts to nuts and washers, these small yet mighty components play a crucial role in preventing disintegration and ensuring that your creations stand the test of time.
Choosing the Right Fastener for the Job
Screws: The Versatile Workhorse
When it comes to securing materials with precision, screws take center stage. Available in various types, including wood screws, machine screws, and self-tapping screws, each variant serves a unique purpose. Wood screws, for instance, excel in connecting wooden components, while machine screws are ideal for metal-to-metal applications.
Bolts and Nuts: The Dynamic Duo
For heavy-duty projects that demand resilience, bolts and nuts form an inseparable alliance. Whether you're assembling structural steel or fixing machinery, the right combination of bolts and nuts ensures a steadfast connection. Pay attention to factors such as material, thread type, and head style to make an informed choice.
Anchors: Securing Foundations with Precision
When anchoring objects to concrete or masonry, anchors come into play. From wedge anchors to sleeve anchors, each type addresses specific needs. Consider the load capacity and the substrate material to select the anchor that guarantees a secure attachment.
Quality Over Quantity: The Importance of Material Selection
The longevity and durability of your projects heavily depend on the quality of the hardware fasteners you choose. Opt for materials like stainless steel or galvanized steel, which offer corrosion resistance, ensuring that your structures withstand the test of time and environmental elements.
Conclusion: Building a Solid Future with Reliable Fasteners
In conclusion, hardware fasteners are the unsung heroes that uphold the structural integrity of your projects. By understanding their diverse applications and selecting the right ones for the job, you pave the way for robust, enduring creations. Choose quality over quantity, invest in the right materials, and contribute to the thriving community supporting innovation in this essential aspect of construction.
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meghmanimetal · 11 months ago
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Supplier of SS Fasteners in Bihar
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Supplier of SS Fasteners in Bihar: Meghmani Metal: We Are a Well-Known Manufacturer and Supplier of All Ferrous And Non-Ferrous Metal Products, Such As Stainless Steel Pipes, Stainless Steel Tubes, Steel Flanges, Steel Butt Welding, Steel Pipe Fittings, Steel Rods, Wires, Colls, Flats, Structural, and so on. Meghmani Metal is one of the leading manufacturers and Suppliers of SS Fasteners in Bihar. Our Stainless Steel Fasteners division is specialized in the manufacturing of Austenitic grade fasteners. Applications of SS Fasteners: Construction: Building facades, bridges, railings, structural components, and electrical installations. Automotive industry: Engine components, exhaust systems, body panels, and interior trim. Marine industry: Boats, yachts, offshore platforms, and marine equipment. Chemical industry: Pipes, tanks, reactors, and processing equipment. Food processing: Machinery, conveyor systems, and equipment components. Medical equipment: Surgical instruments, prosthetics, and dental implants. Electronics: Circuit boards, electrical enclosures, and heat sinks. Household appliances: Washing machines, refrigerators, and kitchen equipment. Common Types of SS Fasteners: Nuts and bolts: The most common type, available in various sizes, threads, and head styles. Screws: Wood screws, machine screws, self-tapping screws, set screws, and socket head screws. Washers: Flat washers, lock washers, fender washers, and spring washers. Rivets: Blind rivets, solid rivets, and pop rivets. Anchors: Expansion anchors, wedge anchors, and chemical anchors. Dowel pins: Used for alignment and positioning of components. Clips and clamps: Used for securing cables, hoses, and other components. We Provide Supplier of SS Fasteners in Bihar Including Patna, Gaya, Bhagalpur, Muzaffarpur, Purnia, Darbhanga, Ara (Arrah), Begusarai, Katihar, Chapra, Munger (Monghyr), Saharsa, Bettiah, Hajipur, Sasaram, Dehri, Siwan, Motihari Etc. Read the full article
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ananka-fasteners · 11 months ago
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Ananka
Q1) Are there hex bolts specifically designed for masonry applications?
Ans) Certainly, hex bolts designed specifically for masonry applications are commonly referred to as "anchor bolts" or "masonry anchor bolts." These bolts are utilized to affix items to surfaces like concrete, brick, stone, or other masonry materials. The key disparity between regular hex bolts and masonry anchor bolts lies in their structural configuration and how they interact with the masonry substance.
Masonry anchor bolts generally encompass several attributes that render them suitable for masonry use:
1. Thread Design: The threading on masonry anchor bolts is often crafted to enhance grip and engagement with masonry materials. Frequently, they exhibit a coarser thread pattern, which aids in biting into the relatively softer masonry base.
2. Material and Coating: Masonry anchor bolts are frequently forged from materials that provide enhanced corrosion resistance, such as stainless steel or galvanized steel. This is pivotal due to the exposure of these bolts to moisture in masonry contexts, which can lead to rust over time. In some cases, coatings like zinc or other forms of corrosion-resistant treatments may also be applied.
3. Head Design: Although the head design of masonry anchor bolts can vary, they often feature a configuration that ensures a flush or slightly countersunk fit with the masonry surface. This design serves to prevent tripping hazards and facilitates a tidy and secure installation.
4. Installation Techniques: The installation of masonry anchor bolts might necessitate distinct methods when compared to regular hex bolts. Depending on their specific design, they could call for pre-drilled holes, specialized anchors, or other hardware to guarantee a steadfast attachment to the masonry.
5. Load-Bearing Capacity: Masonry anchor bolts are meticulously engineered to endure the specific loads and forces inherent to masonry applications. They are frequently rated based on their capacity to carry loads, considering factors like the type of masonry material and the dimensions and design of the bolt.
When deploying masonry anchor bolts, it's imperative to adhere closely to the manufacturer's instructions and guidelines for installation. Incorrect installation can imperil the integrity of the attachment, potentially leading to safety hazards.
It's noteworthy that a diverse array of masonry anchor bolt types exists in the market, including wedge anchors, sleeve anchors, and concrete screws, each tailored to distinct designs and use cases. To ensure the optimal choice of masonry anchor bolt for your specific application, it's advisable to consult professionals or experts in the field.
Elevator Bolt Manufacturers in Mumbai
Q2) How do you remove a hex nut that has become rusted or frozen?
Ans) Eliminating a rusted or frozen hex nut can present challenges, yet there are various strategies you can employ. Bear in mind that the effectiveness of these approaches may vary depending on the extent of the rust and your access to the nut. Here are some commonly employed techniques:
1. Penetrating Oil: Apply penetrating oil, such as WD-40 or PB Blaster, onto the rusted threads of the hex nut. Allow the oil to seep in for several hours or overnight. The oil aids in corroding the rust and lubricating the threads, facilitating easier nut turning.
2. Heat: Employ a heat source, like a propane torch, to warm the vicinity around the rusted nut. The expansion and contraction resulting from the heat can help break the rust's grip. Be careful not to overheat or damage adjacent components.
3. Vice Grips or Locking Pliers: If there's enough space, employ vice grips or locking pliers to grasp the hex nut's edges. Apply steady, consistent pressure while turning counterclockwise. This technique can dislodge the rust's hold, initiating nut rotation.
4. Impact Wrench: An impact wrench delivers forceful bursts of rotational energy, aiding in dislodging a stubborn hex nut. However, its applicability might be limited by confined spaces or if the nut is situated delicately.
5. Nut Splitter: A nut splitter is a specialized tool engineered to split open recalcitrant nuts. It achieves this by making cuts into the nut, without harming the underlying bolt or stud.
6. Drilling: In extreme cases, you may have to cautiously drill into the center of the rusted nut. This action weakens the nut's structure, facilitating its removal. Nonetheless, drilling poses a risk of damaging the underlying thread or bolt and should be a last resort.
7. Hammer and Chisel: Utilize a chisel and hammer to carefully craft a small notch on the nut's edge. This affords enhanced grip for wrenches or pliers, enabling nut rotation.
Prior to attempting any of these methods, it's imperative to exercise caution to avert additional harm to adjacent components. If you're dealing with a valuable or vital part or feel uncertain about your capabilities, seeking guidance from a seasoned professional mechanic or technician accustomed to such scenarios is prudent.
Hex Nut Suppliers
Q3) What is the impact of using plain washers in reducing friction between surfaces?
Ans) Plain washers are often used in mechanical applications to distribute the load, prevent surface damage, and reduce friction between two surfaces. While their primary function is not to reduce friction, they can have a minor impact on friction due to their ability to provide a smooth interface between the nut, bolt head, or other fastener and the material being fastened. However, this effect is generally limited.
Here's how plain washers can impact friction reduction:
1. Surface Smoothness: Plain washers have a smooth surface that can help reduce the direct contact between the fastener and the material being fastened. This can result in slightly less friction compared to direct contact between rougher surfaces.
2. Pressure Distribution: Washers distribute the load over a larger surface area. When a nut or bolt head is tightened down, the washer spreads the force across a wider region. This can help minimize localized pressure points that might lead to increased friction.
3. Surface Protection: Washers can prevent damage to the material being fastened. If the fastener's contact point is rough or uneven, it could cause wear or damage to the material. A washer provides a protective barrier that can reduce friction caused by abrasion or surface imperfections.
It's important to note that while washers can have a slight impact on reducing friction, the primary purpose of using washers is not friction reduction but rather load distribution and surface protection. If your main concern is reducing friction, you might consider using lubricants or anti-friction coatings specifically designed for that purpose.
Additionally, the impact of using plain washers to reduce friction is relatively minor compared to other methods such as using lubricants, choosing materials with lower coefficients of friction, or ensuring proper surface finish and alignment. If friction reduction is a critical factor in your application, it's advisable to explore other solutions beyond the use of plain washers alone.
High Tensile Fasteners
Q4) How do you remove a stud bolt that has become rusted or frozen?
Ans) Removing a rusted or frozen stud bolt can be challenging, but there are several methods you can try. The approach you choose will depend on the severity of the rust and the access you have to the stud. Here are some common methods:
1. Penetrating Oil: Apply a penetrating oil, such as WD-40 or PB Blaster, to the rusted threads of the stud. Allow the oil to penetrate for several hours or overnight. The oil helps break down the rust and lubricate the threads, making it easier to turn the stud.
2. Heat: Use a propane torch or similar heat source to heat the area around the rusted stud. The expansion and contraction caused by the heat can help break the rust's grip. Be careful not to overheat the surrounding components, and always follow safety precautions.
3. Double Nuts: If there's enough exposed thread, you can use two nuts tightened against each other on the stud. Hold one nut with a wrench and use another wrench to turn the second nut counterclockwise. The pressure between the two nuts can help break the rust's hold on the threads, allowing you to turn the stud.
4. Vice Grips or Locking Pliers: If there's enough exposed length of the stud, you can grip onto it with vice grips or locking pliers. Apply steady and even pressure while turning counterclockwise. This method can help you break the rust's hold and start turning the stud.
5. Impact Tools: Impact tools like impact wrenches or pneumatic hammers can provide bursts of rotational force that can help loosen a stubborn stud. Be cautious when using these tools, as they can sometimes cause damage if not used properly.
6. Cutting: In extreme cases where the stud is beyond saving, you might need to cut it off. You can use a hacksaw, reciprocating saw, or angle grinder with a cutting wheel to carefully cut the stud. This should be done with care to avoid damaging the underlying material.
7. Heat and Cooling: The "heat and cool" method involves heating the stud with a torch and then quickly cooling it with cold water. The rapid contraction caused by the cooling can help break the rust's grip.
8. Nut Splitter: A nut splitter is a specialized tool designed to crack open nuts or studs that are too difficult to remove conventionally. It works by cutting into the stud without damaging the underlying material.
Before attempting any of these methods, it's crucial to exercise caution to avoid damaging surrounding components or causing injury. If you're not comfortable or experienced with these techniques, consider seeking help from a professional mechanic or technician.
Carbon Steel Fasteners
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worldbroadhardware · 1 year ago
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Stainless Wedge Anchor
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Product name: Stainless Wedge Anchor
Base Material: 1. Concrete (cracked and non-cracked)
2. Natural hard stone
Application and Features: Used for fastening through objects, such as: guide rails, brackets, angle iron, wooden beams, etc., can withstand vibration and earthquake loads.
Surface Treatment: Passivate ect.
Material: Satinless Steel
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fastcoinc-blog · 5 years ago
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wedge anchor bolts tacoma wa
At Fastco Inc,we supply hooks that are used for appending and checking materials,for instance,wood,metal,plastic,or bond.They fuse stray pieces,hung shafts,assistant latches, machine screws,wedge hooks,washers,fasteners,and more in a collection of types and sizes,including metric and inch.Hook manuals and tech sheets fuse information,for instance,torque regards and catch estimations to help you with finding the right lock supplies for your movement.
 Fastco Inc supplies the mechanical,marine,improvement,assistant steel,calculating and provincial organizations in Tacoma Washington with import and private clasp, fundamental latches,screws,nuts,and washers similarly as Asphalt Anchors,and various slippery things.
 Catches give an ensured hold when installed into materials.Hung remains join catch screws,which have sharp strings and strong material improvement for penetrating into concrete or drywall and giving a secured hold. Broadening hooks fuse drive-pin stays, which develop in predrilled holes when set with a hammer, and drop-in stays,which are inside hung and expected to expand when satisfying contrasting shocks.Stay embellishments consolidate drilling instruments for predrilling catch holes,and concretes for confirming clasp,shafts,and rebar in bond and workmanship.
 Shocks secure material by applying pressure from the pioneer of the shock.They fit with relating tapped openings and nuts to make shot joints.Top screws and hex clasp have sets out organized toward fixing to address points of interest with wrenches or spanner torque torques.Shocks with balanced heads,for instance,carriage shocks and step shocks, give a place of wellbeing fit in tight applications.Eye screws have heads with gigantic,round openings that can interface with catches or various hooks for distinguishing strength applications,for instance,vertical lifting.LAG BOLTS TACOMA WA
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shirazeetraders1 · 10 months ago
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Everything you need To Know How To Install A Concrete Wedge Anchor
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Within the construction industry, concrete wedge anchors are a reliable way to secure heavy loads because structural integrity is of utmost importance. It is therefore essential to have a thorough grasp of the nuances related to installing concrete wedge anchors, regardless of whether one is engaged in do-it-yourself projects or is traversing the challenging landscape of professional contracting. We take a deep dive into this comprehensive guide, revealing the little details that must be followed to achieve a successful installation. We also discuss important factors, such as choosing the appropriate wedge anchors, which range from strong mild steel to stainless steel versions that resist corrosion. We also carefully considered the importance of forming partnerships with a reputable wedge anchors supplier. 
Choosing the Right Wedge Anchors
The path of carefully choosing the best wedge anchors for the job at hand must be traveled before entering the complex installation process. An esteemed provider of wedge anchors unfolds a variety of options, such as the sturdy mild steel and stainless steel wedge anchors. Their counterparts made of stainless steel, which are highly praised for their exceptional ability to withstand corrosion, assert that they are the best option for outdoor use and environments with high relative humidity. On the other hand, mild steel wedge anchors, which combine strength and durability, have carved out a market for themselves as the best option for indoor projects. 
Understanding the main Components
It is essential to familiarize oneself with the symphony's constituents, the fundamental elements of a concrete wedge anchor—in order to conduct a successful installation symphony. These components usually consist of the nut, clip, and anchor body. Like a conductor's baton, the anchor body coordinates expansion against the concrete, creating a firm hold. The pivot, the band's finale, tightens to provide the necessary tension for a strong connection, and the clip, an essential supporting actor, assists in positioning the anchor inside the drilled hole.
Here is the Step-by-Step Installation Guide
1. Drilling the Hole: 
The installation opus begins with the careful drilling of a hole into the concrete. Equipped with a hammer drill and a construction bit that has been adjusted to the anchor's specifications, one sets out to create a hole that fits the anchor's specified diameter and depth.
2. Cleaning the Hole: 
The next motion in the drill is a cleansing ritual that comes after its resonance cadence. Use a wire brush or force compressed air to remove any remaining dust or debris from the recently drilled hole. A clean canvas guarantees that the upcoming anchor expansion opens up smoothly and fits tightly.
3. Inserting the Wedge Anchor: 
After the stage is ready, carefully place the wedge anchor in its allotted location, making sure the clip floats above the surface. If necessary, use a light tap of a hammer to gently tap the anchor into place so that it is flush with the concrete, similar to how a musician would precisely tune their instrument.
4. Tightening the Nut: 
As the nut takes center stage, the installation gets better. Using a suitable socket or tool, one begins to tighten the nut. This crucial move starts with a movement in which the clip is forced into motion, forcing the anchor to spread out and give the concrete a firm, firm hug. Take care, as excessive tightening could risk the effectiveness of the anchor.
5. Verifying Installation: 
Careful inspection is crucial when the last notes start to repeat through the installation space. Visual inspection, similar to the perceptive look of a conductor, verifies the anchor's orientation and confirms its firm attachment. The final stage is a well-executed visual inspection that confirms the concrete wedge anchor was installed correctly and successfully.
Key Considerations for Importer Hardware Products
For individuals who are firmly established in the capacity of importers of a wide range of hardware products, sourcing wedge anchors with care becomes essential. There are many benefits to partnering with a reputable wedge anchors supplier. Look for vendors who are praised for their dedication to providing top-notch goods, providing broad product details, and having an excellent customer service system. To maximize your return on investment, examine the complex details of shipping schedules, assess options for bulk orders, and closely examine the competitive pricing environment.
In their diverse range of applications, concrete wedge anchors are the epitome of stability and dependability. These anchors are essential in vital structures like bridges, high-rise buildings, and industrial facilities. Their use extends beyond securing loads to concrete. The previously described methodical installation procedure is essential to maintaining the structural integrity of these large-scale projects. Because of their ability to withstand corrosion, stainless steel wedge anchors end up acting as the weather's protectors in outdoor settings. In the meantime, strong and sturdy mild steel wedge anchors stabilize the walls of interior buildings, guaranteeing longevity without sacrificing power. Because of their versatility, wedge anchors are more than just fasteners, they are essential parts of the construction engineering structure.
A thoughtful approach for individuals involved in the importation of hardware products would be to investigate the deeper implications and complexities of the global supply chain. A wedge anchors supplier's dependability goes beyond a one-time deal to form a mutually beneficial alliance that is essential to the smooth completion of building projects. Examining the supplier's culture, comprehending their dedication to quality assurance, and evaluating their flexibility in response to market changes become crucial components of this partnership.
An additional layer of strategic foresight for an importer comes from being able to predict market trends, regulatory changes, and technological advancements in the wedge anchor industry. This sophisticated insight places the importer in a position where they are not only the recipient of hardware goods but also a perceptive partner influencing the direction of construction materials in the world market. The pursuit of excellence in wedge anchor installation extends beyond the current project and becomes an ongoing process of improvement and adjustment within the dynamic framework of construction methodology.
Conclusion
The ability to install concrete wedge anchors is a skilled performance in construction projects. A strong and stable connection is established by careful wedge anchor selection, a thorough comprehension of their component parts, and a constant commitment to a careful installation procedure. Building partnerships with a trustworthy wedge anchors supplier becomes essential as an importer navigating a network of hardware products and guarantees the success of your projects. Whether they are wedge anchors made of mild steel or stainless steel, installation principles remain the common thread that weaves together a sturdy base for long-lasting construction projects.
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fixdex-fastening-technology · 7 months ago
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👍 FIXDEX SS 304 wedge anchor
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kultofathena · 2 years ago
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New in stock: LK Chen – Ming Crossbowman’s Dao.
The versatility of Ming Dynasty (1368 – 1644 AD) soldiery is evident in this specialized, two-handed Dao. It is an impressive sword with a long and sweeping cutting blade balanced by a long grip. In capable hands this sword will strike with great force and will cut cleanly and decisively; Chinese Ming soldiers who were armed with these swords as a sidearm could switch from being a ranged element of the army to a cadre of shock infantry with these hard-hitting swords in hand. The length of this Dao was carefully proportioned so that it would not interfere with the crossbow, both of which would be strapped and attached to the waist of the Ming Crossbowman.
The influence Katana of Japan is immediately evident in the wedge-shaped cross section of the blade which features a thick and rigid blade spine with a long, angled plane which terminates in an acute edge – an ideal shape for biting into and widely separating a target as the blade passes through it. The elaborately styled and well-cast guard of antiqued stainless steel is matched with a grip collar and pommel on the hilt. The guard is a 1:1 recreation of a Ming Dynasty original which lends the hilt an elevated level of authenticity. The grip is fashioned from hardwood which is overlaid in bold orange cord. The long tang of the blade extends through the whole length of the grip and the tang is anchored into the hilt with a peen over the pommel and a pair of bamboo pins that firmly affix the tang to the wooden grip.
The sword is matched with a durably crafted scabbard of wood which is tightly overlaid in finely-stitched brown leather which is completed with a locket and chape of antiqued and blackened brass fittings. Included is a sword bag of silk for storage or transport.
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ccohanlon · 3 years ago
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shallows
Thoreau had his pond. This is mine.
It is not a pond, really, but a pool, an ovoid sump of water in a tangle of brackish tidal furrows that dry to black mud at low water. It is, at most, half a fathom deep and a couple of cables in circumference, just enough for a small boat to lie at anchor, undisturbed, afloat.
Around it, in every direction, salt marsh, brittle reeds and desiccated grasses, all shivering in a cold, autumn easterly carrying a saline haze and intermittent showers from the sea.
Carried my boat and me here, too, this morning.
I was a mile offshore when the wind rose. The sea concertina'd into a short, steep swell that clawed at the gunwhales and crawled over the un-decked bow to lift the burden boards beneath my feet. I was forced to heave-to, reef, then run towards an unmarked gat and the shelter of low, mutable banks that resisted easy definition as 'shore'.
I sailed and sculled further inland on the last of a flooding tide. Neap high water, a few inches deeper than my boat's draft, allowed me to thread shallower reaches — green tendrils of drying creeks and swashways on my out-of-date Admiralty chart, unreliable data for a passage through this expanse of shoal water, sand, mud, and yellow marshland.
I was not unprepared.
My boat is small, just 14 feet from stem-post to stern, but sturdy — clinker hull, hand-sawn, copper-fastened mahogany planks on oak frames — even if it has seen better days. A loose-footed, red canvas lugsail hangs from varnished, timber spars.
Stowed aboard:
An old boat compass, in a weathered, grey teak box, wedged between frames behind the centreboard case.
A sounding lead, eye-spliced to a coiled length of frayed, three-stranded cordage, each fathom marked by strips of red or plain canvas sailcloth or leather.
Two metal thermoses, both filled, one with tea, one with soup.
An oiled canvas rucksack — in it, a change of clothes, sneakers, a folded Ordnance Survey map, a marine hand-bearing compass, a stainless steel folding knife with shackle key and marlin spike, a large note book, two HB2 pencils, a bar of chocolate, an apple, and a plastic box of peanut butter sandwiches.
A pair of long timber oars, dressed with hand stitched leather sleeves and collars.
Ten fathoms of lightweight braided rode bent to a small anchor that I have just laid from the bow to hold the boat's head to the tide.
To the east, a church spire — marked by a cross on a spill of yellow defining dry land on my chart. North of it, a sliver of red metal rooftop over white timber, and close by, the whitewashed pylons of a timber public jetty. There is an outline of buildings on the chart that might be a village but I can't see them. I'll make towards there a few hours before the next high water.
I am in this pool, this pocket of sequestered sea and I want, somehow, to fix it, to give it substance. I take a bearing on the spire and draw its line across the Admiralty chart, circling the point at which it intersects my anchorage, a speck of blue — half a fathom noted at mean low water springs — amid the green of drying flats and banks. There are no other useful points of reference. Without a cross- bearing, 'X' cannot mark the spot.
Henry David Thoreau was a self-taught surveyor, probably because, like writing, it was a way of imposing order, some sense of godliness, on raw, unruly nature. One of his earliest projects was a plan of Walden Pond, dated 1864. Thoreau lacked talent as a draughtsman but he made up for it with diligent attention to calculable data. He took to the water to plot lines of soundings — noting the greatest depth, 102 feet — and hiked the pond's 1.7 mile shoreline, carrying a theodolite on a timber tripod, to measure its circumference and area.
I remember my first experience of hanami, decades ago, strolling through Tokyo's Ueno Park to view the rows of blossoming cherry trees. I remember the Japanese woman who had taken me there telling me, "It is beautiful, yes. But I am not a nature person."
I am not a nature person either. I cannot name any of the grasses around me here, nor any of the birds, other than gulls and shearwaters. I am incurious about them. But my vocabulary for wind and water is as rich and nuanced as an Inuit's for snow and ice — I study the interplay and antic shape- shifting of these elements every chance I get.
And I take care not to talk about what I observe in anthromorphic terms: The sea has no mood, an old sailor once told me.
The sea isn't cruel. It isn't anything at all. It is just the sea.
I am afloat on what is left of it here, sitting amidships on the bottom of the boat, back against the thwart, squinting up at thin stratus, a nacreous scrim across a pale sun. The wind backs north-east. The boat swings around on its rode. Jittery water laps the timber planks beside me.
In the old days, the bottom of a plummet — as a sounding lead was sometimes called — was packed with greasy tallow before being swung from amidships. When the plummet touched bottom, mud, sand or gravel adhered to the tallow, giving the navigator an idea of the ground. If it was rock, the tallow came up clean.
Everywhere here is mud, dark, oleaginous sludge that resists light and turns shallow water a murky charcoal grey.
The tide turns as the sun's passage to the western edge of the marshes, obscured by cloud and haze, appears to accelerate. There is a faint burble — the first thin runnels of flood spilling across the swashway and through the gats to fill the narrow creeks.
A couple of hours pass. The boat lifts a little as my pool begins to swell. I stand up, balance myself against the thwart and hoist the awkward lugsail and its angled yard. Then I weigh anchor, jerking the rode a few times just before the flukes reaches the surface to shake off fistfuls of mud. A chalky residue swirls along the hull as we begin to make way.
I steer from the pool into a narrow creek leading west. What will I do if it is a dead end? The waterways within this sea of mud and grasses are a maze. Long stretches are unnavigable, even at high water — little more than waterlogged ditches and furrows.
Wind and tide make retreat impossible. Inland is the only course.
I squint into the sun under the foot of the sail, trying divine the depth and flow of the water ahead, gauging my heading on the distant church spire, almost unseeable in the glare. I will the angle between it and the boat's stemhead to close, to reassure me that I'm gaining some northing as we hurry further inland on the flood.
North and south, the marshland has turned a rich ochre. I will be ashore by dusk.
The boat has run too far ahead of the flood.
A quarter of a mile from the jetty, just before this skinny reach carries us into a patch of deeper water — another, bigger pool — the keel bumps into a muddy shoal, which holds it. I draw a deep breath and wait for the flood to lift us off.
It doesn't.
I stand up and shuffle amidships. With two hands, I angle an oar over the gunwhale to probe the bottom. I try to pole the hull sideways into what might be deeper water, adjusting my weight to heel the boat and reduce its draft.
She is stuck fast.
I study my out-of-date chart for reassurance but the drying height for this channel is unmarked. Without a tide table to give me a range for today, I can only hope another hour of rise will be enough to float us.
I toy with the idea of stripping off and going over the side to lighten the hull and push it into deeper water. But I have learned through gelid experience to avoid getting wet aboard an open, unsheltered boat. Nothing to do, then, but trust to time and tide. I prop my rucksack against the sternsheets, and lie my head on it, stretching my legs forward along the burden boards.
I close my eyes and listen — to the wind, what little there is of it now, to the water scurrying along the hull strakes, to the faint suck and scrape of mud around the keel. Patience is a necessary virtue for a sailor.
The first lesson of sea navigation is that you never sail to anywhere, you sail towards it, a semantic caveat that takes account of the uncertainty of every sea passage, even across sheltered waters, and defines a sailor's readiness to adapt to whatever befalls their vessels — unexpected calms or squalls, contrary tidal streams, a seabed's topographical drift.
In the ill-defined, liminal water/land of these marshes, even less can be relied upon. I wait.
First published in Place 2020, via The Centre for Place Writing, UK, 2020.
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jimitjain · 4 months ago
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Types of Bolts: A Comprehensive Guide
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Ananka Group is the Best Bolt Manufacturer in India. In many different industries, bolt is an essential component of the supply and transportation networks. It is used to link or connect objects together and is simple to assemble and disassemble. High-tensile bolts are important because of their high tensile strength and resistance to compression fitting in the building of steel structures. 
1. Hex Bolts
Hex bolts are named for their hexagonal heads and are one of the most commonly used types of bolts. They come in various grades and materials, making them versatile for different applications.
Uses: Hex bolts are widely used in construction, machinery, and automotive industries. They are ideal for joining wood, metal, and other materials.
Characteristics: They are available in both coarse and fine thread varieties and can be used with a corresponding hex nut or tapped hole.
2. Carriage Bolts
Carriage bolts feature a round, domed head and a square neck that prevents the bolt from turning when the nut is tightened.
Uses: Commonly used in wood-to-wood or wood-to-metal applications such as furniture assembly, fencing, and deck building.
Characteristics: The square neck grips into the material to prevent the bolt from spinning during installation.
3. Lag Bolts
Lag bolts, also known as lag screws, are large, heavy-duty bolts with a hex head.
Uses: Ideal for heavy-duty applications such as securing large timbers, wood construction, and outdoor projects like decking.
Characteristics: They have sharp, coarse threads that provide a strong grip in wood.
4. Eye Bolts
Eye bolts have a looped head that can accommodate ropes, cables, or chains.
Uses: Often used for lifting, rigging, and anchoring applications. They are also used in light fixtures, electrical wiring, and marine hardware.
Characteristics: Available in various materials, including stainless steel for corrosion resistance in marine environments.
5. Anchor Bolts
Anchor bolts are designed to attach structures or machinery to concrete.
Uses: Widely used in construction for securing buildings, bridges, and heavy machinery to concrete foundations.
Characteristics: They come in different types, such as L-shaped, J-shaped, and wedge anchors, each suited for specific applications.
6. U-Bolts
U-bolts are shaped like the letter "U" with threads on both ends.
Uses: Commonly used to secure pipes, conduit, or other round objects to a surface. They are also used in automotive applications to attach exhaust systems.
Characteristics: They provide a strong and stable attachment for cylindrical objects.
7. Flange Bolts
Flange bolts have a built-in washer (flange) under the head that distributes the load and provides a larger bearing surface.
Uses: Frequently used in the automotive industry for securing frames, engines, and transmission systems. They are also used in plumbing and construction.
Characteristics: The flange reduces the need for a separate washer, simplifying installation.
As India's largest Bolt Manufacturer, Our specialty is larger diameter bolts and nuts made of stainless steel with higher tensile strength. They are essential components of many industries, including home goods, construction, manufacturing, and transportation. Also we are India's largest Fasteners Suppliers. We provide fastener grades that satisfy all international and national specifications. We also specialise in stainless steel Hex bolts, nuts, Stud bolts, and other fasteners.
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concretefilm1 · 4 years ago
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How Concrete Fasteners Work
The process used when fastening to concrete has basically remained unchanged over the years. Although there are epoxy/chemical type anchors in use today, the majority of anchors rely on the same principles that were developed many years ago.
Fastening to concrete is unique compared to other fastening applications, such as fastening two pieces of metal together by using a screw or a bolt and nut. Concrete anchors of any type are much more difficult to use and install correctly.
The concept of fastening something to a solid base material is completely different than for almost any other type of fastening application. Concrete is the most widely used base material in the world for the last 2,000 years and probably will remain so for the next 2,000 years due to its simplicity, strength, versatility and the abundance of the ingredients used to make it.
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The Process With Which We Fasten To Concrete Is Simple:
1. Make a hole in the concrete
2. Put something in the hole to take up the space created
3. Expand the material in the hole via a nail, screw or setting tool
We are making a hole with a certain amount of volume and then inserting more material into the hole. This increased volume of material that pushes against the interior wall of the hole will create friction. This friction is how most mechanical concrete anchors obtain their holding values.
All the mechanical type concrete anchors work on the same basic principle. Drill a specific size hole, insert the anchor, and expand the anchor larger than the hole in order to make it difficult for the anchor to be pulled out of the hole. Concrete anchors are designed to go into a hole in concrete and not come out.
Wedge Anchors
Wedge anchors are two-piece concrete anchors that are assembled into one unit. The steel rod made from carbon steel or stainless steel is threaded on one end and the opposite end starts out slightly smaller in diameter and tapers out to the full diameter of the rod. A clip is then permanently attached to this end of the rod. The wedge anchor is inserted into a hole in concrete until the threads are below the surface of the concrete. The nut and washer are placed on the threads and tighten until finger tight. Using a wrench, the nut is then turned, which pulls the anchor up to wedge the clip between the stud and the wall of the concrete. When drilling a hole in concrete for a wedge anchor, the hole size is equal to the anchor diameter size.
Sleeve Anchors
The sleeve anchor is made up from four different parts. The stud, which is threaded and flared or cone shaped at one end, the expander sleeve, and the nut and washer. The expander sleeve is assembled over the stud with the nut and washer threaded on to the opposite side of the cone shaped end. The sleeve anchor is inserted into a hole drilled in the base material either concrete, brick or block. The nut is turned, which pulls the stud up through the expander sleeve, expanding it up against the inside wall of the base material. The hole size to be drilled into the concrete for a sleeve anchor is equal to the diameter of the anchor being used.
Concrete Screws
Concrete screws are different than all the rest of the anchors because they do not use expansion to derive their holding values. Concrete screws are a special threaded screw, with hardened notched threads and high-low threads. The notches and the high low threads help to eliminate concrete shavings from the hole as the screw taps threads into the base material. The hole size for concrete screws is smaller than the diameter of the screw. A 3/16" screw requires a 5/32" hole and a 1/4" screw requires a 3/16" hole. The concrete screw is inserted into the hole and turned either by hand or by a rotation drill until the concrete screw is tight against the fixture being fastened.
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Drop-In Anchor
Drop-in anchors are a female anchor designed to be placed in concrete and then to have a threaded rod or bolt inserted. The drop-in anchor is made-up of two parts: the expansion shield, made from zinc plated carbon or stainless steel, and a case hardened expander plug that is cone-shaped and made from zinc plated carbon or stainless steel. One end of the shield is tapered, with four cut slots that run a portion of its length. The surface of this end may be smooth or knurled while the other end will be smooth. The expander plug is inside the anchor, placed at the end of the anchor that has the four slots, and the other end is threaded. The anchor is set by placing the anchor into a hole in concrete and by setting the expander plug using a setting tool. Each diameter of drop-in anchor has a specific setting tool. This setting tool is a steel rod with one end being necked down. The necked down portion of the setting tool is inserted into the drop-in anchor and pounded with a hammer until the lip of the anchor meets the lip of the setting tool. This action pushes the expander plug down into the drop-in anchor expanding the anchor where the four cuts are. As with all female type anchors, the size of the designated size of the anchor refers to the bolt size that goes into the anchor; the hole size is larger than the anchor size.
Machine Screw Anchor
Machine screw anchors are a female type anchor into which a threaded item is placed. Machine screw anchors are made up of two parts, the internally threaded cone and the sleeve. The sleeve is place over the threaded cone and inserted into a hole drilled in to the base material of concrete, brick or block, threaded cone first. The machine screw anchor is set by the sleeve being pushed over the expander sleeve wedging the sleeve between the expander sleeve and the inside wall of the concrete. The anchor is properly set when the lip of the setting tool meets the lip of the anchor. Each diameter machine screw anchor has a specific setting tool that is designated by the diameter of anchor being used. The machine screw anchor size is designated by the inside diameter of the bolt to be used with the anchor, the hole size required is larger than the anchor size being used.
Strike Anchor
Strike anchors are for use in solid concrete and are considered an impact expansion type of anchor. The strike anchor is made up of four parts: the body that is made from carbon steel with an interior hole the entire length of the anchor, a drive pin that is hardened, and a nut and washer plated in a yellow zinc. The body of the anchor is threaded on one end with the other end having four slots cut a portion of the length - the surface of this part of the body has ribs around the circumference. The length of the drive pin that is hardened must equal the length of the anchor and is placed inside the interior hole of the anchor body. The anchor is set by placing anchor into a predrilled hole in concrete with the nut and washer attached. The anchor must be tapped lightly until the nut and washer are against the base material or fixture being fastened down. The hardened pin is then driven into the anchor until the head of the pin meets the end of the anchor body, which will provide for the proper setting. As the pin is pushed into the anchor, the anchor is expanded. The hole that is needed to be drilled for the strike anchor is the same diameter as the diameter of the anchor being used.
Hammer Drive Anchor
Hammer drive anchors are made from a Zamac material that is strong and malleable. Hammer drive anchors are a light duty concrete anchor, made up of two parts the body and the zinc plated steel pin. The body of the hammer drive anchor is split from the bottom up for most of its length, with a mushroom head. The anchor body is hollowed out that runs through the head thickness and down into the shank for the entire length. The steel pin is what expands the anchor; it is made of high carbon steel, with a small head on one end and with the other end pointed. The anchor is set by hammering the steel pin into the anchor body. As the nail pushes through the anchor body, the split part expands to push against the interior wall of the hole in the base material. The hole diameter to be drilled for the hammer drive anchor is equal to the diameter of the anchor being used.
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Split Drive Anchor
Split drive anchors are made from carbon steel that is heat-treated through, hardened and zinc plated. Split drive anchors are one piece with either a flat countersunk head or a round head. At the base of the anchor, opposite sides of the head the shank is sheared into two pre-expanded parts. These two halves are compressed when the anchor is driven into a predrilled hole in concrete. These two halves continually try to get back to their original shape, pushing against the inside wall of the hole. The split drive anchor requires a hole size that is equal to the diameter of the anchor being used.
Lag Shield
Lag shields are made up of two parts that are assembled into one piece. The lag shield is made from a Zamac material, which is a zinc alloy that is rust-resistant. The inside of the lag shield has internal threads designed to accept lag screw threads and its threads are tapered and run the length of the anchor. The outside body of the anchor has ribs that run the majority of the length of the anchor. The lag shield is set by inserting a lag screw into the anchor. Turning the lag screw into the tapered threads expands the two halves of the anchor and pushes against the base material. Lag shield anchors are designated by the diameter of the bolt that goes into the anchor. It is important that the hole size to be drilled is larger than the designated anchor size.
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