Lead screws can be found in nearly every industry as they are one of the most basic linear electric actuator technologies available. In terms of matching cost with reliability, lead screws are notable components and can be found in quality electric linear actuators at affordable prices. In this article, we will cover the top 10 lead screw questions we frequently get asked which you will find useful to better understand lead screws and how they are used in electric linear actuators.

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1.      What Is a Lead Screw?

A lead screw is any threaded screw that helps create motion by moving a load along its surface. In the case of actuators, lead screws are used to push and pull the stroke.

Lead screws come in a variety of lengths and thicknesses. The length and thickness of each will determine how long the stroke of your actuator is and how fast it will move. The thicker the lead screw, the slower its travel speed.

2.      What Is an Acme Screw?

An ACME screw is a specific type of lead screw that is of the trapezoidal thread form. So, if we were to get out a magnifying glass and look closely, we'll see that the outline of the threads on the screw form a trapezoid with a 29° angle. ACME screws are the most common form of lead screw used in the industry.

3.      What's the Advantage of a Lead Screw?

In terms of cost, you're not going to find anything better than lead screws. This is because a high lead screw force is possible to handle heavy loads while still offering high precision and repeatability at the same time. Lead screw vibrations will occur in very small amounts in every application, but this is generally not a problem for most application.

4.      Can a Lead Screw Bend?

It is possible for a lead screw to bend under certain conditions. A long lead screw has a greater risk of bending when compared to lead screws of a shorter length. If a long lead screw is used correctly within the lead screw force ratings and follows the manufacturer's specifications, there should not be any issues with bending. Calculating the required force of an actuator helps determine approximately what operating forces were required before selecting an actuator with lead screws.

5.      Do Lead Screws Experience Back Driving?

Back driving will mainly depend on the lead screw’s efficiency. Lead screws will not experience back driving when the following 2 requirements are met:

• The screw efficiency is below 40%
• There is no vibration experienced by the screw

6.      What Materials Are Used to Manufacture Lead Screws?

As there are many different materials that could be used to manufacture lead screws, the most suitable material will depend on what the lead screw is being used for as well as your application’s priorities and requirements. Materials such as carbon steel, stainless steel, titanium, aluminum, bronze, ceramic, and plastic materials have been used for manufacturing lead screws.

7.      What Makes a Lead Screw Efficient?

Whenever you hear the word 'efficiency' being tossed around with lead screws, the main factor is friction. For a lead screw to convert rotary motion into linear motion, it needs to overcome friction. To improve lead screw efficiency, increasing the angle of the lead screw’s thread helps reduce the amount of energy required to overcome friction.

8.      Where Are Lead Screws Used?

We have seen a lead screw used for many different applications in various industries. Any place where smooth, reliable motion is required, a lead screw actuator can handle the task. This can include automotive applications, home automation, robotics, manufacturing, and many more areas with emerging technologies.

9.      Do I Need to Lubricate My Lead Screws?

The electric linear actuators we offer have lead screws that are self-lubricated internally for the life of the unit and require no future lubrication when used within their ratings.

10.      Can I Use Lead Screws in Harsh Environments?

Lead screws are particularly useful in harsh environments because they have no extra rolling parts. Whenever actuators with rolling components are used in environments with dust or debris present, the risk of the particles accumulating at the rollers may result in decreasing performance. Lead screw actuators are better suited at withstanding the dust and particles that may be found in harsh environments. The industry uses ingress protection or IP ratings to indicate a product’s ability to withstand liquid and dust intrusion.

In Summary

Lead screws are popular components for electric linear actuators because of the high level of versatility and simplicity they offer at affordable prices. With all the benefits offered from lead screws, it is no wonder they are commonly found in various applications in the industry. If you have any queries or wish to discuss our products further, please do not hesitate in reaching out to us! We are experts in what we do and want to ensure you find the best solution for your application.

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What You Need to Know About Bolt and Screw Materials

Fasteners, such as screws and bolts, hold everything together. From our cars to kitchen units, if it wasn’t for reliable fasteners everything would fall apart. In this post we look at the materials used to manufacture screws and bolts and why this is important in their applications.

We are all familiar with screws and bolts. Screws are basically a shaft with a corkscrew shaped groove on it`s surface, typically used to fasten one object to another. Scholars believe the screw thread was invented around 400 BCE by a Greek philosopher called Archytas of Tarentum, known by many as “the father of mechanics”.

Early screws were made from wood and used in olive presses to extract oil and in wine presses to squeeze juice from grapes. The Greek mathematician Archimedes is reputed for the development of what’s known as an Archimedian screw or water screw which is recognised as one of the earliest known hydraulic machines. The first records of water screws or screw pumps of this type date back to the 3rd century BC when devices of this type were used for irrigation.

It wasn’t until that a French inventor, Jacques Besson, developed a screw and bolt manufacturing machine. Further developments in screw technology continued to progress including, in , the invention of the first reliable screw-cutting lathe by English instrument maker Jesse Ramsden.

The origins of nuts and bolts are uncertain but it`s apparent that screws and various forms of nuts and bolts were commonly used as early as the 10th century. Detailed records show how fasteners with screw threads were used in a wide variety of applications such as machine and vessel assemblies.

How are Screws Made?

Metal screws are typically manufactured from rolls of wire which is firstly straightened and then cut to the required lengths. These are then stamped into a die that forms the screw head which is then stamped again to form the various slot types for screwdrivers. These screw blanks are then passed through the thread-forming process before being heat treated and possibly coated.

Custom screw types are manufactured using a machining process which involves more expensive machinery and more exacting manufacturing processes.

Essential Attributes of Reliable Fasteners

Fasteners generally need to be reliable. They must hold things together, often under arduous conditions, without risk of failing. As well as the fastener design the following attributes are vitally important:

• Strength
• Brittleness
• Corrosion Resistance

In some applications attributes such as electrical conductivity and thermal conductivity are also vitally important considerations. And all of these factors relate to the materials used in screw and bolt manufacture.

Common Screw Materials

Screws and bolts are made from a wide variety of materials including wood and various plastics. Here’s a breakdown of the most commonly used materials for screws and bolts.

Steel

Various grades of Carbon steel are most commonly used to manufacture screws, bolts and other fastener types. Carbon steel is graded with 2, 5 and 8 being the most commonly used  grades in screw manufacture.

Grade 2 carbon steel is the most common. It`s low cost with a lower carbon content making the material highly workable. But this is the least durable type of steel and screws will often be coated for protection.

Grade 5 steel is a medium carbon variety and screws made from this material are normally hardened to improve strength. This grade of steel fastener is typically used in automotive applications.

Grade 8 steels are typically medium carbon alloys. Screws made from this material are generally hardened to a high degree making them very strong and most suitable for applications involving high levels of strain, such as vehicle suspension systems.

All but the lowest grades of carbon steel nuts and bolts present markings, usually on the bolt heads, indicating their strength. Markings consist of two numbers, separated by a decimal point. The first number reflects the breaking strength of the bolt, in 10`s of kg per square metre. And the second number indicates how much stress the bolt can take before it begins to stretch, as a percentage of the breaking load. For example, a bolt with a head marking of 8.8 indicates the bolt will take a load of up to 80kg per square millimetre  before it breaks and will begin to stretch when the load is 80% of this breaking load. Simliarly, a bolt with a head marking of 10.9 will take a load of up to 100kg per square millimetre and begin to stretch when the load reaches 90% of this value.

For more Screw Manufacturersinformation, please contact us. We will provide professional answers.

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Stainless Steel

Stainless steel is a well known steel alloy that combines the workability properties of low carbon grade steel with the added properties of small amounts of chromium and nickel. The chromium provides a high level of corrosion resistance making the steel `stainless`. But it should be noted that due to it`s low carbon content stainless steel cannot be hardened and fasteners made from this material are a lot weaker than hardened steel fasteners. But they are stronger than screws and bolts made from grade 2 steel.

Markings on stainless steel bolts vary but bolt heads may provide indications such as A-2 or A-4. A2 grade stainless steel is also called type 304 or 18/8 grade as it contains 18% chromium and 8% nickel. A4 stainless steel is also known as type T316 which contains 16% chromium with 10% nickel and 2% molybdenum. The small amount of additional molybdenum improves corrosion resistance making this grade of steel suitable for marine applications.

Alloy Steel

Alloy steel fasteners are created using high-strength, heat-treated carbon steel. Alloy steel has low resistance to corrosion and is very strong but can be brittle. Alloy steel screws and bolts benefit from additional corrosion resistant coatings.

Silicon Bronze

Screws and bolts made from silicon bronze tend to be simply called bronze fasteners. The material is an alloy of tin and copper with a small amount of silicon. It has the advantage of being highly resistant to corrosion as well as being high strength. But a primary drawback is it`s high cost. Screws and bolts made from this material typically find applications in marine environments and other areas where corrosion resistance is vital.

Brass

Brass is an alloy of copper and zinc which, like bronze, has excellent resistance to corrosion and is a good conductor of electricity. But brass is a relatively soft metal with low tensile strength. The distinctive gold appearance of brass fasteners makes them a popular choice for stylistic applications.

Aluminium

A primary advantage of aluminium is it`s extremely lightweight. Also, like brass, it`s highly resistant to corrosion. But a key drawback is it`s a soft metal and relatively low-strength fastener material. Aluminium alloys, incorporating elements such as silicon, iron, copper, zinc or manganese, are sometimes used to manufacture fasteners.

Nylon and Plastic

Nylon is a lightweight plastic material sometimes used for specific fastener applications. Compared with metal fasteners it has lower tensile strength making it unsuitable for any usage involving high stress and physical load. It also suffers load bearing deterioration under higher temperatures and weakens under cold conditions. But nylon and plastic fasteners are naturally corrosion resistant and don’t conduct either heat or electricity.

As well as Nylon, plastic fasteners can be made from PVC or polypropylene. They are most useful in applications where they are not required to bear any significant load and are commonly found in washing machines and automotive applications.

Popular Fastener Coatings

Fasteners are produced with a variety of coating options. These coatings often enhance the performance of the fasteners or they may be applied for cosmetic reasons. Here are some of the most common coatings used on screws and bolts.

Zinc Plating

Zinc plating steel fasteners provides improved resistance to corrosion. Zinc-nickel and zinc-iron alloys are also used on electroplated fasteners.

Zinc plating applies a thin coating of zinc which can range from 3 to 5 microns in thickness up to 12 microns. The electroplating process doesn’t ensure an even plating thickness across all areas of a screw or bolt where the plating can be thicker on corners, points and other areas.

Bright zinc plated (BZP) is the most common form of zinc plating used for fixings and fastenings. Other forms of zinc plating include zinc black, which achieves a corrosion resistant black finish and zinc yellow passivate (ZYP) which is similar but uses a different alloy to achieve a yellow finish.

Nickel Plating

Electroless nickel plating (ENP) is another plating technique that improves corrosion-resistance on fasteners and is often used in electrical appliances. It`s also a popular choice for fasteners used in areas that experience high humidity and condensation. Most fasteners that use ENP first require copper plating to enable subsequent nickel plating.

Tin Plating

Tin plating is another effective fastener coating technique that provides a high level of corrosion resistance. Tin plating also improves fastener durability which is vitally important in load bearing applications. Tin is also a great electrical conductor and is suitable for soldering making it highly suitable for many electrical and electronic applications.

Anodising

Anodising effectively increases the naturally occurring oxide layer on the surface of a metal thus producing a protective barrier with a good level of corrosion resistance. Anodising involves the rapid oxidisation of the material surface, generally achieved using an acid electrolyte bath and passing an electrical current through the medium. Anodising is a popular technique for protecting aluminium surfaces where a variety of attractive colours can be achieved.

Electro Brass

Electro brass is a brass finish achieved by electroplating. It`s primarily used for decorative purposes and commonly seen in furniture and architectural applications.

Chromium Plating

Chromium plating provides a high level of corrosion resistance, similar to zinc plating. Chromium plated fasteners are often polished and intended for aesthetic applications.

How to Choose the Right Fastener

Selecting the right fastener takes some consideration and thought. Choosing the wrong fastener can have a disastrous impact so it`s worth paying attention to a handful of important considerations.

What is the Application?

The first question that should be answered is how will the fasteners be used and what are they for? For example, the screws needed to secure decking to a framework differ enormously from the fasteners needed to attach a robust ground anchor to a concrete substrate.

Another important consideration is whether the fastener will ever need to be removed or will it need to cope with being regularly undone and resecured? It`s also important to consider the load and stresses the fastener will need to withstand.

Is it an Indoor or Outdoor Application?

The environment in which the fasteners will be used is another important factor to consider. Screws and bolts intended for outdoor use will generally need to be resistant to corrosion. And if they are being used in marine environments they must be able to withstand the corrosive properties of salt water.

And indoor applications involving high moisture levels, such as in kitchens and bathrooms, also benefit from corrosion resistant screws and bolts.

What Type of Fastener is Needed?

There are many types and designs of fasteners from hex bolts and machine screws to self-tapping screws and wood screws. It`s important to consider exactly what type of screw or bolt is most appropriate for a particular application.

Which Fastener Material is Right for the Job?

The application along with the environment in which the fasteners will be used should be enough to determine the most appropriate fastener material. As noted in this post, the fastener material affects many important attributes including strength, brittleness and corrosion resistance.

What is the Right Fastener Coating?

As previously noted, coatings generally improve corrosion resistance and are often chosen for aesthetic reasons. Coatings on fasteners can also improve their usability by preventing galling which occurs when two surfaces effectively seize up as a result of cold welding. This is most commonly encountered when tightening bolts made from stainless steel, aluminium or titanium.

What Size is Required?

Getting the size right when ordering screws and bolts is essential. Applications involving heavy loads and where high strength security is needed generally require larger fasteners.

What Budget is Available?

It was previously noted that screws and bolts made from higher grade steel are tougher but tend to be more expensive. Spending additional money on higher quality screws and bolts is often a good investment as they will last longer and are less likely to fail, which could be disastrous.

If you have any questions about fastenings or what you might need, or if you have any special requirements, remember that we are here to help. Give us a call on and we’ll provide you with free, expert advice.

This message was added on Thursday 8th December

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