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Choosing the Right Spring Manufacturer for the Automotive Industry

Choosing the right spring manufacturer is vital for the durability, strength, and integrity of your newly purchased springs. In the automotive industry, these qualities are critical to ensuring the maximum performance of the vehicles your company produces. Choosing the right manufacturer also has a lot to do with your purchasing experience and the cost and time savings you’ll receive.

If you’re looking for a spring manufacturer, use these tips to guarantee that you make the right choice.

Quality Springs

In the automotive industry, quality springs are those that have the required levels of strength and durability to withstand the pressures and loads being placed on them for the long run. You don’t want to place springs in your vehicles that are going to rust, break, or wear quickly. This isn’t good for business, nor is it safe.

Purchasing bad springs can occur if you don’t choose a manufacturer that prioritizes quality. Look for a supplier that uses top-of-the-line equipment, machinery, and technology. Look for a supplier that doesn’t cheap out on materials just to save a few bucks. Look for a spring manufacturer that truly cares about quality—and puts quality ahead of personal financial gain.

Experience in the Automotive Industry

Your industry is unique. And you need a spring manufacturer that understands the precise quality, durability, and safety needs that your company is going to have when purchasing new springs. Your ideal supplier will serve other clients in the automotive industry and understand exactly what you need in your new springs.

Spring Expertise

Designing springs is a complex task. There are a lot of factors to consider, and the calculations must be exact—down to the fraction of the millimetre. And these are not things that you, a purchasing manager, should be an expert in. 

You need to be able to rely on your supplier to provide guidance, recommendations, and advice in order to ensure that the springs you purchase will be perfect for your application. Your supplier should be able to tell you which material to use, which size to design, and which coating you should consider based on your unique application. These decisions shouldn’t be left to you alone.

Outstanding Customer Service

Your ideal spring manufacturer will understand the importance of providing a level of customer service that is second to none. You will naturally have a lot of questions and concerns when it comes to your spring purchase. And you will likely want to be kept informed every step of the way—from the design stage to invoicing, packaging, and shipping. You need to choose a spring manufacturer that will always be there to hear you out, answer your questions, and meet your needs. You can’t afford to work with a supplier that is never around when you need him.

Close Proximity

Ideally, you should choose a spring supplier that is in close proximity to you. This will provide you with several benefits that you might not have considered. When you choose a domestic manufacturer, you’ll be able to perform quality control checks during the manufacturing process or pop in if you need to go over the design blueprints, pick up samples for testing, or for any other reason. Plus, your lead times and shipping costs will be significantly lower when you choose a domestic supplier rather than one that is based overseas. You won’t have to risk your shipment being stuck at customs or stuck in another country due to weather or conflict.

Make the Right Choice

Choosing the right spring manufacturer is an important task for any purchasing manager in the automotive industry. The quality of your purchase and your purchasing experience depends on it. Choose a supplier that has top-quality products, spring expertise, experience in your industry, and excellent customer service. Additionally, choosing a domestic supplier over an overseas manufacturer can provide you with added benefits as well.

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What Are Rivets?

Bolts, nails, and screws are common fasteners that you’ve probably used before. But there’s another fastener you might not think about too often: the rivet.

Here’s what you need to know about rivets.

What’s a Rivet?

A rivet is a permanent mechanical fastener used to join two plates together. Because they’re permanent in nature, their joints are similar to those of adhesive or welded joints. They’re very strong.

The rivet is a cylindrical piece of steel that is usually made out of low carbon, but is sometimes made from aluminum, monel, or copper if weight or corrosion are factors for the application at hand. It has a body, called the shank, a forged head on one end, which fastens two separate materials, and a tail on the other, which is bucked.

A large rivet can join pieces of metal but a smaller rivet can even join paper or wood materials, making it a versatile fastener. Though it’s typically used to support shear loads that are perpendicular to the axis of the shaft, it can still support tension loads that are parallel to the axis, too, though bolts and screws are better for this type of support.

Types of Rivets

There are several different types of rivets, based on function, material, and shape. They include the standard solid/round head, semi-tubular, countersunk, blind, Oscar, drive, flush, friction-lock, and self-pierce.

The blind rivet, standard rivet and countersunk rivet, though, are the most popular types used today. The standard type is used when a smooth exterior isn’t necessary for aesthetics or on surfaces that won’t fit against another part. The countersunk type is used on flat surfaces where a smooth exterior is necessary. Finally, the blind rivet is used when you can only access one side of the plates being joined. 

The Rivet of the Past

Rivets have been used for hundreds of years. Before welding and brazing became so widespread, the rivet was the go-to fastener for heavy industry, such as bridge, skyscraper, and ship building. Airplanes, automobiles, and buildings were also joined together through riveting. They were even used in the Titanic, in ships in the First World War, and in tanks during the Second World War. Though riveting isn’t the most popular form of fastening now, it still has its uses in the modern day.

Hand Riveting Installation

A rivet is placed in a previously drilled or punched hole on installation. It’s then pounded with a hammer or specially shaped tool into the hole, which bucks (deforms) it so that it expands into the hole, filling it completely. Essentially, the tail is pounded until it’s deformed and turned into a new “head,” taking on a dumbbell shape. This holds the rivet in place.

Advantages

Although they’re not the most popular form of fastening, rivets still have their advantages. They’re inexpensive and easy to assemble. Additionally, they’re durable, strong, and lightweight, and they can be used to join just about any type of materials. They can also be polished and painted over for a smooth finish for aesthetic purposes.

Disadvantage

The rivet does have one main disadvantage though: its permanence. Because it is a permanent fastener, it’s not so easy to disassemble it. It needs to be drilled out.

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3 Things You Didn't Know about Compression Springs

Compression springs are incredibly versatile—they’re used in more products than you could imagine. Just look around the room and you’ll probably see half a dozen products that function properly thanks to the use of the compression spring, like pens, electronics, cell phones, appliances, vehicles, mattresses, and so on.

As a purchasing manager, it’s your job to know that these springs work by opposing the linear forces of applied weight through compression. But if you’re in the market for compression springs, you’re going to need to know more about them than the way they function in order to buy some that are right for your application.

Here are three things you didn’t know about compression springs that can help you make a proper purchasing decision.

Designing a Compression Spring Is Complex

There’s a lot to consider when designing a custom compression spring. It’s not a simple process. It requires exact measurements.

First, you’ll need to know where it’s going to be placed in your application—will it need to fit onto a shaft, go into a hole, or fit into a space with a specific width or depth? Where it’s placed is going to be important for the measurements of the inner diameter, outer diameter, and free length. The environment it will be placed in also matters—it will influence your choice of material and surface coating. Additionally, its purpose will also affect design, such as whether it’s going to have to sustain a certain stress or weight or push down on an object. You’ll also need to know how far it’ll need to travel in order to calculate the maximum spring compression.

Many, Many Options to Choose From

A compression spring’s shape can vary from cylindrical and hourglass to barrel and conical. The wire size can also differ greatly in diameter, as can the number of coils and the length of the body.

Plus, you can choose from open ends, closed ends, squared ends, and ground ends. If you don’t know the different end types or know why one shape is better for your application than another, purchasing the right compression springs is going to be tricky.

Not to mention you’ll need to pick the right material and surface coating for your application, too. Are you up to the task?

The Manufacturer You Choose Matters

As we’ve already detailed, there are serious and complex considerations involved in designing a compression spring. Plus, you can choose from a wide assortment of different variations—from size, thickness, end type, and material and coating options. Are you prepared to make these decisions?

If you’re not well versed in the design of compression springs, it can be overwhelming to ensure that you’re choosing all of the right options for your specific application. But when you work with a reputable, helpful manufacturer, you can get help every step of the way—that’s why your choice of manufacturers is the most important one you’ll make during your purchase of compression springs.

Choose the wrong supplier and you’ll be left to your own devices to figure it all out. Choose a manufacturer that excels in customer service, on the other hand, and you’ll be relieved to have the help you need to make the right decisions. Plus, with a reputable manufacturer, you can rest easy knowing that high quality materials will be used, the staff you work with will be experienced and skilled, and the equipment and technology used in the process will be top notch, all of which matter to the ultimate quality of your compression springs.

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Why the Future of Grain Depends on High Quality Bin Bolts

Our future as a society depends largely on the farming industry. And the future of grain within the farming industry depends on high quality bin bolts. Your crop needs to be stored safely in a bin that is structurally sound. Even though the bin bolt seems small and insignificant, it has a big part to play in the future of grain. Here’s why.

Keep Your Crop Safe from the Outside Elements

The weather is a harsh mistress. Downpours of rain, thick snow, intense winds, hot and humid temperatures—they can all wreak havoc with your crop if they were to seep into your bin. Wet grain in particular can significantly lower the value of your crop—moisture causes odours and mold, and no one wants to buy stinky, moldy food products.

Your bin bolts need to be able to stand strong against the elements, not weaken or break due to corrosion. If just one bolt isn’t up to par and breaks, it will leave an opening for the elements to get into your bin and affect your crop. And if you’re dealing with a flood, more bolt holes can be stretched and your bin sheets can tear from the pressure. Then you have an expensive repair project on your hands.

But with strong bin bolts, this won’t happen. You’ll have the peace of mind knowing that your crop is protected from the harsh weather conditions.

Keep the Bugs Out—Avoid Infestation

Do you really want creepy crawly bugs climbing all over your crop and eating it? Not only is it gross but it’s also unhealthy and unsafe. Just as no one wants to buy moldy food products, no one wants to buy grain filled with bugs, either.

You need high quality bin bolts to create a tight seal in order to ensure that insects have no way to get into your bin. Cheap bolts can cause holes in your bin, which is all the opportunity bugs need to get to your supply. Buying cheap bolts just isn’t worth the risk of dealing with an infestation.

Stay Profitable

The old saying applies here: if it seems too good to be true, it probably is. Sure, you could save money up front by buying cheap bin bolts, but don’t start counting your savings yet. The decision will come back to bite you when the bolts break and you have to pay the costly repairs to get your bin back in order.

When buying bin bolts, you need to think of them as an investment in your future: the better protected your harvest is, the more money you can make from your crop when none is wasted. You can stay profitable when you can sell more of the products you’ve harvested. If you’re throwing out half your crop because of mold, and have to pay for bin repairs, you’ll have a hard time making a profit, which isn’t good for business.

Protect Your Business

Grain harvesting is a business. You already have enough costs to deal with, so keeping your crop sufficiently protected from the elements and from infestation is important. When you risk the integrity of your grain bin in order to save a few bucks by buying low quality bolts, you put your crop and your profit margin at risk, too.

Save yourself the hassle of stinky, moldy, bug-infested crops and save yourself from the additional cost of repairs by protecting your bin from the start with high quality bolts. The future of grain depends on it, after all.

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The Top 5 Quality Issues with Cheap Fasteners

Purchasing managers must always keep their budgets in mind when buying fasteners. But when you’re too focused on price, you might sacrifice quality. And regardless of the application at hand, sacrificing quality is unacceptable. Your first priority should always be quality. If you choose to buy cheap fasteners to save a few bucks, you might be faced with a slew of quality issues that will actually cost you more in the end—in labour costs, operational expenses, and a bad reputation.

Here are the top five quality issues you’ll have to deal with if you go with cheap fasteners for your application.

Product Failure

When you buy cheap fasteners, you risk manufacturing a defective product. It doesn’t matter how great your product is if the fasteners used to hold it together aren’t right for your application. If your fastener is just a fraction of a millimeter off from your original design, you’ll be in trouble.

When manufacturers create cheap fasteners, they’re not too concerned with ensuring that the nuts and bolts they create match your design perfectly. They won’t test them to make sure they’ve been manufactured to your exact specifications. They have a “good enough” policy that you simply cannot afford if you’re in the business of selling high-quality products.

Lack of Durability

When people buy products, they want them to last. But if you’re placing cheap bolts and screws in your applications, you’re not giving your customers the durability that they expect. It won’t take long before your bolts and screws weaken and break due to wear and tear, which can render your product useless in no time. Give your clients their money’s worth by ensuring that you manufacture products that will last for the long haul. No one wants to be forced to replace fasteners within a few short weeks or months of buying a product.

No Strength

Fastener strength is especially important when it comes to industrial applications. If you buy cheap fasteners to hold together industrial equipment, they simply won’t have the strength to withstand the pressures being placed on them. They’ll most likely be made of cheap materials that won’t be strong enough for your application. A big load can snap a cheap fastener in half.

They Won’t Withstand Environmental Conditions

Chances are if you’re buying cheap bolts and screws, the appropriate plating and surface coatings won’t protect them. That means they’ll be susceptible to corrosion. They won’t be able to withstand the elements. The moment they’re faced with any type of moisture, they’ll start to rust, which will weaken them considerably. And if they’re not manufactured properly, they’ll likely be covered in tiny holes and gaps that suck in moisture quickly.

Difficult Installation

When you buy cheap nuts and bolts, you’ll find them a lot more difficult to use. They’ll be more likely to break during installation, which can cause frustration and increase your operational and labour costs. Not to mention you’ll have to replace those broken fasteners before your products even get out the door, which means you’ll be spending more money buying the same fastener twice.

Cheap Nuts and Bolts Cause Myriad Problems

The problems you’ll be forced to deal with won’t be worth the money you’ll save up front with cheap fasteners. You’ll not only have a whole bunch of unhappy customers who might choose never to do business with you, but you’ll probably have to deal with negative reviews and bad press that can damage your profitability for a long time in the future. Plus, depending on your application, you could be putting people who use your products at risk if your product fails.

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What Is the Best Finish for a Rivet?

Rivets can be manufactured in several different materials, including general purpose aluminum, soft setting aluminum for vulnerable materials, harder aluminum for higher tensile and shear strength, malleable aluminum for brittle and soft materials, general purpose steel, stainless steel for clinical or hostile environments, nickel copper alloy for high temperature environments, or copper for thermal or electrical conductivity.

The type of plating or coating that will be placed on your rivets for added protection against the elements will be directly related to the type of material they are made of, which environment they’ll be placed in, and which elements they’ll need to be able to withstand—and at what frequency. Your budget will also be a factor in your decision.

Choosing the right finish for your rivets isn’t a simple and easy task. Many factors must be considered in order for you to make the right decision for your unique needs. Though there is no “best” finish for a rivet, you do have many different options to consider.

Cadmium

Plating a rivet with cadmium is done through baking by electrodeposition. It provides a pleasant appearance.

Zinc

Zinc plating, also known as electroplating, is pretty common. Your rivet is hot dipped, or galvanized, in the zinc salt solution and then met with an electric current. It will continuously provide corrosion resistance because zinc will migrate to uncoated areas. It is aesthetically pleasant, cost-effective, and thinner than other types of finishes. This type of plating is ideal for rivets that won’t be placed in harsh conditions.

Nickel

Nickel plating is one of the oldest protection methods. However, it tends to be more expensive than zinc or cadmium plating, so it might be out of your budget.

Phosphate

Your rivet will be submerged in a bath of phosphoric acid to be coated with this type of plating. Phosphate plating is ideal when you want to paint your fasteners or dip them in oil or wax for further corrosion resistance.

Silver

Silver plating can be quite expensive but it is still commonly used in the aerospace industry or for applications where a dry lubrication is needed on top of the corrosion deterrence.

Passivation and Preoxidation 

Passivation and preoxidation are necessary prior to assembly for stainless steel rivets or you risk the creation of oxidation or galvanic corrosion in a joint.

Anodizing

Anodizing is used for aluminum rivets—it protects them for saline corrosion agents as well as abrasion. Additionally, they can be tinted in many different colours to suit your application.

Dacromet

This non-electrolytic, water-based dry film will effectively protect against corrosion and chemical and mechanical damage. If your rivet will be placed in a high-temperature environment, then Dacromet, with its galvanic action, passivation, and self-repairing features, will provide the greatest form of protection.

JS500

If you’re concerned about your rivet plating negatively affecting the dimensions of your application, then JS500 may be your best bet. This electrolytic zinc finish is quite thick so it can cover any blemishes on your rivets in order to better protect them from corrosion, without changing the dimensions of your product.

JS Plus

JS Plus is not only cost effective but it’s also one of the most superior options for corrosion resistance. It can significantly increase the lifespan of your rivet.

Your Manufacturer Can Guide You

If considering the different types of plating options is overwhelming to you, you can request help from your manufacturer. When you work with a high quality, reputable fastener manufacturer, you don’t have to be left alone to make important decisions. Your supplier will provide you with the pros and cons of each rivet finishing option and guide you through your decision to ensure you choose the right one for your application. Because reputable manufacturers use thorough corrosion resistance testing procedures, you’ll be able to effectively protect your rivets with the right type of finish.

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How to Prevent Corrosion on Your Fasteners

Corrosion is the cancer of fasteners. It can not only harm their appearance but it can lead to their total failure. And if your fasteners fail to do their job, the application they are in won’t be structurally sound, which can lead to bigger issues, like safety risks and additional costs.

As a purchasing manager, it’s important for you to understand what corrosion is, how it happens, and how to prevent it. To help you make the right choice when it comes to your fasteners and their corrosion protection, here’s some helpful information.

What Is Corrosion?

When it comes to metals, corrosion is an inevitable problem that must be dealt with. Simply ignoring it won’t do you any good in the long run—it’s going to happen, so you must be prepared for it.

Corrosion is the degradation of a metal’s properties. It is primarily caused by moisture, which causes electrochemical reactions in the fastener. Once an iron surface that is exposed to air makes contact with water, it is made rich with oxygen. Because the inside of the water drop has no oxygen, electrochemical differences occur. An electric current, acting as an electrolyte, flows through the droplet and causes the iron ions to dissolve. This forms oxide hydrate, which is most commonly known as rust.

Type of Corrosion

Knowing the differences among the types of corrosion can help you understand how to effectively prevent it from occurring.

Uniform corrosion is the most common type—it has a reddish colour that covers the entire exposed fastener. You can prevent it by choosing the right plating and coating option.

Galvanic corrosion occurs when you have two different metals in the presence of moisture. It’s prevented by using materials that are noble—or at least more noble than the joints.

Crevice corrosion occurs only in the small gaps and recesses of your fasteners that draw moisture and aren’t properly ventilated. It is prevented by making the joint interfaces smooth in order to avoid crevices as well as not using washers if possible. 

Pitting corrosion happens on very noble finishes, such as chromium and nickel, and is prevented by keeping surfaces smooth and clean. Stress corrosion cracking usually starts as pitting corrosion and occurs on fasteners that are subjected to tension. It’s prevented in the same way as pitting corrosion as well as with periodical safety inspections and, often, hot dip galvanizing.

Finally, intergranular corrosion happens when stainless steels are heated at a high temperature, such as during welding and hot forming, and is prevented by quenching the parts in water immediately after heating or using stainless steels with a carbon content below 0.05%.

Preventing Corrosion from the Start

The easiest way to ensure that rust doesn’t ruin your fasteners is to make protection a priority right from the beginning of your design process. Consider what environments they are going to be placed in—will they be in contact with water, rain, or snow? If so, you must ensure that you get the correct level of protection for the type of elements they’ll be exposed to.

Choose the Right Manufacturer

When you choose to work with a manufacturer that has excellent customer service, is knowledgeable when it comes to the different types of corrosion, and has the plating and coating options to suit your needs, you can prevent rust from occurring before it becomes a problem. Your manufacturer should be able to talk you through the different options and help you choose a surface plating or coating that has been put through salt-spray testing and will be best for your application.

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What Are the Different Bolt Plating Options?

When you’re tasked with purchasing bolts, you might think it’ll be an easy decision. After all, how many options will you have to choose from? They’re all basically the same thing, with the same purpose, right? Nothing could be further from the truth.

In fact, a lot of factors need to be considered to ensure that you’re choosing the right ones for your specific application. One factor in particular, bolt plating, can make a big difference in the effectiveness, strength, integrity, and longevity of your bolts. Choose the wrong bolt plating option and your fasteners might quickly succumb to corrosion caused by the elements they’re exposed to.  And since corrosion is inevitable when it comes to fasteners, it must be dealt with head on—protection must be a top priority during the manufacturing process.

To get the most out of your bolts—to ensure they work effectively for a long time to come—you must choose a bolt plating option that can properly protect your fasteners from the harsh environment elements. With the right bolt plating your fasteners can stand strong against moisture so they last for the long term, without giving out to rust.

Here are some of the different plating options you’ll need to consider before you begin the design process of your new fasteners.

JS500

If you want an effective and also cost-effective plating option for your bolts, JS500 might be your best bet. This electrolytic zinc coating, with a .0003 inch minimum thickness leached in JS Solution, protects against corrosion but won’t affect the dimensions of your applications. Because it’s so thick, it can cover the majority of the steel blemishes, like gaps and crevices, that pull in moisture and speeds up corrosion.

JS Plus

JS Plus is one of the best bolt plating options on the market right now, and best of all, it won’t break the bank. It can considerably increase your bolts’ longevity by protecting them against even the harshest elements for a long time. In fact, it’s been proven to protect against corrosion for up to 1,500 hours during salt spray testing.

Electroplating/Zinc Coating

Electroplating, which is also commonly known as zinc coating, is a thinner and more aesthetically appealing bolt plating option. It’s applied to fasteners with the use of an electric current. The bolts are first immersed in a zinc-salt solution, and then a current of electricity is applied. This option is ideal for bolts that won’t face extreme elements, such as bolts used indoors. However, it won’t provide the level of protection needed for outdoor applications, because it’s too thin to withstand constant contact with moisture.

Dacromet

If you’re looking for a plating option that can not only offer protection against corrosion but also provide mechanical damage resistance and chemical resistance, then Dacromet might be for you. It’s a water-based, thin, dry film that isn’t electrolytic like zinc plating. It not only boasts passivation and galvanic action, but it’s also self-repairing! You’ll get great protection from the overlapping zinc and aluminum flakes. If you are working on a high-temperature application or you want a plating option that’s paintable, Dacromet will be your best choice.

Talk to Your Manufacturer

Don’t let corrosion ruin the integrity and longevity of your bolts. Fight it with plating. You have many different protection options to choose from and you can find one that is right for your bolts. When you work with a manufacturer that is knowledgeable in corrosion protection, you can talk through the different options and choose one that is best for your application.

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5 Common Uses for Rivets

Although bolts, screws, and nails are far more common in the world of fasteners, many applications still require the use of rivets. Rivets consist of a head on one side, a tail on the other, and a smooth cylindrical shaft connecting them. Though they can support tension loads, they’re better suited to supporting shear loads that are perpendicular to their axes. Riveting is ideal in situations where workers cannot access the back of the product, such as with a walls or tubing. With riveting, there’s no need to access the rear end of the joint so this isn’t a problem.

Riveting is often a more cost-effective and superior method of fastening. Rivets are easy to install, and thus, have a lower installation cost, while the unit cost is also often lower. They’re available in a variety of materials, types, and sizes in order to meet the requirements of many applications, and they’re reliable because they’re permanently fastened in order to withstand environmental conditions and even severe vibrations. Riveting was a popular method of fastening in the past but it’s still widely used today when a light weight and high strength are vital to the application. They can fasten wood, metal, and plastic.

Here are five common uses for rivets.

Home Building

If you look around your home, inside and out, you might see some rivets that you’ve never noticed before. They’re probably all around you. They’re widely used in gutter construction because nails aren’t as effective for attaching metal sheets together. Additionally, if you have fiberglass roofing, it’s probably held together with rivets. Window blinds, hanger straps, wind guards, and even doors and windows are often installed by riveting.

Wall and Ceiling Decorations and Signs

Because you only have access to one side of a wall or ceiling, riveting is ideal if you’re looking to permanently attach nameplates, signs, or decorations to them. Ornamental objects, Christmas lanterns, Halloween decorations, framed paintings, photo frames, and just about any other type of décor can be efficiently and easily attached to walls and ceilings with riveting.

Woodworking

Wooden stands and shelves, cabinets, lockers—just about anything made out of wood can be held together effectively with the use of rivets. In fact, it’s often the most superior option. They’re more durable than screws and nails, so they ensure a sturdier finished product, which allows the furniture to be held in place for the long run. Even the hinges used on these products, as well as the drawer pulls, handles, and doorknobs placed on them are often attached by riveting.

Jewellery

Both professional and amateur jewellery makers use riveting as a cold connection technique. It allows them to join metal pieces together without having to resort to soldering or using heat, while also adding depth and texture to their jewellery. With just the most basic metal forming skills, some common tools, and some instructional videos, any jewellery maker can use riveting to make cold connections.

Aircraft

Naturally, an aircraft will have to be made from solid, strong materials. But these heavy-duty materials would fall apart if they weren’t fastened together firmly. Though welding, bolting, and brazing are also used in the construction of an aircraft, riveting is also vital to the process. The end goal is to have the strongest union of the parts that are joined together and riveting is necessary to achieve this. It’s most commonly used to join aluminum alloys together, because aluminum is difficult to solder. Riveting provides neatness and strength, while also allowing for a lighter weight in an aircraft. Plus, during the construction and repair of aircrafts, it’s not always possible to reach the rear end of the structure being fastened, which is where riveting becomes especially useful.

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Why You Should Buy Your Springs Locally

Purchasing managers have a lot to consider when buying springs. They need to be high in quality, correct for the application at hand, within their budgets, and shipped and delivered on time. Any hitch in the purchasing process can have direct repercussions on their businesses’ productivity and profitability.

To ensure that you get everything you’re looking for, as an industrial purchasing manager, you should seriously consider working with a local manufacturer. The close proximity can have a huge positive impact on your business.

Let’s take a closer look at just some of the benefits you’ll get from engaging a local spring manufacturer instead of purchasing overseas.

Better Communication

If you’ve ever dealt with an overseas manufacturer, you know the struggle. The language barrier can have a big impact on your purchase—miscommunication and misunderstandings are standard, and they can cause a lot of problems. Plus, the time difference makes it difficult for you to get answers when you need them. You don’t do business in the same time zone, so you often have to wait 12 hours or more to make contact.

Better Quality Control

To make sure the production of your springs is on the right track, you should have some level of control. When you work with an overseas manufacturer you don’t get the level of quality control that you want. Unless you’re willing to hop on a flight, you can’t visit the factory. You can’t know exactly what’s going on. You can’t pop in to look at the type of machinery that is used. You can’t inspect your product. Instead, you have to wait weeks for a sample to be delivered to you. And if it’s not what you requested, you have to wait even longer for the issues to get fixed and for new samples to be sent and approved.

It’s a lot easier to avoid problems and errors from occurring when you have direct contact with your manufacturer for quality control purposes. You can make sure that the springs you get are exactly what you wanted—the first time around.

Faster Delivery

One of the biggest advantages of working with a local manufacturer is faster delivery. You won’t have to wait for months for your springs to be delivered by boat. You don’t have to worry about customs clearings. When your manufacturer is right around the corner, your product will be shipped and delivered in no time. You won’t have to put your own production on hold.

Bigger Savings

Yes, really. You can save money when you buy locally. Sure, you might get lower initial prices on your springs overseas, but if that’s all you’re considering, you’re forgetting about all of the hidden costs that can put you over your budget. The extra duty and shipping fees. The extra taxes. The loss of productivity and increase in labour and operational costs if shipments are late or the products you receive aren’t what you wanted. The additional wasted time. All of these extra costs can really hurt your budget when you choose an overseas manufacturer. You can save on these hidden expenses when you choose to do business locally, so in the end, you save money.

The Best Route

If you’re looking to get a bigger piece of the market share in your industry, to stay ahead of your competition, to purchase springs that are high quality, to work with a manufacturer that has great customer service, then buying your springs from a local manufacturer is the right route for you.

Belt Tensioner Spring

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Reduce Spring Cost by 20%