Create a Proper Spill Control Plan w/Brady SPC Absorbents

Implementing a proper Spill Prevention Control & Countermeasure plan (SPCC) helps create a safe and productive work environment for your employees. With that in mind, we’ve recently added a broad-reaching Brady Absorbents Department to QSource.com.

OSHA and EPA regulations (29 CFR 1910.22(a)(2), 40 CFR 112.7(c)(1)(vii), and 29 CFR 1910.120(j)(1)(vii)) require specific spill control and cleanup procedures to protect employees. The cost of non-compliance can be devastating in a number of ways. Brady’s SPC product line offers hundreds of spill control solutions for your workplace so you can avoid those costly cleanups.

Our new Brady SPC Absorbents Department features everything you need to create an effective SPCC plan with products in the following categories:

• Absorbent Rugs & Matting
• Absorbent SOCs, Pillows & Drum Covers
• Chemical Absorbent Pads & Rolls
• Granular Absorbents

When creating your SPCC plan, you need to consider three main factors.

What Are You Absorbing?

• Universal spills include coolants, solvents, gasoline, vegetable oil, kerosene, and other water-based fluids
• Oil only spills include hydraulic oil, motor oil, brake fluid, cooking oil, turpentine, and other oil-based fluids
• Chemical spills include aggressive chemicals, citric acid, sodium hydroxide, and other unknown chemicals

What Type of Absorbent Application?

• Wiping, dripping or foot traffic applications use pads, rolls, SOCs, and pillows
• Barrier-backed or heavy traffic applications use mats and rugs
• Emergency spill response use spill containment and spill kits

What Size & Weight Do You Need?

• Brady SPC products are available in a wide variety of sizes and absorbency weights in many categories

Visit QSource.com’s Absorbents Department to start building your SPCC plan. If you have questions about what your specific work area requires, you may contact us by phone (800-966-6020), email, or via our Web site. We also offer a complete line of Brady Labeling and Identification products.

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An Update on the HCFC-225 (AK-225) Phase Out & Ban – Guest Blog

by Steve Allen, VP Marketing and Innovation, ACL Staticide

Steve Allen's latest Guest Blog looks at the chemical replacements for AK-225 as it is approaches its total ban.

The EPA ban and elimination of HCFC-225 (also known as AK-225, and referred to that way from this point on) is a current topic of continuing concern in the area of electronics cleaning and printed circuit board (PCB) rework and repair. The banning of AK-225, effective January 1, 2015, will limit the number of available types of solvents for electronics cleaning. This will, once again, change the solvent cleaning landscape in our industry. It's important to understand what replacement chemistries will be available in 2015 and how this will affect end-users.

AK-225 falls under the EPA's Clean Air Act as a Class II ozone-depleting entity and is now defined as an Agency-Controlled Substance. It is thus deemed unlawful for any person to engage in interstate commerce of the solvent or any use of the substance unless it has been used, recovered, or recycled or used to produce another chemical, or finally, used as a refrigerant (until 1/1/2020). End-users may use, and continue to purchase, aerosols containing AK-225 made before January 1, 2015. Beginning January 1, 2015, AK-225 can only be used in the manufacture of end-user cleaning products if it has been used, recovered, and recycled, as per the Clean Air Act.

AK-225 (HCFC-225) is a cleaning solvent mixture of two isomers, HCFC-225ca and HCFC-225cb. AK-225 has many unique properties, including its ability to form azeotropes, strong solvency, and thermal stability, which makes it good for use in vapor degreasing. AK-225 is non-flammable, has a low acute toxicity, low viscosity, high density, and low surface tension. This list of great performance characteristics is what makes AK-225 such a great general-purpose precision-cleaning solvent. It is also why this particular solvent has been so difficult to replace with alternatives.

The Agency has approved more than 300 substitutes for multiple applications. Potential substitutes for AK-225 include DuPont Vertrel Solvents (Vertrel XF), n-Propyl Bromide (nPB), Trichloroethylene (TCE; mostly Chinese sources today), 3M hydrofluoroethers (HFEs), and Honeywell's Solstice Performance Fluid (Solstice PF).

DuPont's Vertrel has characteristics similar to AK-225, but is much more environmentally friendly. Solvents containing nPB work well for difficult precision-cleaning applications, but they are not considered environmentally friendly. From a health and environmental perspective, both nPB and TCE are not good replacements for AK-225 due to their low exposure limits and suspect carcinogenicity. The EPA is also currently evaluating the flammability limits of nPB. Additionally, TCE is an overly aggressive solvent making it unsuitable for use with most plastics and elastomers.

From an environmental standpoint 3M HFEs are great as they have been granted VOC exemption. Honeywell's HFO-1233zd(E) has a low global warming potential and is non-flammable. However, cost to the end-user for familiar cleaning applications may be an issue.

Because AK-225 is commonly used in high-end, Class 3 applications (like aerospace, medical, and biotech), qualification of replacement solvents is a difficult and complex process. It is not too early to start the process, and there are many choices to meet most every requirement. ACL Staticide has encouraged its end-use customers to initiate the replacement qualification process early to ensure solvent compatibility, performance, and product availability.

Considering all the facts and chemical replacement requirements from the EPA, ACL has developed a line of solvent chemistries and formulations designed specifically as AK-225 replacements. Our new line includes both flammable products and non-flammable products with our non-flammable alternatives developed specifically for AK-225. In particular, our new ACL 8624 A4 All Purpose Flux Remover & Cleaner has been formulated as a universal performance replacement for all former AK-225 applications. It has many of the same great features of AK-225, but without the ozone-depletion potential. It is recommended that the product be tested on plastics prior to use to determine plastic compatibility with each customer's unique application and process. Contact Q Source, Inc., your ACL Staticide distributor, at 800-966-6020 for more information regarding ACL's AK-225 replacements.

A big thank you to Steve, for another informative Guest Blog. We've appreciated your Q Source Resource contributions throughout this year and we look forward to more in 2015.

For information about ACL Staticide, or to purchase their related products, please visit our ACL Staticide Department at QSource.com. You may also contact us via email or phone (800-966-6020) and one of our associates will be happy to assist you.


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Volatile Organic Compounds & Evolving Regulations – Guest Blog

by Steve Allen, VP Marketing and Innovation, ACL Staticide

Steve Allen, our guest blogger from ACL, this time focuses on the topic of VOCs and aerosol cleaners

An important topic today with end-use customers using aerosol cleaners, is the changing regulations regarding the VOC content and compliance of solvent-based products. Many customers are perplexed as to why manufacturers and suppliers don't already have this information on their product MSDS (GHS safety data sheets) and tech data sheets. At one time, the weight percent of all non-exempt chemicals in most products was listed on each product MSDS, but this information has been removed for several reasons. And, as most everyone knows, the regs are changing all the time.

There is an evolving Federal list of exempt chemicals along with many state and municipal lists of currently exempt chemicals. In some instances, these lists do not always agree. Additionally, there exists at least three EPA-approved ways to calculate VOC content. And, each method can yield different values for the same product. The choice of a particular calculation method can depend on the customer's location and the air quality regulations for their particular region.

It's important to review what a VOC is and why it's important. VOC stands for "volatile organic compound." These are chemicals whose vapors have been found to chemically react with nitrogen oxides (NOx, which are produced by auto exhaust, the burning of fossil fuels for power generation, and other industrial processes) in the air and in the presence of sunlight to produce ground-level ozone or "smog". The ability of certain chemical vapors to produce smog when sunlight makes them react with nitrogen oxides is referred to as photochemical reactivity. The direct emission of these vapors into the air defines the scope with which the EPA is most concerned. Thus, chemicals whose vapors are not photochemically reactive to form smog are considered exempt and are not included in the process of determining the amount of VOC ingredients in a particular product.

The federal EPA publishes a list of exempt chemicals and many states also publish their own list. A chemical that is listed as exempt on the EPA list may not appear on the individual state or municipality listings. A basic Internet search for methods of calculating VOC will generate literally 1000s of information sources and reference sites. VOC test results are used for a variety of purposes. These are predominantly for emissions fees, new source review applicability, and compliance with permit limits.

Most VOC and air quality/emissions permits do not specify VOC test methodology for purposes of demonstrating compliance with VOC limits. Currently, there are inconsistencies and a lack of guidance among states and EPA regions in implementation of VOC test methodology. It is technically difficult to specify any one single method for VOC measurement. This is why it is difficult to specify a simple value for the VOC content of most cleaning products. Without specific knowledge of the area of the country in which the customer is located, the EPA region under whose regulations they operate, if they are operating under a Federal NESHAP, the existence of state and local emission regulations, and the specific application or way in which the product will be used, it is difficult-to-impossible to list accurate and specific VOC information on a product MSDS.

Many states do not recognize all of the chemicals on the EPA lists as being exempt. Formal exemption of a chemical from VOC consideration may depend on how it is being used. California is generally the most extreme case and most industry there is moving toward water-based cleaning.

So, why are VOC determinations mission-critical today? Traditionally, VOCs have been used for conformal coating and various contact cleaning and flux removal applications. The properties of a conformal coating stem from the selected base resin and the various additives, while the solvents used in most cleaners come from an aromatic or aliphatic hydrocarbon base. These are included to optimize the performance of the cured coating or the formulated cleaner. Organic solvents are used to dissolve the base resin and reduce viscosity to bring the coating within a workable range. As such, the conformal coating dries by a simple solvent evaporation. Contact cleaners and flux removers function in the same manner.

Solvent-based conformal coatings are extremely versatile and can be applied in many ways, such as dipping, spraying, and brushing. By simply adjusting the solvent level, the viscosity of the coating can be tailored to the required application method. Solvents or VOCs are used for many different cleaning applications during PCB manufacture. Until recently, there has been a reluctance to change to alternative products for a number of reasons:

• Change required alterations to production procedures and equipment
• Solvent-based materials were very well established
• Alternatives did not have all the answers
• VOC limits on solvents were changing as were test methods

Cleaning is an essential process required at different stages in PCB manufacturing. The purpose of cleaning is to ensure good surface resistance and prevent current leakages which lead to PCB failure. Future markets see electronics getting smaller and smaller, and the requirement for high performance and reliability is stronger than ever.

Many manufacturers are turning to "no-clean" processes implying that cleaning is not required after soldering. In the "no-clean" process, rosin and activator are not removed prior to the next process such as coating or encapsulating of the PCB. Such residues, along with any other unwanted elements collected due to the missing cleaning stage, could cause issues with adhesion and possibly affect the performance of the protecting media applied. It can therefore be stated that even with advances in new technologies, such as "no-clean" fluxes, cleaning is still an essential multi-stage process within the electronics industry. Finally, there are also cleaning stages required for the removal of coatings and adhesives when re-work is necessary and for the cleaning of actual components and for maintenance of the production line.

Volatile organic compounds in cleaning and coating chemistries will continue to be a point of concern at the end-user level. Low VOC alternatives are available as are water-based options. Every manufacturer must maintain awareness of changing VOC regs and formulate products which are in the best interest of the environment, the industry, and most importantly, the end-use customer. ACL Staticide is committed to this effort as we develop and commercialize industry responsible and compliant new products.

If there's a product or topic you'd like to see The Q Source Resource write about please let us know. We'd also appreciate if you share this blog post with your friends and colleagues via the social media links below. If you have questions or comments about ACL Staticide products or about cleaning printed circuit boards and electronic equipment please leave us a message in the comments section.

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3M Receives EPA ENERGY STAR Sustained Excellence Award for Record 10th Year in a Row

In an Earth Day announcement, 3M revealed yesterday that they have earned a privilege that no other industrial company in the world has attained. For the 10th year in a row, the United States Environmental Protection Agency (EPA) has presented 3M with the EPA ENERGY STAR® Sustained Excellence Award.

Recognizing the importance of energy efficiency and environmental concerns as a strategy for corporate social responsibility, 3M stated that they've worked the past 10 years (and longer) to improve their processes, raw materials, and efficient methods for resource savings. Among 3M's sustainable products are 3M Novec Engineered Fluids, 3M Window Films, and 3M LED Advanced Lighting.

The EPA recognized 3M for a number of efforts including:

• Implementation of 252 projects, which resulted in savings of $8.79 million and 61,700 metric tons of CO₂
• Development of a strategic initiative to identify and implement projects to make step-change improvements in greenhouse gas emissions and energy efficiency
• Formation of Centers of Excellence to integrate all aspects of sustainability into business strategies company-wide
• Enacting energy-saving innovations in diverse markets, and engaging communities globally in energy and sustainability dialogues

The Sustained Excellence achievement is the EPA's highest ENERGY STAR award. The EPA created ENERGY STAR in 1992 to stimulate corporate efforts to reduce greenhouse gas emissions. 3M is the only company to ever receive the Sustained Excellence award ten years in a row.

In related news, 3M received the Xcel Energy 2013 Energy Efficiency Expo Award for saving nearly 1.8 million therms of gas. And in an effort to further solidify their commitment to corporate responsibility, 3M became a member of the United Nations Global Compact, a voluntary initiative that outlines 10 doctrines in the areas of human rights, labor, environment, and anti-corruption.

Q Source has been an authorized distributor of 3M products for more than a decade. We congratulate them on their recognition and continued sustainability efforts.

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How to Protect Your Manufacturing Plant from the Hazards of Dangerous Chemicals: Guest Blog

Special thanks to our guest blogger, Lenard Cohen, President of Static Solutions

Companies seeking to avoid potential dangers to their workers, the environment, and ESD-sensitive components must consider a number of factors when weighing the benefits of high-quality ESD products and their cost. To help make this choice easier, the most important step should be to educate the engineers and buyers about the possible risks and how they can be avoided.

Education about the potential hazards will help to address the traditional conflicts every company faces:

• The engineer wants to correct or prevent an ESD-caused problem
• The buyer wants to purchase a material that meets functional specifications
• The safety engineer, if there is one, must specify the safest material and focus on avoiding future litigation

The Clean Air Act Regulations & How to Address Them
Some of the aforementioned conflicts were made more challenging many years back when the EPA's Clean Air Act issued regulations to reduce 189 toxins. The affected products fall under both state and federal regulatory agencies (California and Massachusetts being very stringent).

The best way to address these toxins is by focusing on the two most important criteria:

• The information presented in the Material Safety and Data Sheet (MSDS). Learning to read the MSDS is very important (if you don't know how to read one you're missing potentially vital information; such as if a particular product needs special precautions for application or disposal)
• The Volatile Organic Compound (VOC) number for each product. It is important to keep the VOC number as low as possible to prevent contamination

What are the Sources of VOC
VOCs are most commonly found in the following areas:

• Soldering: such as plating, solder, flux, stencil cleaners, and flux-removing solvents. Using lead-free solders (RoHS approved) has gained common acceptance. One of the concerns of using lead-free solder, though, is the higher operating temperatures, the need to use more aggressive solders, and whisker generation. There are exemptions from the EPA's regulations for the defense and hospital industries
• Coatings: including ESD paints, isocyanates and other cross-linking agents, aziridines, ESD floor finishes, strippers, cleaners, and hand lotions
• Materials: like ESD table and floor mats, finger cots, and smocks
• Coalescent agents from floor finishes and free monomers from polymer binders
• Phthalates used in common table floor mats and the chemicals used to clean the mats
• Paraben-containing hand lotions: are not allowed for pregnant women
• Floor finishes: should not have certain chemicals in their formulation, i.e., phthalates (Green formulations, that have undergone testing, are available from reputable sources)
• Strippers: should not contain sodium hydroxide or Diethylene glycol monobutyl ether (DEGBE)
• Table/floor mats: avoid those containing dioctyl phthalates, which are present in vinyls and lower cost rubber mats

Safeguarding Workers from VCMs
Volatile Condensing Materials (VCM) are also potentially harmful to workers, parts, and the environment. Here are the best ways to avoid the dangers:

• Read the MSDS sheet fully
• Call manufacturers and request hard core test data
• Always use proper precautions when handling all ESD products (gloves, eyewear, exhausts)
Remember when using ESD products the aim is to:

• Eliminate or prevent ESD caused failures
• Create a safe environment (and avoid all potential fines)
• Protect the worker (this will avoid any possible law suits)
• Purchase from proven, reputable sources

Educating workers, engineers, and buyers will help to create a safe and compliant workplace and reduce the chance of employee injuries or legal action against the company. For further information about protecting and preparing your company to face dangerous chemical hazards please contact the experts at Q Source.