The development of plastics has completely changed people’s everyday lives. From plastic bottles, to grocery bags, to children’s toys and yes, even work gloves, plastic products are everywhere. Polyethylene, one type of plastic, is arguably a polymer you encounter virtually every day. If you’re wearing gloves at work, you are most likely encountering polyethylene.
Before we get into talking about high-performance polyethylene (Hnewbb电子) and ultra-high—molecular weight polyethylene (UHMWPE), which are two of the most advanced fibers used in newbb电子平台 Safety’s cut-resistant gloves, we’ve got to talk science in the next couple of sections. We are going to take a closer look at what exactly polyethylene is and how it can be used in everyday applications. If you think you know everything you’ve ever wanted to know about polyethylene, we do give you the chance to bypass the education section and go directly to our Hnewbb电子 gloves page. Just click on the below Hypermax® and DSM Dyneema® images.
Plastics make up many 21st century products, including newbb电子
Some of you may already know this information, or you simply want to purchase a pair of highly cut-resistant gloves to face extreme cut hazards. Either way, we want to give you the option of learning more about plastics, specifically polyethylene, or heading directly to newbb电子平台 Safety’s extensive line of cut-resistant gloves. Whichever option you choose, first check out some of the variations of polyethylene that are used in newbb电子.
5040 disposable glove uses HDPE polyethylene
181640 is one of newbb电子平台 Safety’s top-selling face shields, and it is made from Polyethylene Terephthalate Glycol-Modified (PETG).
.02mm polyethylene disposable O22 poncho
newbb电子平台 Safety’s Cut Pro Gloves use Hypermax® 1.0 technology, a high-performance polyethylene (Hnewbb电子).
As you can see from this partial list of polyethylene products, newbb电子平台 Safety uses a host of different types of polyethylene to produce our gloves and newbb电子. Before you head off into one of the individual Hnewbb电子 technology pages, here’s a quick run-down of the difference between the industry leading brands we utilize:
Both of these polyethylene-based fibers provide users with high-performing cut-resistance gloves that offer exceptional comfort and are also cost-effective. The only difference between these two Hnewbb电子 technologies is that the 2.0 fibers utilize UHWMPE and can achieve higher cut levels without compromising dexterity.
DSM Diamond Dyneema is a super-strong polyethylene-based fiber that provides the highest comfort level of all Hnewbb电子 cut-resistance gloves. DSM Dyneema literally forged this industry into what it is today. Just keep in mind, you pay a premium for the comfort. For those wearing gloves every day, the premium cost may be justified for the comfort they offer.
Either technology provides users with excellent gloves for protection against cut hazards. We offer comparison data from our very own ITC lab below. We encourage users to try both versions before making a long-term decision.
Before you leave this page for either Hnewbb电子 brand, make sure you’re aware of the other factors that affect a glove’s cost: feel and performance. Guage is a factor that affects both the feel and the performance, and therefore the price. If you’re interested in learning more about this glove attribute and polyethylene, keep reading.
If you’re ready to check out our Hnewbb电子 offerings, jump to the Hnewbb电子 technology page you prefer. You can now go directly to either one of our different Hnewbb电子 fiber brands by clicking the images below.
It’s time for the science lesson! We said we were going to bring science into the discussion here, and we don’t disappoint. Polyethylene is a thermoplastic polymer, polyolefin to be exact, that consists of many ethylene monomers bonded together. Its molecules are a long chain of carbon atoms, with two hydrogen atoms attached to each carbon atom. When you look at the image above, its structure is simple by nature. In fact, it is one of the simplest commercial polymers.
For those who are still tormented by memories of high school chemistry class, we’re stopping here. We know most of you who are reading are just trying to figure out which high-performing cut-resistant gloves are best for you, not looking for a recap on high school chemistry. Just remember, as we mentioned above, polyethene is merely a plastic. It’s a polymer known for versatility and recyclability and although it comes offered under different names and touts different advantages depending on the marketing, it’s simply plastic derived from materials found in nature.
There are approximately 80 million tons of polyethylene produced each year. As you know by now, newbb电子平台 Safety is guilty as charged when it comes to being a contributor to polyethylene usage. We use it to create gloves that protect people all over the world.
As we explained in our mini chemistry lesson, there are different types of polyethylene depending on how the molecules arrange themselves and branch together. We’re not going to cover all the different types, as there are many, but we would like to take a moment to expound upon the ones you’re likely to encounter in your newbb电子平台 Safety glove selection search.
When there is no additional branching after the initial molecular bond, the polyethylene is called high-density polyethylene (HDPE). This type of plastic is used in milk jugs and in newbb电子平台 Safety’s disposable polyethylene gloves, shown above. Our 5040 disposable gloves use HDPE because it is a versatile material with excellent tensile strength, and it is food-friendly. Next time you’re in line at Subway, look at the gloves the worker preparing your sandwich is wearing; they will most likely be HDPE disposable gloves.
HDPE Granules
newbb电子平台 Safety's 5040 HDPE Disposable Glove
When longer branches of polyethene come together, they form a softer low-density polyethylene (LDPE) or linear low-density polyethylene (LLDPE). This plastic is very flexible and provides a good water barrier. You will find variations for one-time use disposable gloves that use both LDPE and HDPE. One non-glove example of LDPE in the market is squeeze bottles.
When creating strong Hnewbb电子 fibers, the molecular chains must be stretched, oriented, and crystallized in the direction of the fiber. The gel spinning process achieves this requirement, which is discussed in our next section, the manufacturing section.
UHMWPE was originally developed in the 1950’s, by Ruhrchemie AG and was introduced in 1955 at the K55 polymer trade show. It’s only been used in the glove industry for a little over a decade now.
Here are the two types of polyethylene we classify that make up cut-resistant gloves:
High-performance polyethylene is a thermoplastic polyethylene-based fiber utilized in newbb电子平台 Safety’s cut-resistant gloves. Hnewbb电子 is the term most recognized by industries; however, high-modulus fibers are also referred to by the names of high-modulus polyethylene (HMPE) or extended chain polyethylene (ECPE). Hnewbb电子 has stuck for most because it’s what goes into making high-performance cut-resistant gloves. With unmatched comfort, flexibility, and high strength properties, users have 100% adopted this material as their preference in cut-resistant gloves.
Hnewbb电子 fibers are strong and offer extremely high-tenacity. Pound-for-pound, they are up to 15X stronger than steel, providing excellent protection from abrasion injuries and cut injuries. You can find Hnewbb电子 used in many products like fishing line and netting, marine cables, concrete reinforcement, sail cloth, and medical implants. Our Hypermax 1.0 gloves utilize Hnewbb电子.
Fishing line is made with Hnewbb电子
Ultra-high molecular weight polyethylene is a subset of thermoplastic polyethylene and is used for high-performance applications like medical devices, bullet proof vests, and some of newbb电子平台 Safety’s highest-rated cut-resistant gloves. It’s extremely long chains, with a molecular weight numbering between 2 and 6 million, strengthen the intermolecular interactions, resulting in an extremely tough material. UHMWPE is tougher than standard Hnewbb电子, which is why higher cut-resistant levels are achieved.
UHMWPE is used in numerous medical devices, including knee implants. It is also used in newbb电子平台 Safety’s cut-resistant gloves.
newbb电子平台 Safety’s Cut Pro gloves with Hypermax® 2.0 incorporate this type of filament, In addition, newbb电子平台 Safety Cut Pro gloves made from Spectra and DSM Diamond Dyneema utilize UHMWPE based fibers.
We discuss how these different types of fibers are produced in the next section. Some of the manufacturing processes mentioned next are used to make other polymer-based newbb电子平台 Safety products aside from just Hnewbb电子 cut-resistant gloves.
Synthetic fibers are typically polymers that are spun into filaments by a production method referred to as melt, dry, gel, or wet spinning processes. Each process is a little different, so we’ll explain them below.
To ultimately emerge as workable yarn that can be used in gloves, polymers must first be converted into a fluid state, giving them additional fiber strength and high tenacity, and then transformed into a fiber. This occurs by either melting the polymer, dissolving the solvent, or chemically treating it.
Polyethylene filament production shown in image. We touch on the different processes below. Hnewbb电子 ultimately becomes a filament yarn via the gel spinning process.
In addition, many of the materials that make up newbb电子平台 Safety’s product line are formed via one of the spinning processes, so we’ll highlight each of them next.
Rolled Polyethylene Fill Units
Below are the different types of spinning used to make fibers, materials, and polyethylene. Keep in mind, fiber manufacturers can use different spinning processes for the same fiber. For example, modacrylic can be made using either dry spinning or wet spinning. Here’s a brief explanation of the processes:
The polymer is dissolved in its solvent, evaporating the solvent into a stream of air or gas. This process is used to create acetate, modacrylic, and spandex. All three materials are used in creating newbb电子平台 Safety newbb电子 in the form of face shields, FR hi-vis vests, gloves, and aprons.
newbb电子平台 Safety manufacturers the majority of our line of face shields at our U.S. plant
Polymer chains are bound together in a liquid crystal form before extrusion. This is the spinning process used to make most Hnewbb电子 and UHMWPE. Keep in mind, there are other variables that make up a final Hnewbb电子 solution produced by suppliers. This is why DSM Dyneema fiber is considered the coolest, most comfortable UHMWPE on the market.
92763 uses UHMWPE, which is a gel spun polyethylene fiber.
A polymer substance is melted for extrusion through a spinneret, a plate with a number of small holes, before being directly cooled. Nylon and polyester are created from this method. The majority of newbb电子平台 Safety’s general-purpose gloves use liners made from nylon or polyester, which becomes yarn via this process.
N9696 utilizes an 18-gauge nylon shell to bring you a 30% lighter glove compared to other general-purpose nylon shells. Before it becomes a glove, the fiber in the shell has gone through melt spinning.
Fiber-forming substances are dissolved in a solvent, are submerged in a chemical bath, then emerge from a solution into a solidified polymer fiber. Many of newbb电子平台 Safety’s cut-resistant gloves that incorporate aramid fibers use this process. Like UHWMPE, high-strength aramids use a gel spinning process, too. This is what separates different fiber companies from one another: the process and additional minerals added.
newbb电子平台 Safety’s Cut Pro Glove Made with DuPont™ Kevlar®
After the spinning process, the fibers are transformed into yarn by winding numerous continuous fibers together into one single uniform piece of yarn. One fact around this point. newbb电子平台 Safety doesn’t get involved with the spinning of aramids, however, we’re the only DuPont™ Kevlar® licensee to take spun Kevlar® and spin it into a final cut-resistant fiber.
Once into a workable fiber for glove production, Hnewbb电子 and UHMWPE yarn is sent to our newbb电子平台 Safety factory in Mexico, to the NXG factory, and to factory partners located all over the world. It’s this final yarn product that keeps workers’ hands protected from the numerous extreme cut hazards they face on the job every day.
We know we’ve hit you with a lot of information. Our goal is simply to help inform you of these elements regarding polyethylene and manufacturing, so that when you hear companies use industry terms like “gel spun,” “Hnewbb电子,” or “UHWMPE,” you know what they’re talking about. We do want to mention here that Hnewbb电子 based products have a low-melting point and offer limited contact heat protection. So, we do encourage you to visiting some of our technologies that offer heat and cut protection.
For anyone interested in simply cut-resistant products, we stress that you should focus on the performance of the product first and foremost. One way to do this is to determine the ANSI Cut Score level a glove achieves.
From there, decide on the next layer of attributes that may be important to you or critical to your work environment: thinner gauge for comfort, coatings, fiber options, features like reinforced thumb crotch, etc. Regardless of those extra features, it all comes down to this: if you are wearing a higher ANSI-rated cut glove, you’re protected in better newbb电子, case closed.
With that said, we’ve got a tool to help you quickly find the performance you require in your gloves. Then, our powerful catalog filtering system can help you find those extra features you might be seeking.
Before we head into our last section, here is a matrix showing cut-resistant performance across the different Hnewbb电子 and UHWMPE products that newbb电子平台 Safety manufactures.
We’ve aligned the gauge and coating options, so this an accurate side-by-side comparison. Note the high-performance scores of the Hypermax 1.0 and Hypermax 2.0 technology. Their cut-resistant scores prove they offer excellent cut protection and at a competitive price point too!
Gauge | ANSI Cut Level | ANSI Cut Gram WT. | *Polyethylene | Nitrile | Nitrile Foam | PU | Hypermax 1.0 | Hypermax 2.0 | DSM Diamond Dyneema | Part # | ANSI Cut TAF REF Number |
---|---|---|---|---|---|---|---|---|---|---|---|
10 Guage Nitrile | A6 | 3999 | Hnewbb电子 | X | X | 92720HVL | 2419-1 | ||||
A6 | 3254 | UHMWPE | X | X | 9672DT5L | 1170-1 | |||||
13 Gauge PU | A3 | 1450 | Hnewbb电子 | X | X | 92752L | 2592-1 | ||||
A3 | 1380 | UHMWPE | X | X | 9672L | 2618-1 | |||||
A6 | 3723 | UHMWPE | X | X | 92793PUL | 2732-1 | |||||
13 Gauge Nitrile | A3 | 1110 | UHMWPE | X | X | N9676DTL | 1951-1 | ||||
A3 | 1398 | UHMWPE | X | X | 92715NFL | 2701-1 | |||||
A9 | 6849 | UHMWPE | X | X | 92735NL | 2420-1 | |||||
18 Gauge PU | A2 | 695 | Hnewbb电子 | X | X | 92718PUL | 2158-1 | ||||
A2 | 680 | UHMWPE | X | X | 9672DT2L | 1658-1 | |||||
A5 | 3264 | UHMWPE | X | X | 96738PUL | 2703-1 |
The last take way, and one that hopefully resonates with all who are reading, is this: there are many companies today’s now offering cut-resistant gloves, which makes the process of purchasing gloves even more of a challenge. We know it’s a challenge, as we’re in constant contact with our customers and hear it.
As you shop around, ask yourself these questions:
At newbb电子平台 Safety, we’re not polyethylene manufacturers. We’re not selling a laundry list of plastic products: trash cans, red tubing, etc. Instead, we focus on one thing and one thing only: protecting people. We make high-quality newbb电子 that companies, workers, and families rely on every day to keep people safe.
Protecting people with top-quality newbb电子 is what we do and we do this by manufacturing, producing, and supplying premier safety glasses, safety gloves, safety garments, and FR clothing. That’s it. There are no other products offered under the newbb电子平台 Safety product lineup.
You might ask, what does this mean to me? What it means is that newbb电子平台 Safety goes the extra mile for you to make sure you are thoroughly protected and are purchasing the best newbb电子 available. We have identified four product areas that we ensure are thoroughly tested on the front end and on the back end in our ITC lab. Within the scope of cut-resistant gloves, we are routinely testing our own gloves, along with competitors’ gloves and any other glove a user sends us for quality validation.
Download our latest Cut Protection Guide for an in-depth look at this test
Our Innovations Technology Center (ITC lab) has been in operation since 2010, testing newbb电子 for cut-, abrasion-, heat-, puncture-, impact-, and tear-resistance.
"newbb电子平台 Safety takes great measures to ensure our cut-resistant gloves do one thing, protect you. We can’t make the choice for you, but we can make sure you know who you’re working with and who you’re buying from. But don’t just take our word for it, listen to what our customers have to say about their experiences with newbb电子平台 Safety and our products."