Tag Archive: Formulated cleaners

  1. IPC is DuBois – European Market

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    New year, more solutions! DuBois Chemicals acquired International Products Corporation (IPC) in July 2021. DuBois’ European operations in the Netherlands began managing the supply of IPC products and services for Europe in February 2022.

    IPC’s line of specialty chemical products, including cleaners and assembly lubricants, allows DuBois to expand their chemistry and process knowledge capabilities with new robust solutions in the European market.

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  2. Gas & Diesel ASTM

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    P-80® Lubricants possess the unique property of being temporary rubber assembly lubricants. After assembly, the water dries, and the part is left securely in place. Due to the lubricating oils in our lubricants, a tiny amount of residue may remain on the parts. Sometimes, the question of how these residues may impact automotive fuels is brought up. So we had our industrial lubricant residues independently tested for compatibility with both gasoline and diesel fuels to give our automotive customers confidence and peace of mind when using P-80 Lubricants.

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  3. An Easy Guide to Understanding How Surfactants Work

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    What is a Surfactant?

    Surfactants are a primary component of cleaning detergents. The word surfactant means surface active agent. As the name implies, surfactants stir up activity on the surface you are cleaning to help trap dirt and remove it from the surface.

    Surfactants have a hydrophobic (water-hating) tail and a hydrophilic (water-loving) head. The hydrophobic tail of each surfactant surrounds soils. The hydrophilic head is surrounded by water.

    How do surfactants work?

    When there are a sufficient amount of surfactant molecules present in a solution they combine together to form structures called micelles. As the micelle forms, the surfactant heads position themselves so they are exposed to water, while the tails are grouped together in the center of the structure protected from water.

    The micelles work as a unit to remove soils.  The hydrophobic tails are attracted to soils and surround them, while the hydrophilic heads pull the surrounded soils off the surface and into the cleaning solution.  Then the micelles reform with the tails suspending the soil in the center of the structure.

    Types of Surfactants

    The hydrophilic head of each surfactant is electrically charged. The charge can be negative, positive, or neutral. Depending on the charge of the hydrophilic head, the surfactant is classified as anionic, nonionic, cationic or amphoteric.

    Anionic Surfactants

    Anionic surfactants have a negative charge on their hydrophilic end. The negative charge helps the surfactant molecules lift and suspend soils in micelles. Because they are able to attack a broad range of soils, anionic surfactants are used frequently in soaps and detergents. Anionic surfactants create a lot of foam when mixed. While anionic surfactants are excellent for lifting and suspending particulate soils, they are not as good at emulsifying oily soils.

    Sulfates, sulfonates, and gluconates are examples of anionic surfactants.

    Nonionic Surfactants   

    Nonionic surfactants are neutral, they do not have any charge on their hydrophilic end. Nonionic surfactants are very good at emulsifying oils and are better than anionic surfactants at removing organic soils. The two are frequently used together to create dual-action, multi-purpose cleaners that can not only lift and suspend particulate soils, but also emulsify oily soils.

    Certain nonionic surfactants can be non-foaming or low-foaming. This makes them a good choice as an ingredient in low-foaming detergents.

    Nonionic surfactants have a unique property called a cloud point. The cloud point is the temperature at which the nonionic surfactant begins to separate from the cleaning solution, called phase separation. When this occurs, the cleaning solution becomes cloudy. This is considered the temperature for optimal detergency. For low foaming cleaners, optimal detergency is at the cloud point; for foaming cleaners optimal detergency is either just below the cloud point or at the start of the cloud point. The agitation of low foaming cleaners is sufficient to prevent phase separation.

    The temperature of the cloud point depends upon the ratio of the hydrophobic and hydrophilic portions of the nonionic surfactant. Some cloud points are at room temperature while others are very high. Some nonionic surfactants don’t have a cloud point because they have a very high ratio of hydrophilic to hydrophobic moieties.

    Examples of some common nonionic surfactants include cocamide, ethoxylates, and alkoxylates.

    Cationic Surfactants

    Cationic surfactants have a positive charge on their hydrophilic end. The positive charge makes them useful in anti-static products, like fabric softeners. Cationic surfactants can also serve as antimicrobial agents, so they are often used in disinfectants.

    Cationic surfactants cannot be used with anionic surfactants. If positively charged cationic surfactants are mixed with negatively charged anionic surfactants, they will fall out of solution and no longer be effective. Cationic and nonionic surfactants, however, are compatible.

    Examples of some common cationic surfactants include alkyl ammonium chlorides.

    Amphoteric Surfactants

    Amphoteric surfactants have a dual charge on their hydrophilic end, both positive and negative. The dual charges cancel each other out creating a net charge of zero, referred to as zwitterionic. The pH of any given solution will determine how the amphoteric surfactants react. In acidic solutions, the amphoteric surfactants become positively charged and behave similarly to cationic surfactants. In alkaline solutions, they develop a negative charge, similar to anionic surfactants.

    Amphoteric surfactants are often used in personal care products such as shampoos and cosmetics. Examples of some frequently used amphoteric surfactants are betaines and amino oxides.

    How Surfactants are used in Cleaners

    Surfactants are a key ingredient in cleaning products. One thing that differentiates cleaning products is how they are made. Cleaners made from a single chemical, targeting a specific type of soil, are referred to as commodity cleaners. Cleaners that are blends of various chemical ingredients designed to work together to remove various types of soils are referred to as formulated cleaners.

    Formulated cleaners usually contain four basic elements: surfactants, hydrotropes, builders and carriers. Hydrotropes are chemicals that keep the otherwise incompatible surfactants and builders stable in a solution. The carrier is either water or a solvent. These elements work together to create mechanical actions to remove soils. The end result is a product that can attack dirt on surfaces with a variety of cleaning mechanisms including emulsifying, lifting, dispersing, sequestering, suspending and decomposing soils of various types. The type of surfactants used in a cleaning product largely determines which soils they will be best at removing.

    IPC offers a full line of formulated cleaners that among the safest yet most effective solutions on the market. Request a free sample to test our products for your most challenging cleaning applications.

  4. Selecting the Right Ultrasonic Cleaning Detergent for Regulated Industries

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    Regulated industries use ultrasonic cleaning for pharmaceutical equipment, medical devices, surgical equipment, labware, optical instruments, and dental equipment because it is highly effective at removing soil and debris before sterilization, especially on intricate or hard-to-reach parts. A detergent must be used in conjunction with ultrasonic cleaning in order to effectively remove most soils. A multipurpose cleaner is ideal because of its versatility.

    3 Things to Consider When Selecting the Right Detergent for Your Ultrasonic Cleaner

    1. What are the Soils?

    Understanding which soils you need to remove will guide you in choosing the right detergent. Micro-90®  is an alkaline cleaner that is designed to work well on a broad spectrum of soils. It is extremely effective for removing oil, grease, wax, tar, flux, particulates, and biological debris.

    2. What are the Substrates?

    Choose a cleaner that is compatible with the surface you are cleaning. Micro-90 is a safe for use on most metals, elastomers, plastics, ceramics, and glass surfaces. Samples are available for compatibility testing.

    3. Safety and Environmental Impact

    Most commercial critical cleaners are effective in removing dirt, but many are also corrosive, harmful if inhaled, and environmentally hazardous. Safer cleaning detergents will be free of phosphates, solvents, silicates, phenols, and substances of very high concern.

    View this video to see the effectiveness of Micro-90 in ultrasonic cleaning.

    Using Micro-90 in Ultrasonic Cleaning

    Micro-90 is a multipurpose, alkaline concentrate that provides superior performance in ultrasonic cleaning. The ingredients in Micro-90 penetrate tough oils and greasy films, allowing the soil to become suspended in the solution without the risk of redepositing. These properties make Micro-90 just as effective as corrosive cleaners without the health or environmental risks. Micro-90 does not contain solvents, phosphates, or heavy metals. In fact, Micro-90 removes hard metals in water that would otherwise detract from the detergency of the solution.

    The ingredients in Micro-90 were chosen for easy validation in an FDA process. Reports can be provided upon request. It is also NSF registered as a USDA-A1 Cleaner. Micro-90 can be used in concentrations as low as 0.5% up to 5%, and concentration can be easily determined by conductivity. Micro-90 has a high cloud point, making it easy to see when parts are clean. When properly rinsed, Micro-90 leaves no residue.

    Try Micro-90 in your ultrasonic cleaning unit. Request your free sample!

  5. International Products Corporation And The US Department Of Commerce Strategize For International Sales Growth

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    International Products Corporation (IPC) helps businesses worldwide ease assembly operations and keep facilities and equipment clean.

    Who is IPC?

    IPC is a specialty chemical company that manufactures safe, water-based, temporary rubber assembly lubricants and precision cleaners.

    P-80® temporary rubber assembly lubricants are designed to decrease the installation force needed to assemble rubber parts, improving worker safety and plant productivity.

    IPC’s full line of precision cleaning products includes biodegradable, alkaline, acidic, neutral, and enzymatic products used in a broad range of industries and applications.

    Key industries for both product lines include automotive, aerospace, appliance, pharmaceutical, food & beverage, medical device, pump, laboratory, manufacturing, membrane cleaning and wastewater.

    Where Is IPC?

    IPC’s head office and ISO: 9001 manufacturing facility are located in Burlington, NJ. All of IPC’s products are made in the USA.

    In 1984, IPC opened a subsidiary in the United Kingdom to serve the European market.

    Additionally, IPC has a network of foreign distributors to accommodate customers in many parts of the world.

    So yes, international isn’t just a part of our name…IPC is truly an international company.

    US Department Of Commerce Assists IPC For Further Global Growth

    IPC is one of more than 100 American businesses traveling to India as part of the U.S. Department of Commerce’s largest annual trade mission program, Trade Winds.

    This year’s Trade Winds’ focus is the Indo-Pacific region. The mission encourages U.S. based businesses to explore opportunities and develop strong business ties to India and other countries throughout the region.

    Trade Winds Indo-Pacific features a three-day business forum in New Delhi, India with optional trade mission stops in Ahmedabad, Chennai, Kolkata, Mumbai, Bengaluru, Hyderabad, Bangladesh and Sri Lanka. At each mission stop, attending companies will meet directly with government leaders, market experts, and pre-vetted potential business partners.

    IPC’s President, Kathy Wyrofsky, is “looking forward to connecting with prospects and customers with the support and assistance of the Trade Specialists at Tradewinds 2019”.  While IPC already has a presence in the region, Kathy is excited about joining this mission to create additional longstanding relationships with partners and companies in the region.

    What is Tradewinds?

    Trade Winds is the largest annual US Department of Commerce led trade mission. Since 2008, Trade Winds has delivered tangible bottom-line results in demanding markets all over the world. Now in its 11th year, Trade Winds has directly supported more than $3.4 billion in U.S. exports in over 40 countries. To date, Trade Winds has helped U.S. businesses conduct over 4,000 pre-vetted business-to-business meetings and over 6,000 government-to-business meetings around the world.

    Contact our product specialists to learn how IPC’s P-80 Temporary Rubber Assembly Lubricants and Specialty Cleaners can benefit your manufacturing facility. Whether you’re located right in our backyard or on another continent, IPC can help!

  6. What Is The Shelf Life Of My Cleaner? (And, Why It Matters)

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    Remember that bottle of cleaner that’s been in your cabinet for years? How do you know if it’s still effective and safe to use? These things are good forever, right?

    Absolutely not! Chemical products do indeed have a shelf life. Paying attention to expiration dates helps ensure you are using products at their peak performance levels for optimal results.

    What Is Shelf Life?

    The shelf life of a product is defined as the “length of time that a commodity may be stored without becoming unfit for use, consumption, or sale.” (https://en.m.wikipedia.org/wiki/Shelf_life). It’s important to note that manufacturers determine the shelf life of a product based upon expectations of normal use and storage. Failure to follow recommended guidelines can limit the expected shelf life of any product.

    How Is Shelf Life Determined?

    While each product and each manufacturer is unique, shelf life is generally determined by assessing product stability under normal conditions over an extended period of time. Are the active ingredients still effective or have they deteriorated? Chemical composition and anticipated environmental factors both have a role in determining a product’s shelf life.

    Product quality can be assessed by determining the concentration of key ingredients. Once the active ingredients of a product begin to degrade, product strength may be diminished.

    Environmental factors include temperature, moisture and exposure to air. External contaminants or stresses can also affect product quality.

    What Is The Shelf Life of My Cleaner?

    Use this reference guide to see the shelf life of IPC’s cleaners:

    Is This Information On the Product Container?

    All of IPC’s products are stamped with a six-digit lot number that signifies the date of manufacture (YY/MM/DD). For example, a lot number of 190301 signifies that the product was manufactured on March 1, 2019.  The product expiration date is stamped directly below the lot number.

    How Does IPC Calculate Shelf Life?

    The shelf life of IPC’s products is determined by observation and testing. Part of the manufacturing process includes retaining a sample of each lot number produced for quality control.

    To determine the shelf life of its cleaners, IPC tests for changes in pH, specific gravity and detergency.

    What Other Factors Affect Shelf Life?

    The manner in which products are handled by the end user may also influence shelf life. It’s always a good idea to follow the manufacturer’s recommendations for use, storage and handling. Follow these steps to maintain product quality and get the most out of your cleaner:

    • Store at recommended temperatures
    • Properly close containers between use – do not leave bottles uncapped
    • Do not mix with other chemicals
    • Use clean tools to avoid introducing contaminants
    • Follow manufacturer’s instructions for use

    What Happens If I Use My Cleaner After The Expiration Date?

    Using products beyond their expected expiration date is not recommended. The detergency of your cleaner may have diminished, which can have an impact on your cleaning application. If you have questions about whether or not it’s okay to use your product, contact the manufacturer for assistance.

    Have questions about cleaners? Want a free sample for testing? IPC can help!

  7. Why Micro-90® is A Lab Tech’s Best Friend

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    What Is One Of A Lab Tech’s Biggest Challenges?

    Cleaning lab equipment, of course! Everyone knows that labware must be properly cleaned, but what’s the best way to achieve that goal? And, why is cleaning so important?

    Why Clean Lab Equipment?

    Regular cleaning is one of the easiest ways to keep your equipment functioning properly. Apparatus that is not thoroughly cleaned can yield inaccurate and inconsistent results. Trace ingredients from previous use must be removed to avoid cross-contamination and to ensure that all future test results are error-free.

    Proper maintenance of labware and apparatus helps to ensure that your equipment is working correctly and your lab is functioning efficiently. Analyzers, centrifuges, microscopes, pipettes, beakers, slides and flasks all need to be kept clean to provide accurate readings. Failure to properly maintain lab equipment can have a direct impact on test results.

    How To Set Up A Cleaning Regimen?  

    Since regular cleaning is one of the easiest ways to keep your equipment functioning properly, it’s important to establish a cleaning procedure and stick to it. The exterior surfaces of all equipment should be wiped down on a daily basis, after each use. A complete cleaning should be performed at least once a week.

    Consider these factors when setting up your cleaning process: 

    Download IPC’s 7-Step Guide to the Proper Use of Critical Cleaners for help in setting up your cleaning regimen.

    Selecting the right cleaner for your lab equipment is extremely important. There are many different kinds of products available, so it’s important to consider all of the above factors when making your decision.

    Micro-90…The Lab Tech’s Best Friend

    Many labs rely on Micro-90 for manual and ultrasonic cleaning of glassware and equipment. Micro-90 is a mild, yet powerful, multipurpose, alkaline cleaning concentrate that is excellent for removing a vast array of soils from flasks, pipettes, slides, stainless steel, plastic, glass, and other laboratory equipment and surfaces. Micro-90 contains ionic and non-ionic ingredients which combine to produce a variety of cleaning actions. Micro-90 lifts, disperses, emulsifies, sequesters, suspends, and decomposes soils, then rinses away leaving the surface absolutely clean. When properly rinsed, Micro-90 does not leave any residue.

    Why Lab Tech’s Love Micro-90:

    • Effective on a wide range of soils

    • Compatible with most hard surfaces
    • Manufactured in a dedicated system
    • Filtered to 1 Micron
    • Can be used for manual, CIP, and ultrasonic cleaning applications
    • Free rinsing, does not leave residue or product build-up
    • Cleaning validation methods are available
    • Safe, environmentally friendly formula
    • Economical, concentrated formula that is easy to dilute
    • NSF registered as USDA-A1 Cleaner
    Still not convinced? Request a free sample for testing and try Micro-90 for your most challenging lab cleaning applications!
  8. Best of 2018: IPC’s Top 5 Posts of the Year

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    As 2018 draws to a close, it’s time to take a look back at all that has happened over the past twelve months. This has been a very productive year for International Products Corporation and we look forward to continued growth during 2019.

    We have embarked on a building renovation project and are expanding our warehouse to better serve our customers. Recently, we installed a new manufacturing filling line that provides for more efficient and quicker operations.

    Throughout the year we exhibited at various trade shows and visited many of our customers and distributors worldwide.

    Our on-site laboratory has worked on various customer driven research projects and continues to ensure the quality of our products.

    Our employees banded together during the holiday season making donations to local causes to help those in need.

    Our popular blog continues to attract new followers and provide our customer base with informative and helpful product and industry insights.

    As the year comes to an end, we want to thank all of our loyal followers and customers for helping to make 2018 a great year.

    Below are our 5 most popular blog posts of 2018:

    1. How do I Choose the Best Detergent for My Cleaning Application?

    It’s easy to see that you have a dirty surface that needs to be cleaned. Figuring out what type of cleaner to use can be tricky! Choosing the right product from the outset will make your cleaning task easier, quicker and more efficient. So, how do you know which detergent to use?…

    2. Everything You Need To Know For Easy O-ring Installation

    The O-ring…the little part that plays a big role! “What are the parts of a car?” Most people will answer with “engine, thermostat, radiator, water pump, battery, alternator, ignition, steering wheel, tires, windows, doors, and seat belts”. Not too many people will mention O-rings…

    3. Save Time And Money With Preventative Maintenance

    We’ve all been there. Any of these scenarios ring a bell? A long road trip and your car won’t start. You’re hosting Thanksgiving dinner and your oven isn’t working. Or, it’s the worst heat wave of the summer and your air conditioning unit dies. Regardless of the scenario, we can all agree that malfunctioning equipment is extremely aggravating. If only there were a way to prevent these things from happening!…

    4. Reclaiming Water To Maintain Future Economic Growth

    How do you provide a consistent, high quality supply of water when you have a large volume ethanol distiller located in your backyard? The city of Fargo, ND came up with the perfect solution: reclaim water through the municipal wastewater treatment plant!…

    5. 10 Things To Know When Choosing An Assembly Lubricant

    A lubricant is a material that reduces the friction between two surfaces making it easier for them to move across each other. Lubricity measures the reduction of friction that results from using a lubricant. A higher percentage of lubricity indicates a greater reduction of force….

    Did we miss your favorite post from 2018? Please let us know! We have more great content coming your way in 2019. Be sure to subscribe to the IPC blog to read the latest and greatest from the IPC team.

    Happy New Year and Best Wishes for a wonderful 2019 from everyone at IPC!

  9. Ergonomics: A Winning Formula For Improved Quality, Safety And Production

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    International Products Corporation (IPC) recently upgraded their manufacturing facility with the installation of a 20-liter liquid filling line that not only provides for a quicker, more efficient manufacturing process but also provides ergonomic benefits for workers. The new station was engineered, manufactured and installed by Inline Filling Systems.

    our 20-liter liquid filling line

    The new equipment has designated product capabilities and is used to fill 20-liter (5-gallon) sized containers of the company’s lubricants and cleaners.

    Features of the new equipment include:

    • Increased Output
    • Increased Fill Accuracy
    • Increased Worker Safety
      • Assisted lift devices
      • Automatic speed adjustments
      • Automatic case erector

    Ergonomic Improvements Are A Win-Win

    Ergonomics Reduces Injuries

    Worker injuries are frequently the result of repetitive movements and strain caused by moving heavy objects. Lifting, pushing and pulling heavy loads can all cause undue strain leading to injury. Ergonomic lifting equipment helps to eliminate the strain caused in these instances. The assisted lift device on IPC’s new fill line bears almost the entire weight of the heavy bottles.

    Ergonomics Improves Quality

    If line workers are in pain, tired or frustrated, the quality of their work may suffer. By installing ergonomic lifting equipment, the strain and repetitive motion of lifting are removed and workers can more easily focus on the task at hand. In addition to providing ergonomic benefits, IPC’s new filling line provides increased automation which reduces the likelihood of human error.

    Ergonomics Increases Productivity

    With ergonomic improvements in place, jobs can be completed with less strain and fewer motions leading to a quicker, more efficient production process. Adding to the ergonomic benefits, IPC’s new filling equipment has the capacity to fill three to four times the number of bottles as the equipment previously used.

    Ergonomic improvements in the workplace are beneficial to companies and their employees. Improvements in quality, production and employee well being all contribute to reduced costs and a safer work environment. A win-win for everyone!

     

  10. Reclaiming Water To Maintain Future Economic Growth

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    The Challenge

    How do you provide a consistent, high quality supply of water when you have a large volume ethanol distiller located in your backyard? The city of Fargo, ND came up with the perfect solution: reclaim water through the municipal wastewater treatment plant!

    The History

    The wastewater treatment plant in Fargo, North Dakota has an auxiliary effluent re-use facility constructed specifically to produce reverse osmosis quality water destined for ethanol production. A local corn to ethanol distiller, Tharaldson Ethanol, requires approximately 1,000,000 gallons (3.8 million liters) of reverse osmosis water per day above the wastewater treatment plant’s normal processing volumes. Fargo’s wastewater control systems manager, Jeff Hoff, manages the effluent re-use facility to ensure this additional volume is met on a daily basis.

    The Problem

    A key component of the effluent re-use facility is the ultra-filtration process, which uses 0.4μ polyvinylidene difluoride (PVDF) membranes with an upper pH limit of 10.0. These membranes are fouled primarily with petroleum sulfonates and bacterial secretions. Particularly in cold weather, the upstream BOD step has frequent “upsets,” where the bacteria die and secrete a water soluble foulant that adheres strongly to the PVDF polymer and significantly increases the trans-membrane pressure (TMP). These “upsets” must be resolved quickly to ensure a plentiful supply of pure water.

    The Test

    In order to determine the optimal cleaning regimen to resolve these upsets, Jeff systematically evaluated the performance of twenty different cleaners and hundreds of different combinations and concentrations, including commonly used commodities and many formulated membrane cleaners.

    The Solution

    Jeff discovered that Micro-90®, a formulated cleaner from International Products Corporation (IPC), stood out because it performed better than all of the commodities and other formulated membrane cleaners, particularly on the bacterial secretions. What Jeff found most impressive is that this formulated cleaner worked effectively without the use of phosphates, silicates, and strong alkalis, at a membrane compatible pH of only 9.5, and at a 0.3 percent concentration.

    The Product

    Micro-90® is a mild, yet powerful, multipurpose, alkaline cleaning concentrate that is used for membrane cleaning as well as in laboratories, industrial applications, and critical cleaning processes. A unique chelating detergent, Micro-90® contains anionic and non-ionic ingredients which combine to produce a variety of cleaning actions. Micro-90® is compatible with UF, RO, Ceramic and NF Systems.

    The Long-Term Success

    This same formulation has been in use at Fargo’s effluent re-use facility since October 2010. Some of the original PVDF membranes are still used and continue to see significant TMP drops after cleaning. Although the bacterial upsets cannot be prevented, their fouling can be resolved in a predictable manner with the use of this formulated product.

    The engineers at the facility recognize that using Micro-90® for regularly scheduled preventative maintenance and cleaning of the membranes proves to be an effective, safe, and economical method of keeping the plant running efficiently and the water flowing continually. Based on its effectiveness, safe profile, compatibility and economical cost per use, they have recommended Micro-90® to design engineers at similar effluent re-use facilities.

    Read more about cleaning filter membranes here:
    How To Choose the Proper Membrane Cleaner
    Make Your Membranes Last…A Simple 10 Step Guide

Detergent Selection Guide

= Used ; = Preferred
SOILS Micro-90® Micro® Green Clean Micro® A07 Surface-Cleanse/930® LF2100® Zymit® Low-Foam Zymit® Pro
Adhesives
Biofilm
Biological soils: Blood, Feces, Mucous, Sebum, Sweat, Urine
Dyes, Inks
Eggs, Butter, Fruit Stains
Emulsifiers
Fat
Fingerprints
Flavor, Fragrances
Gelatin
Gels
Grass
Insoluble Salts
Milkstone
Oils
Oxides
Paraffins
Petrolatum
Proteins
Scale
Shop Dusts, Soldering Flux
Silicons
Starch
Tar
Tissue
Titanium Dioxides