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  1. The Advantages and Process of Forming Deep-Drawn Aluminum Parts

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    Aluminum’s properties grant it many advantages that differentiate it from other metals. Aluminum is versatile, sustainable, and recyclable, and it’s only about one third of the weight of steel.

    Deep-drawn aluminum parts are becoming more and more popular among manufacturers and customers alike. Some benefits associated with deep-drawn aluminum include:

    • The ability to be used in a wide range of applications
    • High impact and rust resistance
    • An exceptional strength-to-weight ratio

    These properties have made it a popular choice for applications in the aerospace, automotive, and medical industries, to name just a few.

    Advantages

    Deep-drawn aluminum part manufacturing can provide customers with a wide variety of advantages. The following are some key benefits that come with this process:

    • Some aerospace products can only function within certain weight tolerances. Because aluminum offers a high strength-to-weight ratio, it’s an ideal alternative to steel in such cases.
    • Outer-body automotive panels are always at risk of becoming dented from impacts and collisions. Deep-drawn aluminum’s high level of dent resistance means that it takes more force to dent aluminum panels than those formed from other metals.
    • Aluminum is fully recyclable, meaning that even when an application has reached the end of its service life, the raw material does not have to go to waste.
    • Aluminum’s natural corrosion resistance means that it doesn’t have to undergo extensive, regular treatment, and it can withstand a lot of environmental wear on its own.
    • Aluminum is known to be an electrical and thermal conductor of the highest order.
    • Deep-drawn aluminum parts are very cost-effective, and they can be adapted to work well for both low- and high-volume production runs.

    The Process of Forming Deep-Drawn Aluminum Parts

    Aluminum stamping compresses aluminum into specified shapes and forms. Deep drawing offers many advantages over aluminum stretching because aluminum is a highly inelastic material. The deep-drawn aluminum forming process is made up of several steps.

    At the start of the deep drawing process, an aluminum part is pulled, or drawn, into a stamping machine’s die cavity. The cavity depth equals or exceeds the minimum part width. The operator must ensure that an acceptable draw ratio is in play, since metal in compression tends to resist flow. Subsequently, the deep drawing process employs radial tension-tangential compression to form the metal into the desired shape.

    This process turns flat sheet metal, also known as “blanks,” into hollow cylindrical or box-shaped enclosures with straight or tapered sides. End products can also be in the form of a combination of tapered, curved, and straight sides.

    A series of dies redraws the enclosure and gradually reduces its diameter while increasing its length. While these operations are in effect, the part’s wall thickness undergoes minimal change.

    Since deep drawing is a cold working process, one side effect of these operations is a hardening of the aluminum material, which makes it tougher and more durable. Additionally, the grain structure of the aluminum undergoes changes as the blank forms and stretches into its final shape. This also boosts the aluminum’s strength capabilities.

    A Leader in Deep-Drawn Aluminum Manufacturing

    Deep-drawn aluminum part forming offers a number of key advantages for end application usage. This process can supply customers with durable, high-quality, and cost-effective parts to meet their business needs.

    Hudson Technologies is a leading manufacturer of deep-drawn aluminum components. We take great care to ensure that our parts meet precise customer specifications and are delivered within reasonable lead times. If you would like to learn more about our deep-drawn aluminum manufacturing capabilities, contact us to request a free quote.

  2. The Two Main Types of Solid Center Metal Diaphragms and How They’re Different

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    Metal diaphragms are specially engineered components that fulfill several critical roles across many industries. Generally nothing more than thin, circular plates, diaphragms help regulate pressure levels in complex machinery systems.

    What renders these plates so critical to countless processes is their ability to change their shapes as needed. Diaphragms undergo elastic deformation when subjected to axial loading or pressure, and this allows them to play many different roles.

    Typical roles of solid metal diaphragms include:

    • Regulating pressure
    • Converting movement into measurable communication with equipment
    • Creating a physical barrier between opposing forces involving gas and liquid
    • Acting as a membrane while fluids are pumped
    • Serving as predictable failure points to protect equipment from the risk of overpressure
    • Cycling for millions of strokes
    • Providing reliable performance in corrosive environments and extreme temperatures

    Metal diaphragms exist in two main forms: high-sensitivity low-pressure (HSLP) diaphragms and low-sensitivity high-pressure (LSHP) diaphragms. Understanding the differences between the two is crucial to finding the best fit for your applications.

    High-Sensitivity Low-Pressure Diaphragms

    HSLP diaphragms appear in applications that require the diaphragm to move a significant amount without necessitating a sizable application of pressure. These devices most frequently help with pressure sensor isolation, especially in the food processing and pharmaceutical industries.

    Both these industries use HSLP diaphragms to protect fluids from contamination through the use of pressure sensors. These sensors are activated by excess pressure within the system, allowing machinery to automatically channel fluids when the pressure reaches a certain threshold. In food processing and pharmaceutical applications, HSLP sensors allow fluids to advance to the next stage of processing only when they have reached the desired volumes, helping operators precisely control the mixing and processing of various substances.

    Many other industries requiring ultra-pure process fluids also take advantage of pressure sensors, and therefore rely on HSLP diaphragms. Some other common applications of these systems include:

    Low-Sensitivity High-Pressure Diaphragms

    LSHP diaphragms best suit applications that require the diaphragm to remain in place even under high pressure. Although they appear less frequently than HSLP diaphragms, they play just as important roles in regulating pressure in fluid-based systems.

    LSHP diaphragms especially aid in converting movement into computer-readable communications. They can be calibrated to only open at precise pressures, allowing operators to take accurate measurements throughout their use.

    They’re also often implemented as gas–liquid barriers and failure points because they can operate as a last line of defense against overpressure and machine failure. Their abilities to perform well in extreme conditions also make them beneficial to medical device manufacturers, who use LSHP diaphragms to regulate pressure-based equipment.

    Low-Pressure High-Value Procurement From Hudson Technologies

    At Hudson Technologies, we design a wide range of HSLP and LSHP diaphragms for many applications. We build customizable diaphragms from materials including:

    • Stainless Steel
    • Hastelloy
    • Haynes
    • Inconel
    • Monel
    • Titanium

    We design all products to Hudson Standard Tolerances.

    If you would like to learn more about what Hudson Technologies can bring to the table, contact us today.

     

  3. Farley’s Top Five Things to Know for Deep Draw Metal Stamping

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    The deep draw process itself begins once a flat piece of metal – referred to as a blank or a disc – is placed over a cavity known as a die. A punch pushes the metal through the die to form it into the specific shape required by the design. Deep drawn metal stamping has a wide range of applications across myriad industries, so an understanding of how the process works can benefit many different types of industrial stakeholders.

    Top Five Things to Know for Deep Draw Metal Stamping

    Deep drawn metal stamping – or simply deep drawing – requires a specific skillset and experience to accomplish correctly. Our resident expert Farley Fitzpatrick, compiled the following five tips for deep draw metal stamping.

    1. Cold Metal Drawing

    Cold metal drawing processes will provide you with a greater peace of mind. Cold processes are able to provide finished products with a greater accuracy. Cold metal drawing also offers better grain structures and surface finishes in the final product. While more expensive, cold drawing results in a blanket, overall improvement of the metal’s properties when compared to other methods.

    1. Corner Radii

    To determine the smallest corner radius that you can obtain, there’s a general rule you can follow: The smallest attainable corner radius is equal to the material thickness times two. Working additional draw operations into your process can help you skirt this rule a little if you need to further reduce corner radii. For many designs, larger corner radii may be considered desirable. These may also reduce the amount of draws necessary.

    1. Draft

    A small amount of draft is absolutely necessary to the drawing process. The draft allows the case to be stripped off of the punch after draw operations are completed. This makes for a container that’s smaller on one side and larger on the other—the closed end inside will be smaller and the open end inside will be larger. Our standard draft is 0.001″ (0.025mm) per inch of length.

    1. Work Hardening

    Cold working of the metal during the deep draw process (also known as work hardening) must be relaxed through a heat treat process. This second process is known as annealing. It’s an intermediate step that takes place during the forming and case reduction sequence.

    1. Ironing

    Specifically designed tooling can intentionally thin out (or iron) the sidewalls beyond the material’s natural tendencies. This method will only be used to address particular requirements and occurs on a project-by-project basis. This process can add greater dimensional stability to the case while also making it more aesthetically pleasing.

    The deep drawing process is crucial to the fabrication of items that many of us use every day, such as pots and pans, automobile parts, and containers. Since deep drawing plays such a central role in getting so many objects made, it’s key for those involved in the process to understand it thoroughly.

    For more information about Hudson’s deep draw metal stamping capabilities, please contact us or request a quote.

  4. How Custom Metal Stamping Benefits the Medical Field

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    Good medical devices must satisfy three categories: they achieve tight tolerances, healthcare professionals can easily use them, and they help the patient heal. High-quality equipment and tooling ensure high-quality end parts for medical applications ranging from device pumps and motors to pacemakers, defibrillators, and surgical equipment.

    Hudson Technologies provides industry-leading custom metal stamping for a wide range of medical applications. Founded in 1940, we perform precision metal stamping using state-of-the-art equipment, creating high-tolerance parts in large production volumes.

    Applications in the Medical Industry

    Hudson creates a number of products for the medical industry. A couple of our most notable offerings include:

    Device Enclosures

    All permanently implanted medical devices, including pacemakers, cochlear devices, internal defibrillators, and drug pumps, are manufactured from titanium. Titanium is the only metal that the human body will not reject. Hudson has a long history of deep-drawing titanium into intricate shapes and has been manufacturing implantable titanium medical components since the early 1970s.

    Implantable Components

    Implantable components include the outer shield of the device, battery cases, and other components. By designing and building custom tooling, Hudson uses their metal stamping to affordably and quickly manufacture components for a variety of purposes. 

    Benefits of Metal Stamping Over Other Metal Fabrication Processes

    Metal stamping comes with a host of benefits that set it above other metal fabrication processes. Manufacturers can easily automate the metal stamping process, making it a great method for mass producing parts. These mass production capabilities also make it more cost effective for large-volume orders—after paying the initial setup costs, each individual product over a certain volume does not contribute that much to your overhead. Furthermore, it’s much easier to repeat processes and duplicate components with stamping than with other fabrication techniques.

    The Hudson Difference

    We design all our tooling in-house to optimize the production process. Our highly trained staff operates over 130 forming presses around the clock, working with mechanical and hydraulic presses ranging from 1 to 500 tons. We also use a servo press with a CNC lower cushion for special orders.

    We draw our designs with reliability and manufacturability in mind, aiming to achieve the most affordable solutions through collaborative relationships with our customers. We also offer extensive modification capabilities, which allows for greater component customization. We perform in-house heat treatment as well as hydrogen and vacuum annealing to minimize lead times and optimize quality control.

    To find out how our custom precision stamping services will benefit your next project, contact us today.

  5. How Our Partners Help Us Grow

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    Over the years, Hudson Technologies has established itself as a leading supplier of metal shaping services for clients across the U.S. We provide top-quality engineering services and technical support for all kinds of metal fabrication needs, whether we’re deep-draw forming aluminum alloys for aerospace manufacturers or we’re stamping titanium parts for medical devices.

    We’ve worked with many partners in industries and applications as varied as:

    • Aerospace
    • Semiconductor manufacturing
    • Irrigation
    • Active and implantable medical device manufacturing

    We’re Growing Quickly

    Hudson recently partnered with Thomas For Industry to develop a new website suitable for the needs of 2019. Our new site will provide a comprehensive overview of all our products and services, and we also aim to make it a resource for industry professionals seeking new insights in the metalworking field. With Thomas, we hope to continue building our reputation as industry-leading experts of metal stamping services in the United States.

    We’re also expanding our employment options as the economy continues to grow. Over the last few years, we’ve increased the size of our team by over 30% to keep up with demand. With all the new faces around our company, we’re excited to further develop our family of highly experienced metal stampers.

    We’re generating new leads every day, with customers around the world drawing on our expertise for their metal fabrication needs. With our updated website and the expanded production capacity enabled by our new team members, we’ve broken sales records and have signed new clients worth in excess of  $1.5 million.

    A Future of Success at Hudson Technologies

    We’re looking forward to continue growing as 2019 progresses. Hudson has expanded exponentially since its founding, and we’re excited to see where we’ll go next.

    If you and your organization are seeking innovative metal stamping or hydraulic pressing solutions, don’t hesitate to contact us and request a free quote today.


  6. Battery Enclosures for Military Applications

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    Batteries form critical components of many active weapon systems in military and defense projects. Because batteries contain toxic substances and must be kept in working condition, defense contractors are turning to battery enclosures as a crucial means to preserve the health of their systems. Keeping the batteries enclosed and protected ensures optimal performance, reliability, and safety. 

    Why You Need Battery Enclosures

    A faulty battery could jeopardize an entire mission. Military industry products often experience harsh conditions including extreme temperatures, intense vibration, ultraviolet radiation, and high G-forces.

    Proper enclosures keep batteries safe and hermetically sealed. They protect against outside threats like sand grit or chemical attacks, reducing battery wear and prolonging system lifespan. Battery enclosures also help with temperature control both outside and inside larger mechanical systems that feature varying internal conditions.

    Proper enclosures also protect the battery from high G-forces involved in flight operations or sudden stops. Vibration, which could cause some pieces of the battery to come loose or stop functioning, can also be mitigated with the proper enclosure. Every defense application places a high premium on mission success, meaning that manufacturers should take as many steps as possible to reduce the risk of battery failure.

    Key Benefits of Hudson’s Deep-Drawn Battery Enclosures

    Hudson makes most of its battery enclosures using deep-drawn stamping. This highly customizable process allows users to design enclosures ranging from .25 inches in diameter to very large parts suitable for automotive or aerospace applications. Because of deep-drawn stamping’s adaptability, we can make battery enclosures to nearly any specification.

    Whether the battery housing operates on the ground or in the air, Hudson’s innovative processes ensure that your equipment will operate efficiently and effectively. We can tailor our batteries to any battery management system that needs to be included in or near the battery housing.

    Our manufacturing processes also use zero chlorinated lubricants and zero solvents, ensuring that all parts maintain their cleanliness without wearing away any seals or other critical details. We also use no hazardous materials in designing our products.

    Assured Defense with Hudson Technologies

    Proper battery enclosures will result in having systems that function well under every circumstance. Our battery enclosures will ensure that your military applications are up and running whether you’re in sub-zero conditions or high-temperature environments.

    Hudson Technologies is AS9100 Rev-D Certified, ITAR Registered, and DFARS Compliant

    To find out more about the Hudson’s capabilities, contact us today.

  7. A New Generation of Pickup Covers

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    Lace Music Productions, a division of Actodyne General, Inc., was founded in 1979 by Don Lace, Sr.  Don had extensive experience in high intensity lighting, speakers, and magnetics, and an early focus of Don’s was designing and manufacturing solenoids.  Coil winding was at the heart of his business.

    In 1967 his path crossed with Fender Musical Instruments, where he was exposed to the fascinating world of the music industry.  After starting Actodyne General, Don found out that Fender was experiencing a high rejection rate during the production of traditional style guitar pick-ups that were made at the time.  Eager to become more involved in the music industry, Lace began to develop a new guitar pickup that would have a lower rejection rate during production. Lace used one of his existing solenoid patents that was in part a transducer, and partially an open-and-closed device called a shock generator.

    Lace applied the new concept to an old beat up Sears guitar that he bought at a garage sale. He plucked the string and it worked.

    By the late 1980’s, Lace had perfected a single rectangular-shaped sensor that fit under the strings. Lace presented this technology to Seth Lover (inventor of the original humbucking pick-up), who was working with Fender at the time. The goals were simple:

    1. Reduce the rejection rate
    2. Increase fidelity
    3. Reduce outside hum.

    Lover knew that Lace was really onto something.  Fender began to use the new technology and feature the Lace design guitar pick-ups on their own products. Known as Fender-Lace Sensors, these electric guitar pick-ups were originally made for the Fender Strat Plus guitar, which won numerous awards. Today they can be found on many other Fender guitars and are available in Gold, Silver, Blue, or Red series as either single or dually models that function as a double-coiled humbucker.

    Hudson Technologies and the Lace Brothers

    Sadly, Don Lace, Sr. passed away on October 11, 1992, leaving a strong impact on the music industry. To this day, his two sons, Don and Jeff carry on his tradition of solving complex problems and developing solutions for the equipment used in everyday music. By creating cutting-edge products that capture the sound and soul of classic vintage originals, the Lace Music team continues to lead the music industry by creating innovative products for guitar, bass, and many acoustic stringed instruments.

    The relationship between Hudson Technologies and the two brothers is very interesting.  When they were young, their father would order parts from Hudson (Hudson Tool & Die at that time) using the printed catalog.  In some of the older Hudson catalogs, pictures were created of “cityscapes” using Hudson cans as buildings.  Some examples of these may be found here:

    Don and Jeff used to cut these pages out of the catalog and play with them, driving matchbox cars through the can cities. As they got older and joined the family business, they mimicked some of Hudson’s can city pictures and made their own version of cityscapes using their own Actodyne General coil products as the buildings.

    Lace Music and Hudson’s paths crossed again in 2016 in a very interesting way. John Marfiak, Hudson’s Director of Sales, was walking the huge NAMM (National Association of Musical Merchandisers) Show in Anaheim, California. He was looking for companies for which Hudson could provide covers for their guitar pickups or humbuckers.  John Marfiak met Don Lace at the Lace Music booth and business cards were exchanged.

    “When Don saw my card, his eyes lit up,” said Marfiak.  “He said to me: ‘You’re Hudson Tool & Die!’  He told me about the fun he had playing with our catalog pages as a youngster.”

    After several meetings with the Lace brothers, orders were placed for a new generation of pickup covers. Don redesigned the covers to have thicker brass walls and to emboss the words “Lace Sensors” onto the part. The redesign and ordering process went smoothly, and before long the first shipment of the new parts arrived at the Lace facility in Cypress, California.

    The Lace brothers were very pleased with their new parts and shared a picture of the newly opened box on Lace’s Facebook page for their followers to get an early look at the new product. Lace Sensors continues to improve their product offerings and stay at the cutting edge of the music industry.

    Lace Music recently got into a new market segment: making pick-ups for cigar box guitars. Cigar box guitars have a huge following and Lace has the first pick-up in the industry that was specifically designed for a cigar box guitar. This pick-up looks like a matchbook and fits perfectly on a cigar box guitar.

    The Lace / Hudson story goes back a long time, and hopefully this partnership will continue for many more years. To discover more about their products, visit Lace Music. Also check out Hudson Technologies to learn more about our fabrication services and how we can support your design.

  8. Industries Driving Metal Stamping Growth

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    It’s a good time to be a customer in the market for precision metal stamping services. As the utilization of sheet metal in automotive and consumer electronic applications has climbed, the industry has ramped up significantly, both in the United States and abroad.

    Not only have we seen an increase in metal stamping overall, but its use in advanced applications such as pressure sensors and other complex instrumentation is also trending positively.

    Below, you’ll find some of the most high-demand industries where metal stamping is currently being used to meet the needs of a variety of applications. 

    Aerospace and Defense
    The popularity of metal stamping in the aerospace, defense, and military industry has skyrocketed. Metal stamped parts are used widely in a range of equipment and munitions. For example, the Joint Direct Attack Munition (JDAM) guidance kit for unguided bombs incorporates multiple metal stamped parts. The energy storage cases, tail fin guidance packages, and inertial guidance systems of these kits all rely on precision metal stamped parts.

    Oil and Gas
    Another area trending positively for metal stamping is the oil and gas industry — one of the main drivers of the global economy. Sheet metal is used to stamp precise components for oil platforms and piping, including brackets, washers, handles, and critical sealing components – enabling them to withstand harsh conditions and deliver oil and related products to refineries or other destinations.

    Automotive
    The recent low fuel costs and favorable interest rates for drivers, as well as the push to use non-ferrous metals for lighter weight vehicles, have helped to drive growth in the automotive industry, including the use of metal stamping for auto components. The types of parts commonly produced for this industry include corrosion resistant bolts, crane hooks, gears, connecting rods, turbine shafts, terminal wire forms for sensors, and fuel injection shields for engines.

    Learn More

    Hudson Technologies offers a comprehensive range of metal fabrication capabilities, including custom metal stamping for all of the industries mentioned above, and many more.

    In addition to our production capabilities, our experienced team supports customers with design assistance, a number of secondary finishing processes, and quality management services.

    To learn more about how we can help you get started on your next metal stamping project, contact Hudson Technologies today.

  9. Platarg Transfer Press Announcement

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    Hudson Technologies – a leader in deep drawn metal enclosures, stampings, and cases for the past 75 years – recently invested in a Platarg Transfer Press as part of our continuing efforts to provide our customers with the latest in state-of-the-art technology and solutions.

    Options for Deep-Drawing at Hudson

    To shape a deep-drawn part in a press, the process requires multiple forming procedures. Occasionally, deep-drawn parts necessitate annealing, a process that involves heating and quenching, to render materials more malleable. The process encourages the hardening of the metal, and, in some cases, can be excluded if a multi-operation, automated type of press is being used.

    Hudson now offers three possibilities for deep-drawing as part of our standard service offering. To discover which option is best for your design or application, please contact our team.

    Option #1: Single Stage Press Forming

    Single stage press forming allows one part to be manufactured, then relocated to a different press to undergo further formations. Materials may need to be annealed, heated and cooled, several times to complete parts made in this manner.

    Option #2: Progressive Die Press

    Progressive die stamping forms a process across several phases, with each station conducting a different metal forming step on the part until it is completed. Once the part is finished, it is cut from the metal strip.

    Option #3: Platarg Transfer Press

    Both progressive die presses and transfer presses transform a flat metal to a completed part over the course of a series of metal forming operations within the same press. However, transfer presses separate the part from the strip of metal in the first process, then automatically transfer the part to the next sequential step until the final part is completed. Because of its speed and efficiency, our transfer press is well-suited for higher volume orders.

    Platarg Transfer Press

    The largest transfer press at Hudson, the Platarg economically manufactures greater quantities of parts at a higher speed. With 13 ten-ton stations, this mechanical press possesses the ability to generate parts up to 4.125 inches deep with a diameter of up to 1.625 inches. This revolutionary machine allows Hudson to offer even more capacity and faster, more efficient production runs for our customers.

    Hudson Technologies, the foremost U.S. manufacturer of deep drawn metal products, is dedicated to presenting our clients with the best opportunities available. To learn more about our Platarg Transfer Press, download our transfer press eBook today.

  10. The ROI of Preventative Maintenance

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    Preventative maintenance consists of any regular maintenance performed on an active piece of equipment. By following a consistent maintenance strategy, a company can catch potential problems with its machinery before they arise, preventing equipment failure from happening.

    In the long run, preventative maintenance extends the working life of equipment and reduces maintenance costs, making it a valuable investment in and of itself. In fact, preventative maintenance can have a ROI as high as 545%. The sheer savings it can create make preventative maintenance a necessary component of any business’ operations.

    Benefits of Preventative Maintenance

    Although preventative maintenance can be costly, its benefits far outweigh its costs. Its many advantages include:

    • Decreased downtime and reduced repair costs
    • Increased life expectancy of equipment
    • A lower risk of unplanned maintenance
    • Improved equipment efficiency and quality
    • Enhanced corporate reputation

    Costs of Unplanned Maintenance

    The costs of unplanned maintenance can be quite high. Without a preventative maintenance plan in place, the likelihood of unplanned maintenance only increases. Should equipment break down, it will likely result in unexpected downtime and significant production losses. It will also force your staff to spend valuable time responding to emergencies and diagnosing the causes of equipment failures. In addition, any replacement parts  might need to be shipped express from the supplier to your location, creating further expenses for your company.

    Things to Consider when Calculating ROI for PM

    Any company preparing to calculate the ROI for their preventative maintenance strategies needs to consider the following:

    • Equipment cost
    • Repair costs
    • Replacement costs
    • Impact of preventative maintenance on the equipment’s expected life cycle
    • Impact of preventative maintenance on the equipment’s energy usage
    • Frequency of repairs for poorly-maintained equipment

    After considering the above factors, you can determine whether preventative maintenance would be beneficial or not to your organization.

    Quality Assurance at Hudson

    At Hudson Technologies, we follow a rigorous quality assurance program to ensure that all products manufactured in our facilities are free from defects. Critical components of our quality program include:

    • OGP SmartScope dimensional measurement systems with tactile, optical, and laser functions that ensure optimal part performance and safety.
    • Statistical Process Control (SPC) for close monitoring of all manufacturing processes.
    • Continual improvement training for our team of Six Sigma-certified professionals.
    • A commitment to continuous process improvement throughout the company.
    • Advanced Product Quality Planning framework for parts validation and development.
    • Calibration maintenance and tracking software for all of our parts supplied by either Hudson Technologies or our partners.
    • Up to 20 different visual inspection systems, including various state-of-the-art microscopes.

    Preventative maintenance is crucial to the successful operation of equipment and assets. Although there are significant costs involved, it eventually leads to lower maintenance costs and longer equipment life cycles, making it a necessary strategy for any company. At Hudson Technologies, we work to simplify your maintenance strategies by subjecting all of our products to a strict quality assurance program. If you’d like to learn more about our quality assurance strategies, contact us today.

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