Did you know that the largest industry in agriculture is food and manufacturing? Americans even spend 12% of their household budgets in this sector. Agriculture also expands to farm-related industries with their machinery.

The keys to effective control in any agricultural machinery are brakes and clutches. These friction materials keep them running and are crucial in the agriculture industry.

How do brakes and clutches work, and are there different kinds available? Read on to learn more about these friction materials.

Brakes and Clutches Function

Brakes and clutches transfer torque from an input shaft to an output shaft. In simpler words, they stop and hold weight. You get them as separate parts, but they merge into a single clutch-brake unit.

Engaging the clutch transfers power from an engine to transmission or drive sprockets. Disengaging the clutch stops the power transfer, but the engine continues turning. Braking stops or slows the movement of connected shafts.

The type of brakes or clutches depends on how they engage or disengage the load. Therefore, machine operators also classify them by the method used to operate them.

Friction

The friction type is the most common brake or clutch in an agricultural application. It engages or stops a load. It happens by creating friction between two matching surfaces.

The first surface is metallic, usually made of iron. It forms into a drum, band, or disc.

The second surface has friction facing from molded organic material. It has a heat-cured resin binder, either a shoe, pad, or plate.

Disc

A disc-type brake or clutch has a single friction plate with a disc in its most basic form. It’s a single unit that combines clutching and braking duties.

Drum

A drum-type has cylindrical friction surfaces with a common axis or shaft. It transmits high torque and is perfect for off-road equipment.

Cone

A cone is a cross between drum and disc types. However, they no longer use it in modern agricultural machinery.

Electromagnetic

Electromagnetic type brakes and clutches are helpful when a unit needs a variable slip. They use electromagnetic attraction over friction to do their function.

Magnetic

Magnetics are the most common electromagnetic type brakes and clutches. They are great for tensioning and positioning applications with continuous changes of speed.

Eddy Current

Variable speed devices use Eddy Current types. These brakes and clutches don’t operate at zero slip.

Hysteresis

Hysteresis can provide any amount of graft. It’s needed not to exceed the heat dissipation capacity of the unit.

Mechanical

Mechanical type brakes and clutches are also called self-activating types. They transfer torque via a direct mechanical connection of input and output components.

• Square Jaw – consists of square teeth locking into mating recesses in facing members
• Spiral Jar – used to overcome the limited engagement speeds of square jaw types
• Multi-tooth – offer the advantages of mechanical lockup clutches
• Sprag – has cylindrical inner and outer races, together with sprags filling the space
• Wrap Spring – a coiled spring links its input shaft and output shaft
• Roller Ramp – transfer torque through rollers riding on the ramped surface of a hub

Mechanical brakes and clutches are often the least expensive. They assemble well for engaging and disengaging shafts.

Know More About Agricultural Machinery

Brakes and clutches are behind the effective control of agricultural machinery. They disconnect and connect the power source and slow or stop the system.

If you’re looking for the best industry parts and services, Kor-Pak is here to help. Check us out for more information.

American Industrial Machinery Wholesaling was worth over $300 billion in 2022. They produce machine parts used in the transportation and manufacturing industries.

Stromag is a company that provides industrial solutions to its customers. They make brakes and clutches for machines for the agriculture and construction industries.

Do you want to learn more about Stromag brakes and clutches? Then, keep reading this article to learn more about Stromag brakes and clutches.

Types of Brakes

The American Machine Manufacturing sector employs more than 1.1 million people. They work with industrial machines that need to be consistent in performance. It includes parts like brakes and clutches to stop the machines when necessary.

Spring-Applied Multi-Disc Brakes KMB KLB works well with all types of hydraulic drives. It has a braking torque with the range of 50 to 500,000 Nm. This brake is available for wet and dry operations.

Another brake model is the Spring-Applied Multi-Disc Brake KMB ZM / KLB ZM. The braking torque ranges from 100 to 3,000 Nm and can be higher on request. The compact design works well for mounting between hydraulic motors and gears.

Stromag’s Spring-Applied Brake NFF has a braking torque ranging from 20 to 10,000 Nm. It offers a degree of protection up to IP 66. It has a wide range of options like braking torque and wear signs.

HPB High-Performance Brakes have a torque that ranges from 80 to 5,000 Nm. It’s flood and seawater-proof, making it ideal for marine applications. In addition, it has an optimized design for maximum performance in small places.

Maintenance for Stromag Brakes is essential to make sure they are running well.

Types of Clutches

Dry Running Diaphragm Clutches KHM 800 is one of the Stromag clutches available. This model has excellent engagement controllability and low wear and noise levels.

Stromag’s Dry Running Diaphragm Clutches KHM 800 is robust and powerful. It has a maximum speed of 2100 rpm and a static torque of 5.450 Nm at bar 28.

Another clutch model from Stromag is their Pole-Face Friction Clutches MWU. It operates through electromagnets for a clean actuation. This clutch model has a torque range of 7 to 7,8000 Nm.

The Pole-Faced Friction Clutches MWU has high wear resistance. It is from the steel-steel friction combination. It also has a high switching frequency and offers short switching times.

Wet Running Multi-Disc Clutches KMS are oil-cooled and operate through hydraulics. It has a rated torque of over 2,000,000 Nm. It has a diameter of 1.2 m and weighs 4 tons.

One of its features is its excellent torque to weight ratio. It also has remote control capability. In addition, it has a mechanical emergency operation device for hydraulic oil supply failure.

Know More About Stromag Brakes and Clutches

These are the Stromag brakes and clutches designed for industrial applications. Knowing your options is crucial in replacing machine parts. Stromag has a selection of products that lasts longer to avoid future complications.

Contact us for questions about Stromag brakes and clutches for your industrial machines. Let’s discuss your needs and help you get the products you need.

An object in motion produces kinetic energy. The amount is equal to half its mass multiplied by its velocity squared.

Double the mass means double the energy. However, double the velocity equals four times the latter.

The kinetic energy must go somewhere else to stop a moving object. Mechanical brakes achieve this goal using friction. Rubbing two surfaces together converts it to heat, halting them. 

However, using friction for massive and fast objects presents several issues. It is where eddy current brakes enter the scene. If you want to learn how they work, keep reading below.

The Technology Behind Eddy Current Brakes

Eddy current brakes rely on electromagnetism to stop moving objects. It dissipates kinetic energy as heat through looping electric currents inside a conductor.

These are eddy currents. Changing magnetic fields induce an opposite magnetic field. It swirls inside the material instead of flowing away as an electrical current would with a wire.

Following Lenz’s law, these currents don’t have a random direction. Instead, they flow opposite of the initial magnetic field.

The moving conductor faces a drag force from the opposite direction, proportional to its velocity. The flowing current generates heat from kinetic energy through the electrical resistance. They try to stop whatever’s causing them, allowing us to use the eddy current technology for brakes.

The result is a clean deceleration, unlike a sudden force from friction. Eddy current brakes are low-maintenance since they need no physical contact between components to produce braking energy. The materials don’t wear out as fast as in a mechanical brake.

Eddy Current Brake Design

How does an electric brake create eddy currents? One design uses a non-ferromagnetic conductive disc, which rotates perpendicularly in a toroidal magnetic field.

The rotation of the disc induces eddy currents. As a result, the power generated dissipates throughout the material, creating a braking torque force.

The eddy current braking technology usually uses electromagnets. However, unlike permanent magnets, these types can change. As a result, the braking effect can vary as well.

Applications of Eddy Current Brakes

One caveat of eddy current brakes is that they can’t produce a holding torque. As such, they commonly exist alongside a mechanical feature. 

You’ll find this combination in several applications, such as the gym. Modern exercise equipment uses this technology to vary resistance levels. Unfortunately, it also helps avoid abrupt shifts in pace, potentially harming the users.

You’ll also see eddy current brakes in the amusement park. Huge, heavy machines need a secure braking system to keep the experience fun and safe. With this technology, roller coasters can slow down at designated spots and stop quickly and safely when needed.

Power tools and industrial equipment also rely on this technology for emergency shut-off purposes. For example, Eddy currents can bring a high-powered machine to a sudden stop.

Learn More About Eddy Current Brakes

Eddy current brakes offer a safer experience for everyone, even in our daily lives. As a result, several industries use this technology as a crucial part of their safety measures.

There are also more types of brakes for other applications. Are you looking for eddy current brakes? To learn more, contact us today.

The global hydraulics market reached a value of $37.4 billion in 2020.

Hydraulic systems are widely used for various purposes and can vary significantly in their design. But what is a hydraulic system? And how do they work? 

To find out, keep reading.

What Is a Hydraulic System?

Pascal’s law states that a change in pressure in an enclosed fluid is transmitted undiminished to all points in the fluid. This is the main principle behind hydraulic systems.

A system can apply a small amount of pressure and generate a much larger force. For example, if 10 pounds of force are exerted against an area of 1 square inch, it will create ten psi of internal pressure. If this is acting against an area of 10 square inches, it will generate 100 pounds of force.

Hydraulic System Components

A basic hydraulic system will have the following components:

• Single Cylinder
• Pump
• Reservoir
• Relief valve
• 3-way directional control valve
• Connectors
• Lines

When the cylinder position returns using mechanical force, the control valve will be in neutral. This allows the fluid to flow through the valve and into the reservoir. When the valve shifts, the oil will travel to the piston side of the cylinder, making it move and causing the rod to extend.

If the valve is returned to neutral the oil will be trapped in the cylinder, which will stop it from moving. Pump flow then returns to the reservoir, and the valve shifts to the opposite direction causing the oil to travel back through and into the reservoir.

The system pressure can be pre-set, and the relief valve stops the pressure from exceeding this amount.

Hydraulic System Examples

The above description covers a fundamental hydraulic system. However, many different types are used in various industries, covering many applications.

Hydraulic Lifts

Hydraulic lifts are perfect for lifting and moving people or objects vertically. Mezzanine lifts and scissor lifts are two common examples, and hydraulic lifts are also used in shipping, construction, and waste removal.

Hydraulic Brakes

Braking systems in vehicles need to be very effective and reliable. Hydraulic brakes are an efficient way of providing braking force without the driver needing to apply too much pressure.

Hydraulic Steering

Hydraulic steering makes controlling vehicles easy and comfortable. The driver can steer with minimal effort, and the system absorbs some of the shocks that come from the road.

Hydraulic Jacks

Floor jacks and bottle jacks are ideal for lifting vehicles with ease. In addition, the hydraulic system can lift a vehicle off the ground without assistance.

Construction

A lot of equipment in the construction industry makes use of hydraulic systems. A typical example is hydraulic cranes, which can be fixed, or truck mounted.

Aircraft

Aircraft use hydraulic systems in several parts. This can include:

• Doors
• Brakes
• Landing gears
• Steering
• Wings

Hydraulic systems are perfect for aircraft as they are easy to maintain and work well in all conditions.

Reliable Hydraulic Systems

If you need a hydraulic crane, or any parts/maintenance, the team at Kor Pak has you covered. Click here to contact us today and find out how we can help you.

Machinery deaths average above 750 deaths a year. Brake shoes are an important part of the safety of many industrial machines, so you can do your part to help lower these statistics by learning about them.

Brake shoes are essential components in many mechanical pieces of equipment used in industrial services. Some of the industries they impact include automotive, agriculture, iron and steel, mining, and rail. In addition, they’re widely used in hoists in these industries and elevators throughout many other sectors.

These parts can wear down over time and should be replaced as soon as possible to ensure the proper working of the equipment. Read on to learn more about brake shoes and how they impact your industry.

What Is a Friction Material?

Brake friction material consists of composites of several different materials that exist as layers used to control the speed of the mechanism they are a part of. These can decelerate the mechanism or bring it to a complete stop. 

Brake pads and linings are usually a mix of 10 to 20 different kinds of raw materials. Choosing the right blend of materials for the suitable condition is complicated by many specialized individual machine needs.

The Blend of Friction Materials

Depending on the specific brake shoe and its usage, the blend of the raw materials can vary. The types of raw materials used can be divided into three types:

Stiffener

This material provides more intensity to the friction material. These can consist of inorganic and organic fibers such as metal and aramid fibers.

Bonding Agent 

The bonding agent hardens raw materials and provides the bonding capability to the materials used in the brake shoes. Usually, phenol resins are the bonding agents in brake shoes.

Friction Adjustment Material 

This material adjusts the friction materials used to make the brake shoes. This allows you to strengthen the stabilization and the effectiveness of the performance of the brake shoes. A mix of raw materials can include lubricants, organic and inorganic fillers, metal powder, and abrasive materials. 

Inspection of Brake Friction Materials

Testing the effectiveness of a brake shoe requires various methods to check the quality. This process includes evaluating the physical properties like the intensity and the hardness of the friction materials in the brakes.

You can also test the chemical composition of these materials to ensure that the brake is safe for operation in an industrial environment. Effectiveness tests also include testing the wear and tear of the brakes, the squeal, and other factors that may affect smooth operation. You can use a dynamometer device to test the brakes. 

Brake Shoes Vs. Brake Pads

Brake pads are flat steel pieces with a thick friction layer on one side. This friction material can vary depending on the type of equipment and the intended use. The main difference between brake shoes and brake pads is the direction of their force.

Brake shoes are the things that carry the brake lining inside the brake drum systems. These are curved pieces of metal with friction material on one side.

Finding a Brake Shoe Replacement

Brake shoes are a crucial part of an industrial machine, as they provide effective slowing and stopping of parts while also providing safety features for the workers operating them. So, having reliable brake shoes is crucial to have a smooth flowing operation.

If you’re looking for brake shoe replacement, feel free to look at our website for your products and if you have any questions regarding our products, feel free to contact us.