More Information About Machine Gibs

Introduction

Gibs are wedge-shaped pieces of metal or wood used to fill gaps between parts and maintain alignment. They are commonly used in machinery and mechanical applications to adjust the position of components, reduce friction, and improve the accuracy and precision of moving parts. For example, in machining, gibs are often used with guide rails to keep machine components, such as the carriage or cross slide, properly aligned and moving smoothly. In general, gibs are a simple and effective solution for fine-tuning the fit and function of mechanical components.

Cast Iron Gibs


Applications Using Gibs

Gibs are widely used in various applications in mechanical engineering and machining. Here are some common examples of where gibs are used:

  • Machine Tools
    • Machine tools, such as lathes, milling machines, and grinders, rely on precise movement of the cutting tool relative to the workpiece. Gibs are used in these applications to maintain the alignment of moving components, such as the carriage, cross slide, or spindle. This ensures the cutting tool moves smoothly and accurately, producing precise cuts and a high-quality finish.
  • Presses
    • Presses are used to stamp, punch, or bend metal components. The ram and die must be precisely aligned in these applications to ensure accurate and consistent performance. Gibs are used to maintain this alignment and prevent unwanted movement or vibration, resulting in high-quality parts with consistent dimensions.
  • Gears
    • Gears and gearboxes are used in many applications, from automotive transmissions to industrial machinery. Gibs are used in these applications to maintain proper alignment between the gears and prevent unwanted movement or vibration. This helps ensure smooth, efficient operation and extends the life of the gears.
  • Bearings
    • Bearings are used in many applications, from automotive engines to wind turbines. Gibs are used in these applications to adjust the clearance between the bearing and the shaft, ensuring proper fit and reducing friction. This helps extend the life of the bearing and improves the efficiency of the system.
  • Valves
    • Valves control the flow of fluids in many applications, from plumbing to industrial processes. Gibs may be used in these applications to maintain the alignment of the valve body and the internal components, ensuring proper sealing and operation. This helps prevent leaks and ensures consistent, reliable performance.
  • Robotics
    • Gibs are also used in robotics and automation applications, where precise positioning and movement of components are critical. They can help maintain the alignment of robotic arms, grippers, and other components, ensuring precise movement and accurate operation. This is essential for many manufacturing and assembly processes, as well as for research and development applications.

In summary, gibs are used in a wide range of applications where precise alignment and movement of components are critical. Gibs can help improve the accuracy, efficiency, and reliability of mechanical systems in many industries by providing a simple and effective means of adjusting the position of moving parts.

Advantages and Disadvantages of Gibs

Gibs are commonly used in various applications to fasten moving parts together and provide a secure and precise fit. While they offer many benefits, they also have some limitations when selecting a gib for a particular application. In this section, we will explore the advantages and disadvantages of gibs. Understanding these factors can help you decide when selecting a gib for your application.

Advantages

  • Improved Precision
    • Gibs provide a secure and precise fit between moving parts, reducing unwanted movement or play and improving precision and accuracy in machining or other applications.
  • Reduced Wear
    • Gibs provide a sacrificial surface between moving parts, reducing the wear on the more expensive and difficult-to-replace components.
  • Adjustable Fit
    • Many gibs are designed to be adjustable, allowing for fine-tuning of the fit between moving parts to ensure optimal performance.
  • Cost-Effective
    • Gibs are often more cost-effective than other bearing surfaces or sliding mechanisms, making them popular for many applications.

Disadvantages

  • Increased Friction
    • While gibs are designed to reduce wear between moving parts, they may also increase friction, leading to increased energy consumption, reduced efficiency, and increased heat generation.
  • Limited Load Capacity
    • Depending on the material and design of the gib, there may be limitations to the load capacity it can handle. Heavy loads or high-stress applications may require other bearing surfaces or sliding mechanisms.
  • Maintenance
    • Gibs require periodic maintenance to ensure that they remain in good condition and continue to perform as expected. This may include lubrication, adjustment, or replacement of worn or damaged components.
  • Material Limitations
    • The choice of material for a gib will depend on the specific application and operating conditions involved. While many materials are available for gib construction, some applications may require materials unsuitable for use in a gib.

The advantages and disadvantages of using a gib will depend on the application and the operating conditions. Factors to consider when selecting a gib include the the need for precision and adjustability, reduced wear and the solution’s cost-effectiveness.

How to Use Gibs to Fasten Parts Together

Gibs are a common fastener used to secure moving parts together and provide a precise fit. They are often used in machinery, presses, and other equipment to ensure accuracy and reduce wear. If you are working with equipment that requires a gib, it is important to understand how to install and adjust it for optimal performance properly. Below is a generic list of the steps taken to properly use gibs to fasten parts together. 

  1. 1. Identify the gap between the parts that need to be filled. This gap should be small enough to be filled with a wedge-shaped gib.
  2. 2. Select a gib that is the appropriate size and material for the parts you are fastening together. Metal gibs are typically used in industrial applications, while wooden gibs may be used for lighter-duty work.
  3. 3. Insert the gib into the gap between the parts. The gib’s wider end should be facing the direction of the force you are applying.
  4. 4. Apply pressure to the parts to compress the gib and fill the gap. This may be done using a hammer or other tool.
  5. 5. Test the parts to ensure that they are securely fastened together. If the parts are still loose, you may need to adjust the size or position of the gib.
  6. 6. Once you are satisfied that the parts are securely fastened together, you can finish the installation or assembly process.

Conclusion

In conclusion, gibs are an important type of fastener used in various applications to provide a secure and precise fit between moving parts. Their simple yet effective design allows for improved precision, reduced wear, and adjustability, making them a popular choice in many industries. However, as with any type of fastener, it is important to consider the advantages and disadvantages of using a gib in a particular application, including its impact on friction, load capacity, maintenance requirements, and material limitations. By carefully selecting and properly installing a gib, you can ensure that your equipment operates smoothly and accurately, improving efficiency and productivity.

More Information About Bolster & Slide Plates

This article aims to provide an in-depth understanding of bolster and slide plates, their uses, types, factors to consider when choosing them, and maintenance. By the end of this article, readers should clearly understand the importance of bolster and slide plates in machinery and how to choose and maintain them for optimal performance.

What Are Bolster and Slide Plates?

Bolster and slide plates are flat, sturdy plates used in machinery to support and guide the equipment’s moving parts. Bolster plates are usually located at the bottom of the machine, providing a base for the equipment’s mechanical components. On the other hand, slide plates are located on the machine’s moving components, providing a smooth, low-friction surface for the parts to slide on. Both bolster and slide plates are essential components in many machines, including stamping presses, injection molding machines, and die-casting machines.

While bolster and slide plates serve similar purposes in machinery, there are some key differences between the two. Bolster plates are generally thicker and larger than slide plates, as they must provide a stable foundation for the machine’s moving parts. On the other hand, slide plates are usually smaller and thinner, as they are meant to provide a smooth, low-friction surface for the equipment’s sliding components. Also, bolster plates are usually stationary, while slide plates move with the machine’s moving parts.

The Importance of Bolster and Slide Plates

Using bolster and slide plates is critical in ensuring machinery’s safe and efficient operation. These plates provide a stable foundation for the moving parts and sliding components, helping to prevent wear and tear on the equipment and reduce the risk of premature failure. In addition, by distributing loads evenly across the mechanical components, bolster and slide plates reduce stress and prevent deflection, improving the accuracy and precision of the equipment.

Using bolster and slide plates in machinery offers several advantages. Providing a stable and even foundation, these plates help improve the equipment’s accuracy and precision, resulting in higher-quality products and increased productivity. They also help to reduce downtime and maintenance costs, as well as extend the lifespan of the machinery. In hydraulic presses, bolster and slide plates can help prevent leaks and ensure that the pressing force is applied evenly, improving the safety and efficiency of the equipment. In press transfer systems, bolster and slide plates help to ensure that the stamped parts are transferred smoothly and efficiently, reducing the risk of errors and increasing productivity. Overall, bolster and slide plates are essential for ensuring the safe and efficient operation of various machinery applications.

How To Choose The Right Material For Your Bolster & Slide Plates

Bolster and slide plates are typically made from high-quality, durable materials that can withstand the heavy loads and high pressure common in machinery. The type of material used depends on the specific application and the requirements of the machine.

Aluminum is a popular material choice for bolster and slide plates because of its high strength-to-weight ratio, corrosion resistance, and easy machinability. As a result, aluminum plates are often used in applications where weight is a concern or in machines that require fast acceleration or deceleration, such as in high-speed stamping operations.

Cast iron is another commonly used material for bolster and slide plates. It has a good heat resistance and damping properties, making it well-suited for heavy-duty applications where vibration and shock absorption are important.

A36, 4140, and 1045 steel are also frequently used for bolster and slide plates. These materials are known for their strength, toughness, and abrasion resistance, making them ideal for applications that require high load capacity and durability.

Types of Bolster and Slide Plates

Bolster and slide plates come in various types, each with unique advantages and applications. Here are three common types:

Hydraulic Bolster & Slide Plates

Hydraulic bolster and slide plates are designed to work with hydraulic presses, providing a stable foundation for the tooling and ensuring that the pressing force is applied evenly across the workpiece. In addition, these plates typically have hydraulic cylinders or pistons that allow for precise adjustments, making them ideal for applications that require high accuracy and repeatability.

Hydraulic bolster and slide plates also have the advantage of generating high forces, making them suitable for applications that require a large pressing force. However, they can also be more expensive than other types of bolster and slide plates due to the added complexity of the hydraulic system.

Mechanical Bolster and Slide Plates

Mechanical bolster and slide plates use mechanical means, such as screws or levers, to adjust the height and level of the plate. These plates are typically less expensive than hydraulic or pneumatic ones, making them a popular choice for applications requiring a lower pressing force.

Mechanical bolster and slide plates are also relatively easy to install and maintain and can be adjusted quickly and easily. However, they may not be as precise as hydraulic or pneumatic plates and require more frequent adjustments.

Pneumatic Bolster and Slide Plates

Pneumatic bolster and slide plates use compressed air to adjust the height and level of the plate. Like hydraulic plates, they allow for precise adjustments and are suitable for applications that require high accuracy and repeatability. They are also less expensive than hydraulic plates, making them a popular choice for applications that require a moderate pressing force.

Pneumatic bolster and slide plates are also relatively easy to install and maintain and can be adjusted quickly and easily. However, hydraulic plates may be more precise than they are, and they may require more frequent adjustments.

Maintenance of Bolster and Slide Plates

Proper maintenance of bolster and slide plates is essential to ensure their continued functionality and longevity. Here are some key maintenance steps that should be taken:

  • Regular Inspection
    • Bolster and slide plates should be inspected regularly to ensure they are in good condition and working properly. This includes checking for any signs of wear or damage, such as cracks, warping, or deformation. Regular inspections can help identify potential problems early before they become more serious and costly.
  • Cleaning and Lubrication
    • Bolster and slide plates should be kept clean and well-lubricated to prevent corrosion and wear. Cleaning should be done using a mild detergent and water, followed by thorough drying to prevent rust or other damage. Lubrication should be done according to the manufacturer’s recommendations, using a suitable lubricant to reduce friction and prevent plate damage.
  • Replacement of Worn or Damaged Parts
    • If any parts of the bolster and slide plates are worn or damaged during inspection, they should be replaced promptly to prevent further damage or failure. Replacement parts should be made of the same high-quality materials as the original parts and installed according to the manufacturer’s instructions.

Proper maintenance of bolster and slide plates can help ensure they continue to function properly and safely while extending their lifespan and minimizing the need for costly repairs or replacements.

Types of Bolster and Slide Plates

Bolster and slide plates come in various types, each with unique advantages and applications. Here are three common types:

Hydraulic Bolster & Slide Plates

Hydraulic bolster and slide plates are designed to work with hydraulic presses, providing a stable foundation for the tooling and ensuring that the pressing force is applied evenly across the workpiece. In addition, these plates typically have hydraulic cylinders or pistons that allow for precise adjustments, making them ideal for applications that require high accuracy and repeatability.

Hydraulic bolster and slide plates also have the advantage of generating high forces, making them suitable for applications that require a large pressing force. However, they can also be more expensive than other types of bolster and slide plates due to the added complexity of the hydraulic system.

Mechanical Bolster and Slide Plates

Mechanical bolster and slide plates use mechanical means, such as screws or levers, to adjust the height and level of the plate. These plates are typically less expensive than hydraulic or pneumatic ones, making them a popular choice for applications requiring a lower pressing force.

Mechanical bolster and slide plates are also relatively easy to install and maintain and can be adjusted quickly and easily. However, they may not be as precise as hydraulic or pneumatic plates and require more frequent adjustments.

Pneumatic Bolster and Slide Plates

Pneumatic bolster and slide plates use compressed air to adjust the height and level of the plate. Like hydraulic plates, they allow for precise adjustments and are suitable for applications that require high accuracy and repeatability. They are also less expensive than hydraulic plates, making them a popular choice for applications that require a moderate pressing force.

Pneumatic bolster and slide plates are also relatively easy to install and maintain and can be adjusted quickly and easily. However, hydraulic plates may be more precise than they are, and they may require more frequent adjustments.

Applications of Bolster and Slide Plates

Bolster and slide plates are commonly used in a variety of machinery applications. Some examples of machinery that utilize these plates include:

  • Stamping Presses
    • Stamping presses use bolster and slide plates to support the dies and ensure that the stamped parts are produced accurately and consistently.
  • Hydraulic Presses
    • Hydraulic presses require bolster and slide plates to support the tooling and apply the pressing force evenly across the workpiece.
  • Hydraulic Stamping and Hydro-Forming Presses
    • These machines utilize bolster and slide plates to support the dies and ensure that the stamped or formed parts are produced accurately and consistently.
  • Press Transfer Systems
    • Press transfer systems use bolster and slide plates to support the dies and transfer the stamped parts between stations, ensuring the process is performed smoothly and efficiently.
  • Injection Molding Machines
    • Injection molding machines must use bolster and slide plates to support the mold and prevent deflection, ensuring that the molded parts are produced with the desired shape and quality.
  • Die Casting Machines
    • Die casting machines use bolster and slide plates to support the dies and ensure that the casting process is performed accurately and efficiently.

Conclusion

Bolster and slide plates play a critical role in the safe and efficient operation of machinery, particularly in presses and stamping operations. They provide the necessary support and stability for tooling and workpieces while protecting the machinery and operators from damage and injury.

The importance of bolster and slide plates in machinery must be noted. They provide stability and support for the machine’s moving parts, helping to ensure that the equipment operates safely and efficiently. 

DETCO is a leading manufacture of bolster plates and they are made from Aluminum, Cast Iron, A36, 4140, or 1045 steel. Our slide plates are also available in Rulon / Turcited.

For more information about our services please contact us today. 

Remembering Jerry

Remembering Jerry MadynskiIt is with a heavy heart that Detroit Edge Tool Company must say goodbye to one of our own and one of the greatest. Jerry was part of our family as an employee for 45 years and continued serving as a member of the board after his retirement in 2015. Jerry was a staple in the Scrap/Demolition as well as Machine Tool industries and will be dearly missed. A close friend, advisor, and mentor to all.

Obituary

Detroit Edge Tool Wins 2022 Best of Detroit Awards for Industrial Equipment

Detroit Edge has won the Best of Detroit Award 2022Detroit Edge has won the Best of Detroit Award for four consecutive years. Due to this distinction, Detroit Edge Tool Co has been qualified for the 2022 Detroit Business hall of fame Award.

The Detroit Award Program recognizes organizations that they believe have achieved extraordinary marketing performance in their local community and business area each year. The Detroit award program has created an exclusive hall of fame award 2022 that will be available for the only hall of fame entrants.

To determine the winners in each category, information from many sources was gathered and examined.

About the Detroit Award Program

The Detroit Award Program is an annual awards series that recognizes the efforts and achievements of local businesses in the Detroit area. Companies that have demonstrated the capacity to apply their best practices and established initiatives to achieve competitive advantages and long-term value are recognized.

The Detroit Award Program was created to celebrate the best of our community’s local companies. Our company only works with local business owners, trade groups, professional associations, and other business advertising and marketing organizations. Our objective is to honor the small business community’s contributions to the US economy.

View the official press release here.

About Detroit Edge Tool Co.

Detroit Edge Tool Company is one of Michigan state’s oldest enterprises and was founded in 1885. The Detroit, MI headquarters & production facility serves the machine tool, aerospace, steel mill, and automation industries mainly. The Roseville, Michigan facility is committed to providing metal cutting and machine knives to the steel, scrap, and demolition industries all over the world.

DETCO has endured the test of time by expanding into a world-class producer and industry leader in precise machine wear parts, all while upholding the values and devotion of a family-owned American manufacturing firm. DETCO is among a very small group of family businesses who have made their name in the manufacturing industries with their dedication to manufacturing good quality parts and selling them with extraordinary marketing strategies in the Detroit area:

  • Shear blades and kits
  • Steel and bronze liners
  • Machine ways
  • Guide rails
  • Gibs
  • Wear and bolster plates
  • Large fab machining

NDA & ISRI National 2022


We can’t possibly “mask” how excited we are to get together with you all once again at the upcoming NDA & ISRI National events! It’s nice to finally escape the isolation, and we’re ready to experience everything new and exciting the associations and our fellow members have to offer.


Hopefully we’ll see you running our blades on a mobile shear at the “Live Demo” event in San Diego next week at the #NationalDemolitionAssociation2022 or in Las Vegas in March for ISRI National #isri2022!

Stop by our booths:
NDA San Diego – Booth #816
ISRI Las Vegas – Booth #2044


When you buy shear blades, you depend on American Made quality… Detroit Edge controls blade quality from start to finish using American Produced Steel to Make an American quality blade. There are many blade distributors out there, and some not even American-Made. Detroit Edge produces OEM quality product by controlling manufacturing from start to finish using American Produced Steel to Make an American quality blade. Ask us about our PREMIUM 4% nickel long-lasting cutting blades.

JOIN OUR FAMILY!

Justin Vernick Shear Blade Product Manager
Justin Vernick
Shear Blade Product Manager
Dave Blount Midwest Sales Rep
Dave Blount
Midwest Sales Rep
Dave Fodor East Coast Sales Rep
Dave Fodor
East Coast Sales Rep
Pat Ebbing Sales Manager
Pat Ebbing
Sales Manager

Dave Fodor: East Coast Sales Rep – 234-719-8796 dave.fodor@detroitedge.com
Dave Blount: Midwest Sales Rep – 563-340-8849 dave.blount@detroitedge.com
Justin Vernick: West Coast Rep & Shear Blade Product Manager – 313-701-3289 justin@detroitedge.com
Patrick Ebbing: Sales Manager – 248-860-7457 patrick.ebbing@detroitedge.com

REACH OUT TODAY FOR THE LONGEST LASTING & BEST PRICED BLADES ON THE MARKET!
For more information check out our social media accounts.

Detroit Edge Tool Company Now Hiring!

Are you passionate about the innovative future of manufacturing advanced engineering components and willing to step into the world of opportunities? If your answer is yes and you are curious to understand the rewarding career prospects that the manufacturing industry holds, then what would be better than joining and learning from those who have been in the business for generations. Detroit Edge Tool Company is a Fifth Generation Detroit-Based family company. DETCO is a leading supplier of machine ways & rails, shear blades, surface grinding, large CNC machining, machine knives, flame hardening, wear plates & liners to industries globally, all while maintaining the values and commitment of a family-owned American manufacturing company.

While working alongside an experienced team who have been awarded three years in a row for the Best of Detroit Awards for Industrial Equipment, you will have the opportunity to learn and kickstart your career in skilled trades. This will be complemented with multiple other benefits such as:

Detroit Edge Manufacturing Day One

  • COMPETITIVE WAGES

  • QUARTERLY BONUSES

  • OVERTIME

  • FULL BENEFITS

  • 401K

  • PROFIT-SHARING

All that’s needed from you is your willingness to train and drive to learn so you can devlop skills in our trade; we don’t require you to have prior experience because we take pride in our team, which strives to work, learn, and grow together. The work is awarded with a handsome salary starting at $15/HR and up. Currently, we are hiring for the following openings:

Detroit Edge Manufacturing Day Two

      1. Machinists (Nights)

      2. Mill Hands (Nights)

      3. General Laborers

      4. Shipping/Receiving Clerks

      5. Grinders

Whether you are looking to start in your first job role or you are an experienced worker looking to advance your career, we understand that starting a new professional journey is always full of questions. We welcome the opportunity for you to come to talk to us and discuss what we have to offer!

We welcome your application, please contact and apply at (https://www.detroitedge.com/apply-today/)

Carla Heath:

313-366-4120

carla@detroitedge.com

December Shear Blade Discount

Kick-off the New Year Saving Money with Detroit Edge!

All first time customers receive 10% OFF full kit orders during the month of December. Current customers will receive 5% OFF(Exclusions may apply).

Contact us today to place your order! Offer ends 12/31/2020.

FOR THE LONGEST LASTING & BEST PRICED BLADES ON THE MARKET 
Call us today:  313-366-4120
Email us today: justin@detroitedge.com

When you buy shear blades, you depend on American Made quality…What you might not know, is that many blade suppliers out there are buying blades from overseas and re-selling them here in the states. Detroit Edge controls blade quality from start to finish using American Produced Steel to Make an American quality blade.
JOIN OUR FAMILY!

 

Maintenance and Sharpening of Machine Knives & Blades

Regular maintenance of machine knives and blades is crucial to ensure their optimal performance, longevity, and safety. Proper maintenance helps prevent dullness, wear, and damage, leading to poor cutting results, increased downtime, and potential safety hazards. By implementing a routine maintenance schedule, industries can maximize the lifespan of their blades and maintain consistent cutting performance.

Sharpening Techniques and Equipment

Sharpening is an essential aspect of maintaining machine knives and blades. Various techniques and equipment are available for sharpening, depending on the type of blade and its specific requirements. Some common sharpening methods and equipment include:

Grinding

Grinding is a widely used technique for sharpening blades. It involves using abrasive wheels or belts to remove material from the blade’s edge and restore its sharpness. Precision grinding machines are often employed to achieve accurate and consistent results.

Honing

Honing is a technique used for refining and polishing the cutting edge of a blade. It involves using abrasive stones or rods to smooth and align the blade’s edge, enhancing sharpness. Honing is particularly beneficial for maintaining the fine edge of blades used in precision cutting applications.

Sharpening Equipment

A sharpening jig is a device that holds the blade or tool in a fixed position, allowing the user to maintain a consistent angle while sharpening. It helps to stabilize the blade and provides a reference point for maintaining the desired bevel angle. On the other hand, a sharpening guide is a tool that attaches to the blade or tool and acts as a guide for the sharpening stone or abrasive surface. It helps the user maintain a consistent angle and provides a reference point for accurate sharpening.

The sharpening technique and equipment choice depends on the specific blade type, material, and individual sharpening preferences. The blade’s shape, angle, and bevel configuration determine the appropriate sharpening approach. The blade material influences the hardness and abrasion resistance, requiring tailored sharpening tools and techniques. Additionally, personal sharpening preferences, including desired sharpness levels and cutting styles, play a role in selecting the most suitable method and equipment. By considering these factors, individuals can customize their sharpening approach to achieve optimal results for their blades.

Proper Handling and Storage

Proper handling and storage of machine knives and blades are essential for maintaining their condition and extending their lifespan. Some important considerations include:

Safe Handling

Safe handling plays a crucial role in extending the lifespan of blades. By implementing safe handling practices the risk of accidents or mishandling that could lead to blade damage is minimized. For example, accidental drops, impacts, or improper storage can result in blade chipping, bending, or premature dulling. The likelihood of such incidents is reduced by following safe handling procedures, such as using gloves and safety glasses and properly training personnel. This, in turn, helps preserve the blades’ integrity and sharpness, ultimately extending their lifespan.

Cleaning

Regular cleaning of blades is important to remove debris, buildup, and contaminants that can affect cutting performance. It is advisable to follow manufacturer guidelines for cleaning procedures and use appropriate cleaning agents.

Storage

Blades should be stored in a clean and dry environment to prevent corrosion and damage. Proper storage racks, sheaths, or cases should be used to protect the blades from physical impact and ensure they are kept in a safe and organized manner.

By implementing proper maintenance practices, utilizing suitable sharpening techniques and equipment, and ensuring proper handling and storage, industries can effectively prolong the life and performance of their machine knives and blades, resulting in improved productivity and cost-effectiveness.

For more in-depth information on Machine Knives & Blades, read our additional blog articles about Safety Considerations, Industry Applications, and Emerging Trends & Innovations. DETCO remains the premier and oldest shear blade manufacturer in the United States and utilizes the finest quality tool steel for metal and textile cutting applications for a wide range of industries. For more information about our services or to request a quote, please contact us today.

Industry Applications of Machine Knives & Blades

Steel Mill (Hot and Cold Cutting)

Machine knives and blades find extensive applications in steel mills, both in hot and cold cutting processes. Hot cutting involves slicing steel products at high temperatures, such as producing steel beams or sections. Blades used in hot cutting processes are designed to withstand extreme heat and maintain their cutting performance. On the other hand, cold cutting involves cutting steel products at room temperature, such as in shearing or slitting operations. Blades used in cold-cutting processes are typically made from high-speed steel or carbide to provide high hardness and wear resistance.

Fabrication Shop

Machine knives and blades are essential tools in fabrication shops where various metalworking processes occur. They are used in shearing machines, plasma cutters, and other cutting equipment to shape and trim metal sheets, plates, or structural components. Blades for fabrication shop applications are designed to provide clean and precise cuts, enabling fabricators to achieve accurate dimensions and smooth edges in their metalwork projects.

Hydraulic & Stationary Press

Hydraulic and stationary presses rely on machine knives and blades for cutting and shearing operations. These machines are used in the automotive, aerospace, and manufacturing industries. Blades in hydraulic and stationary presses are employed for cutting various materials, including metals, plastics, rubber, and composites. The blades are designed to provide high cutting force and durability, ensuring efficient and accurate cutting operations.

Textile, Paper, Plastic, & Synthetics

Machine knives and blades are vital in the textile, paper, plastic, and synthetic industries. In the textile industry, blades are used for cutting fabrics, threads, and textiles during garment production, upholstery, and other textile applications. In the paper industry, blades are utilized in paper-cutting machines for precise trimming, slitting, or perforating paper products. Blades in the plastic and synthetic industries are employed for cutting plastic films, sheets, or molded parts. These blades are designed to handle the specific properties of the materials, providing clean and accurate cuts.

Medical

Machine knives and blades have critical applications in the medical industry. They are used in surgical instruments, medical devices, and laboratory equipment. Blades in medical applications require exceptional precision and sharpness to ensure accurate incisions, tissue dissection, and sample preparation. They are made from high-quality stainless steel or specialty alloys due to their corrosion resistance, biocompatibility, strength, durability, ease of sterilization, and ease of fabrication, and are subject to stringent quality control to meet the exacting requirements of the medical field.

Food Processing

Machine knives and blades are widely used in food processing for cutting, slicing, and portioning various food products. They are used in meat, bakery operations, vegetable and fruit processing, and more. Blades in food processing applications must meet strict hygiene standards and resist corrosion. They are designed to deliver precise cuts while minimizing product damage and maintaining food safety.

For more in-depth information on Machine Knives & Blades, read our additional blog articles about Maintenance and Sharpening, Safety Considerations, and Emerging Trends & Innovations.

DETCO remains the premier and oldest shear blade manufacturer in the United States and utilizes the finest quality tool steel for metal and textile cutting applications for a wide range of industries. For more information about our services or to request a quote, please contact us today.

Emerging Trends & Innovations of Machine Knives & Blades

New Materials and Coatings

The advancement of materials and coatings is a significant trend in machine knives and blades. Manufacturers constantly explore new materials with enhanced properties to improve cutting performance and durability. For example, advanced carbide materials, such as nano-carbides and cermet alloys, offer superior hardness and wear resistance. Additionally, developing specialized coatings, such as diamond-like carbon (DLC) or low-friction coatings, further enhances blade performance by reducing friction, improving cutting efficiency, and extending blade life.

Automation and Machine Learning Integration

Automation and machine learning technologies are being integrated into machine knives and blades, revolutionizing cutting processes. Automated systems can optimize blade performance, adjust cutting parameters in real time, and detect and correct issues automatically. Machine learning algorithms analyze cutting data to identify patterns, optimize cutting strategies, and predict blade maintenance requirements. This integration enhances productivity, accuracy, and efficiency while reducing human error and manual intervention.

Customization and Precision Advancements

There is an increasing demand for customized machine knives and blades that meet specific application requirements. Manufacturers are investing in precision advancements to provide tailored solutions. Computer numerical control (CNC) machining and laser cutting technologies enable the production of intricate blade geometries with high precision. Customized blade profiles, edge geometries, and cutting angles can be designed to optimize cutting performance for specific materials or applications. This level of customization enhances cutting efficiency, reduces waste, and improves overall productivity.

For more in-depth information on Machine Knives & Blades, read our additional blog articles about Maintenance and Sharpening, Safety Considerations, and Industry Applications. DETCO remains the premier and oldest shear blade manufacturer in the United States and utilizes the finest quality tool steel for metal and textile cutting applications for a wide range of industries. For more information about our services or to request a quote, please contact us today.

Safety Considerations of Machine Knives & Blades

New Materials and Coatings

Safety should be a top priority when working with machine Prerknives and blades. These tools have sharp cutting edges and pose significant risks if handled improperly. Therefore, it is crucial to prioritize safety to prevent accidents, injuries, and potential hazards in the workplace. By following safety guidelines and implementing proper procedures, industries can ensure the well-being of their workers and maintain a safe working environment.

Personal Protective Equipment (PPE) Requirements

Appropriate personal protective equipment (PPE) is vital when working with machine knives and blades. The following PPE should be considered:

Safety Gloves

Cut-resistant gloves protect hands from potential cuts or injuries during handling, sharpening, or blade replacement. The gloves should have the appropriate level of cut resistance based on the blade’s cutting capabilities and the material being processed.

Safety Glasses or Face Shields

Eye and face protection are crucial to shield against flying debris, splashes, or accidental contact with the blades. Safety glasses or face shields should be worn to protect the eyes and face from potential injuries.

Protective Clothing

Depending on the specific cutting operation, protective clothing such as aprons or sleeves may be necessary to protect the body from accidental cuts or abrasions.

Safe Handling and Operation Practices

To ensure safety when working with machine knives and blades, the following practices should be observed:

Proper Training

Workers should receive adequate training on safely handling, operating, and maintaining machine knives and blades. They should be familiar with the specific procedures and precautions associated with the equipment they are working with.

Secure Blade Mounting

Blades should be securely mounted in the appropriate machine or tool to prevent slippage or movement during cutting operations. Loose or improperly installed blades can result in accidents and injuries.

Avoiding Contact

Operators should avoid placing their hands or any body part near the blade’s cutting edge during operation. Adequate guarding should be in place to prevent accidental contact.

Lockout/Tagout Procedures

When performing maintenance, blade replacement, or cleaning, proper lockout/tagout procedures should be followed. Lockout/tagout procedures are safety protocols that protect workers from hazardous energy sources during maintenance, repair, or servicing activities on machinery or equipment. These procedures ensure that machinery or equipment is properly shut down, de-energized, and locked or tagged out to prevent accidental startup or release of stored energy that could cause harm to personnel.

When performing maintenance, blade replacement, or cleaning, proper lockout/tagout procedures should be followed to ensure the machine is de-energized and cannot be accidentally started.

Proper Disposal of Used or Damaged Blades

Used or damaged blades should be disposed of safely to prevent injuries and environmental hazards. Blades should be properly stored and labeled for disposal. Depending on local regulations, they may need to be collected separately for recycling or disposed of as sharps waste, which is any waste that contains or has come into contact with sharp objects. It is important to follow local regulations and guidelines to safely and properly dispose of used or damaged blades.

For more in-depth information on Machine Knives & Blades, read our additional blog articles about Maintenance and Sharpening, Industry Applications, and Emerging Trends & Innovations.DETCO remains the premier and oldest shear blade manufacturer in the United States and utilizes the finest quality tool steel for metal and textile cutting applications for a wide range of industries. For more information about our services or to request a quote, please contact us today.

Detroit Edge has You Covered

Detroit Edge Tool Warehouse CollageHundreds of blades are in stock and ready for immediate delivery.  From full mobile attachment kits to stationary shears and balers, we have you covered.   Premium grade High-Nickel alloy blades on select shear models are also on the shelf and ready to move. Call us today!  313-366-4120.

Pat Ebbing – Sales Manager Pat Ebbing – Sales Manager
Justin Vernick – Shear Blade Product Manager Justin Vernick – Shear Blade Product Manager
Dave Blount – Midwest Sales Representative Dave Blount – Midwest Sales Representative

Detroit Edge Tool Co Receives 2021 Best of Detroit Award

2021 Best of Detroit Awards - Industrial Equipment

Detroit Edge Tool Co has been selected three years in a row for the Best of Detroit Awards for Industrial Equipment and now qualifies for the 2021 Detroit Business Hall of Fame.

https://detroit.2021-community-choice.com/PressReleaseub.aspx?cc=DMN-GX9A-JFLL

For details and more information please view our website:
2021 Best of Detroit Awards – Industrial Equipment https://detroit.2021-community-choice.com/skk5cpb5_DETROIT-EDGE-TOOL-CO

If you are unable to view the link above, please copy and paste the following into your web browser:


http://detroit.2021-Community-Choice.com/skk5cpb5_DETROIT-EDGE-TOOL-CO

Detroit Edge Tool Co Receives 2020 Best of Detroit Award

Detroit Award Program Honors the AchievementDetroit Award Program Honors the Achievement

DETROIT June 30, 2020 — Detroit Edge Tool Co has been selected for the 2020 Best of Detroit Award in the Industrial Equipment category by the Detroit Award Program.

Each year, the Detroit Award Program identifies companies that we believe have achieved exceptional marketing success in their local community and business category. These are local companies that enhance the positive image of small business through service to their customers and our community. These exceptional companies help make the Detroit area a great place to live, work and play.

Various sources of information were gathered and analyzed to choose the winners in each category. The 2020 Detroit Award Program focuses on quality, not quantity. Winners are determined based on the information gathered both internally by the Detroit Award Program and data provided by third parties.

About Detroit Award Program

The Detroit Award Program is an annual awards program honoring the achievements and accomplishments of local businesses throughout the Detroit area. Recognition is given to those companies that have shown the ability to use their best practices and implemented programs to generate competitive advantages and long-term value.

The Detroit Award Program was established to recognize the best of local businesses in our community. Our organization works exclusively with local business owners, trade groups, professional associations and other business advertising and marketing groups. Our mission is to recognize the small business community’s contributions to the U.S. economy.

Detroit Edge Saves You Money During Tough Times

While you protect your health, let us protect your wealth

We’re all in this together and to prove it, we are offering 10% off mobile shear attachment kits until it’s safe to get together again. (10% off all orders for mobile shear kits placed within 30 days. Restrictions may apply.)

Email justin@detroitedge.com to claim your 10% off discount

Labounty Mobile Shear

 

When you buy shear blades, you depend on American Made quality…What you might not know, is that many blade suppliers out there are buying blades from overseas and re-selling them here in the states. Detroit Edge controls blade quality from start to finish using American Produced Steel to Make an American quality blade.

 JOIN OUR FAMILY!

Improving the Life of Your Shear

An interview with Stanley Labounty’s Field Service Manager Brian Hawn

We are frequently asked, “What can be done to maximize the life of a shear blade kit?” Well, we went straight to Brian Hawn, Field Service Manager with Stanley Labounty for a refresher course in shear blade maintenance.

https://youtu.be/uO11Jx3F-Mk

 

Meet the Blade Manufacturers

Meet the Blade ManufacturersDetroit Edge Tool – Shear Blades MADE right here in the United States Made in the USA

When you buy shear blades, you depend on American Made quality…What you might not know, is that many blade suppliers out there are buying blades from overseas and re-selling them here in the states. Detroit Edge controls blade quality from start to finish using American Produced Steel to Make an American quality blade.

 

 

Meet your Detroit Edge Manufacturing Team led by:

Al Winters - General Manager
Al Winters – General Manager
Eric Crosby - Shop Supervisor
Eric Crosby – Shop Supervisor
Mike Bonfield - Lead Grinder
Mike Bonfield – Lead Grinder
Terry Carlson - Senior CNC Machinist
Terry Carlson – Senior CNC Machinist

Anyone can sell ’em, but not everyone can make ’em.

For Best Pricing and In-Stock Inventory Please contact:

Justin Vernick - Shear Blade Product Manager
Justin Vernick – Shear Blade Product Manager
Dave Blount - Midwest Sales Representative
Dave Blount – Midwest Sales Representative
Pat Ebbing - Sales Manager
Pat Ebbing – Sales Manager
Ray Ebbing - President & CEO
Ray Ebbing – President & CEO

Best of Detroit 2019

Best of Detroit 2019DETROIT June 30, 2019 — Detroit Edge Tool Co has been selected for the 2019 Best of Detroit Award in the Industrial Equipment category by the Detroit Award Program.

Each year, the Detroit Award Program identifies companies that we believe have achieved exceptional marketing success in their local community and business category. These are local companies that enhance the positive image of small business through service to their customers and our community. These exceptional companies help make the Detroit area a great place to live, work and play.

Various sources of information were gathered and analyzed to choose the winners in each category. The 2019 Detroit Award Program focuses on quality, not quantity. Winners are determined based on the information gathered both internally by the Detroit Award Program and data provided by third parties.

About Detroit Award Program

The Detroit Award Program is an annual awards program honoring the achievements and accomplishments of local businesses throughout the Detroit area. Recognition is given to those companies that have shown the ability to use their best practices and implemented programs to generate competitive advantages and long-term value.

The Detroit Award Program was established to recognize the best of local businesses in our community. Our organization works exclusively with local business owners, trade groups, professional associations and other business advertising and marketing groups. Our mission is to recognize the small business community’s contributions to the U.S. economy.

Recycling Today Advertorial

http://magazine.recyclingtoday.com/article/april-2020/detroit-edge-tool-investing-in-relationships-and-innovation.aspx

Detroit Edge Tool Sales Manager Patrick Ebbing, who is part of the fifth generation of the Ebbing family involved in the company, says, “Our sales and management staff has over 100 years of experience in the scrap recycling industry. We’ve been able to see how the blade industry has changed over all those generations, which gives us a leg up on the competition. Also, since family business dominates the scrap recycling industry, we can often relate better with those companies who expect exceptional service.”

“Our heat treating process combined with our proprietary alloy material is trusted and has become industry standard.” – Ray Ebbing

The company manufactures all of its blades in Roseville, Michigan. “We do not buy them from overseas and we stand behind our product 100 percent,” says Company President Ray Ebbing, Patrick’s father. Over the years it has developed metallurgical processes to ensure its blades exceed customer expectations. “Our heat treating process combined with our proprietary alloy material is trusted and has become industry standard for many of the largest OEM’s and end users alike,” adds Ray.

Despite being founded in 1885 (and having been under the stewardship of the Ebbing family since the 1920s), and investing heavily in the shear blade sector since the 1990s, the company is in no way resting on past accomplishments. “We are constantly trying to innovate in order to reduce costs to our customers,” says company vice president John Ebbing, Ray’s brother. “We’ve invested in 10 state-of-the-art new CNC machines and six new surface grinders,” he adds.

Detroit Edge Tool’s long-time relationships are more than a feel-good story—they also provide vital market intelligence. “Our sales staff is in the field every week working closely with the operators and maintenance folks to provide hands on support and answer any questions,” says Ray.

Those conversations help lead to new ideas and commitments to invest in bringing them to life. Says Pete Ebbing, Ray’s father and a board director, “Ownership is committed to continually reinvesting in the business in order stay ahead of competition and be the industry leader in the shear blade business.”

Detroit Edge Tool’s industry connections and commitment have it poised to remain a shear blade market leader in the generations to follow.