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Industrial Packaging for Critical Contents

Drum It Up! Steel Drum Industry News, Trends, and Issues

Posts Tagged ‘hazmat containment experts’

What Exactly IS The Transportation Index?

August 17th, 2017 by Natalie Mueller

Filed under: Industry News

There are a number of decisions and calculations involved in the safe transportation of potentially dangerous radioactive materials. Along with considerations such as selecting the right containers (our 7A Type A Drums are great choice for many of these shipping solutions), a crucial rating is the Transportation Index (TI).

Despite its importance, it’s easy to lose the definition of the Transportation Index (TI) among the deluge of terminology, ratings, and regulations. It’s a daunting task to keep track of it all. If you see “TI”, and know that it means “___ sticker goes on the drum,” but would like to fully understand what the term refers to, here is a quick explainer:

The TI is a measurement of radiation that is considered when shipping radioactive material. It does not, however, reflect any relationship with a human body or any maximum safe dose regulations. Rather, it is the measurement of the maximum dose of radiation you would receive one meter away from a package containing radioactive material.

This measurement is then utilized in conjunction with the metrics that establish which colored label a container requires. If a container has a white “Radioactive I” label, no Transportation Index is necessary because these packages produce a negligible reading at one meter. For a package with a yellow “Radioactive II” label, the TI must not exceed 0.01 mSv h-1, and packages with a yellow “Radioactive III” label have a TI that exceeds 0.01 mSv h-1.

There are additional rules for packages that are shipped together. In general, if multiple radioactive packages are being transported together in a common carrier vehicle, the sums of the TIs for all packages must not exceed 0.5 mSv h-1. However, if the vehicle is being used exclusively for the transport of radioactive material, the TI allowances are increased.

These are only a few of the rules and regulations that use the transportation index as a factor. Always consult with the Department of Transportation to make sure you’re fully compliant. However, we hope this helps provide some clarity as you navigate the rules surrounding shipping radioactive materials. Armed with the right information, and perhaps a Skolnik 7A drum, should make the task less intimidating.

The UN System for Dangerous Goods Packaging

August 10th, 2017 by Natalie Mueller

Filed under: DOT/UN, HazMat, Safety

Skolnik steel barrels are all UN tested for their contents/purpose. If a manufacturer or shipper fails to comply with UN standards, they could face hefty fines, litigation and more. It is always important for manufacturers to adhere to UN regulations, but for dangerous goods packaging the stakes are even higher because, in addition to a fine, failure to comply with UN standards for dangerous goods packaging could lead to a spill, disaster or contamination. But what does this mean? How does the United Nations affect packaging regulations?

The UN system for dangerous goods packaging is universally used and recognized. The system is used to classify, package, mark and label dangerous goods to facilitate their safe transport. All national and international regulations governing road, rail, sea and air transport are based on the United Nations’ system. With all manufacturers, suppliers and transport professionals following a single set of rules, the chances of contamination are greatly reduced.

The regulations dictate a minimum standard of performance. These performance standards are based on the intended contents of a package. Packages must exceed these standards before they can be authorized to contain and transport dangerous goods. The UN system starts with a sort of checklist of general criteria and specifications that the design of packages must meet. The packages then undergo rigorous physical testing before receiving UN certification.

At Skolnik, we pride ourselves in consistently engineering and manufacturing steel drums that exceed the UN certification criteria for dangerous goods and other uses. Our industrial packaging is designed and tested to be thicker, heavier and stronger than the industry standard, and our dangerous goods packaging is no different.

Epoxy Phenolic Lined Steel Drums

July 21st, 2017 by Natalie Mueller

Filed under: Industry News

Steel drums are a versatile packaging for the transport and storage of many materials. However, there are some materials, usually liquids in the food or chemical industries, that may not be compatible with steel. In these cases, drum linings are used to protect both the contents and the drum from contact due to damage or contamination from their interaction. The drum lining most commonly used at Skolnik is an epoxy/phenolic lining.

Epoxy phenolic coatings offer consistent high quality protection for a wide range of applications. The lining is created by combining heat-cured epoxy resin with thermosetting phenolic resin. The chemical resistance from these two resins makes for an ideal lining for a container holding liquids such as food products, detergents, latex paints or other materials with a pH range above 7.

This lining has high resistance to 92%-98% sulfuric acid at temperatures up to 120 degrees Fahrenheit. The coating is also resistant to hydrochloric acid, phenol, anhydrous chlorobenzene, carbon tetrachloride and many other chemicals. An epoxy phenolic lining is also flexible. So, when applied correctly, the lining can adhere to a dent and bend with the metal, preventing any chipping or contamination of the contents.

At Skolnik, we strive to protect our clients, their materials and communities by connecting them with the right container for their contents and needs. Our lined steel drums are just one way we ensure that our drums are thicker, heavier and stronger enough to do the job. Free compatibility testing is available, and recommended, to insure content integrity.

Safe Lithium Battery Containment

June 23rd, 2017 by Natalie Mueller

Filed under: DOT/UN, Industry News

Lithium-ion batteries are the most commonly used batteries in consumer electronics and medical devices today, and they have been exploding. For all of the benefits and conveniences, lithium batteries have offered consumers — higher power density, lower memory effect, long life — they have a number of downsides and risks. Their sensitivity can lead to an explosion and, for this reason, they are considered “dangerous goods” and are banned from commercial aircraft.

The result is a kink in the supply line and, for those who rely on medical devices powered by lithium batteries, more than a mild inconvenience. At present, these batteries are only permitted on cargo aircraft and cargo planes only fly to large airports. As a result, the batteries cannot get to their final destinations.

The world isn’t going to suddenly stop needing lithium ion batteries anytime soon, so this is a puzzle that needs a solution. But, you know what they say: Necessity is the mother of invention. Skolnik Industries and Labelmaster have been working together to devise a package that can safely contain spent lithium ion batteries for bulk transport. This overpack package would serve as a multi-pack solution for the batteries as well as a secondary spill containment measure should the batteries be compromised in transit.

While it is always a pleasure to work with our friends at Labelmaster, we’re eager to find a safe and strong solution to this problem. The project cannot be completed until the DOT releases its final testing requirements for these package types, and, as with all Skolnik Industries products, this lithium battery-safe overpack container would be rigorously tested to meet all pertinent DOT regulations.

Once the regulations are set, we look forward to providing shippers and manufacturers with a safe, efficient solution to lithium battery containment, and helping alleviate the delay for those who need battery replacements for their medical devices.