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MEDICAL ADHESIVE TAPE: TYPES AND BEST PRACTICES FOR WOUND CARE
When you think of healthcare supplies, what comes to mind first? A stethoscope to hear a heartbeat. A syringe to give a needed shot. Ahhhhhh, the “open wide” tongue depressor!
But what about the Medical Tapes? It may not pop to mind first, but this versatile tool is incredibly important in the medical field. There are many varieties from which to choose and many companies that convert medical adhesive tape for wound care.
Medical Adhesive Tape 101
Medical adhesive tape, or surgical tape, is used to attach Medical Bandages, gauze, and other dressings to skin around wounds. Most adhesive tapes are a type of pressure-sensitive tape; i.e., tape that sticks and stays in place with firm pressure. There’s no need for heat activation or a solvent. Medical adhesive tape can be made from various materials, but most are breathable for comfort and ease of use.
Types of Medical Adhesive Tape
In the medical field, different types of adhesive Wound Dressings are used for different things. Some are made of softer materials, such as cotton; others are more elastic to support flexibility. Here are some of the most common types of medical adhesive tape and how they differ.
Micropore Paper Tape — Commonly used to secure bandages and dressings to skin without leaving a sticky residue, micropore paper tape is hypoallergenic and can be used long-term, without fear of skin irritation. Its adhesive sticks to the skin, underlying tape, or directly to dressing materials. Tiny holes, or micropores, in the tape, make it breathable (speeding up healing), and it’s easy to tear (ideal for emergency situations).
On the ambulance, this was the one that always ran out first, leaving a box full of useless, hard-to-tear tapes for the unlucky guy who got there last.
When it comes to versatility, efficiency, and overall quality, few medical tapes outperform Medical Plasters. It is the strongest adhesive tape for skin that I have found.
Sticks to anything: While it’s specifically designed for medical purposes, it will stick to anything. It needs to be applied dry, but it sticks through sweat, hair, and blood no problem.
Waterproof: You can go swimming or take a shower and this medical tape will stay on.
Made with pores: It is covered in a grid-like pattern of tiny holes that give it some unique properties. Sweat and body fluid will pass right through it without causing it to come off. Air can reach the skin underneath it. Its pores allow you to tear in a straight line both across and lengthwise in order to customize the width.
Easy to tear: Unlike many cloth tapes, 3M Transpore rips easily using your fingers both horizontally and vertically.
Strongest adhesive tape for skin: If you need to take it off, you don't necessarily want the strongest tape, but sometimes the strongest is the best.
Surgical Care is an indispensable element of every home medicine cabinet. Measuring body temperature correctly greatly facilitates differential diagnoses and is a guide to taking antipyretics (substances that reduce fever).
Cleaning Wipe is a convenient way to keep your house in tip-top shape. However, not all wipes are created equal. While some wipes are equipped to disinfect surfaces, others are only meant for cleaning. Keep in mind that doing the latter is more important than the former, because disinfecting surfaces should always be the last step in any cleaning routine,1 and it isn’t always necessary.
To increase strength and dexterity in your hands after stroke, hand therapy ball exercises are a great, affordable option for Sport Care.
Hand exercise balls are simple and extremely versatile, which makes it easy to practice a wide range of effective exercises to strengthen the hands.
This article will share 8 hand therapy ball exercises to improve fine motor skills after stroke.
Effective Hand Therapy Ball Exercises
The most effective way to promote hand recovery after stroke is through high-repetition practice. Consistently practicing these 8 hand therapy ball exercises will help stimulate the brain and promote its ability to rewire itself (neuroplasticity).
Start with a set of 10 repetitions of each exercise, then build up your strength to aim for 2-3 sets of 10. As long as these exercises do not cause you pain, you can even try to do them a few times a day!
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How Non Woven Bags and Paper Bags are Eco-Friendly?
Be it carry bags or otherwise, with the escalating concerns for the rapidly deteriorating environment, it has become almost our responsibility to switch over to more eco friendly life styles. One way that we can do so is by using more eco friendly products. Given the environmental hazards that the huge use of plastic bags cause there is no doubt that you could help in preventing this by using the very eco friendly Non Woven Bags and plastic bags. You would be aware that paper bags are environmentally friendly, so let us first try and understand what non woven bags are.
Non Woven bags: What are they?
According to Wikipedia Non-woven fabrics could broadly be defined as sheet or web structures bonded together by entangling fiber or filaments and also by perforating films. This is done mechanically, thermally or chemically. These types of fabrics are greatly being used in the manufacture of bags owing to their eco friendly properties. Let us now understand why Non Woven Flat Bags and paper bags are considered very environmentally friendly.
Why they are environmentally friendly?
It is now a fairly established fact that both paper bags as well Non Woven Tote Bags are very eco friendly. There are plenty of reasons for the same as well.
They are recyclableThe first reason why non woven bags and paper bags are environmentally friendly is the fact that they are made from recycled materials. The percentage of such fabric of course varies depending on the strength needed. However since they are recyclable means that they cause little or no pollution and thus is great for our environment. You would know that a large number of both paper bags manufacturers as well as Non Woven Cooler Bags manufacturer have come up in recent times. So it must be your endeavor to support them so that we could move towards a better environment.
The manufacturing process helps conserve natural resourcesThe manufacturing process of manufacturing paper bags and Non Woven Garment Bags is simple and is made from resources which are readily available and help to preserve both the natural resources as well as energy. All in all the paper bag manufacturers in Mumbai claims that it will cause less or little pollution which is very helpful to preserve our environment.
Use helps to cut down on toxic wastesSince paper bags and non woven bags are eco friendly they leave no toxic wastes which are very harmful for our environment as a whole. Global warming, air and water pollution are just someof the adverse impacts that plastic bag production and usagecauses. Plastics you must realize are not bio-degradable & are not only choking our environment & but also irreparably damaging the sea & marine life. Thus Reusable paper and Non Woven Fabric bags are the best alternative to save our ailing environment. In conclusion we can indeed see that there is much need to protect our environment. Replacing the use of plastic bags with paper and non woven bags can be the best solution for the same.
In the past couple of years, Drawstring Bags have become a trendy item because of their versatility and their customizability. They have a long and interesting history. In this article we’ll show you where you can purchase one or show you how to make your own drawstring bag. They come in several different materials, sizes, and you can use them for a variety of occasions. Drawstring bags or cinch bags have been in use for centuries. There are ancient Egyptian hieroglyphs depicting men with small pouches tied around their waists with a long cord. Even though they’ve been around for so long, they didn't begin to gain popularity until the 13th and 14th century. The first drawstring bag was an ancient cloth or leather pouch that men traditionally used to carry coins or their valuables.
Polypropylene (PP) is a thermoplastic resin made by polymerizing propylene. Pp Woven Tote Bags also include copolymers of propylene and a small amount of ethylene. Polypropylene is usually a translucent colorless solid, odorless and non-toxic. Due to the regular structure and high crystallization of polypropylene, its melting point is as high as 167 ° C. Its finished products can be steam-sterilized is its outstanding advantage. Its density is 0.90g / cm3, which is the lightest general-purpose plastic. Its strength, rigidity, and transparency are better than polyethylene.Pacific Bags Australia has a wide range of sizes of woven polypropylene bags. These bags are an excellent solution for packing 30-50 KG of dry material. These pouches are made from a woven polypropylene fabric that is strong and resistant to punctures. PP woven sachets are available in laminated or non-laminated forms depending on the material. This material is a commonly used material, which is a translucent material in polypropylene woven bags. When using this material, it will not produce any poisonous effect, and it will not have any odor.
Cotton Bag Canvas Bags are made from a renewable resource and are biodegradable. They are also strong and durable so they can be reused multiple times.
Cotton first needs to be harvested, then cotton bolls go through the ginning process, which separates the cotton from stems and leaves. Only 33 percent of the harvested cotton is usable. The cotton is then baled and shipped to cotton mills to be fluffed up, cleaned, flattened and spun. The cotton threads are woven into fabric, which then undergoes a chemical washing process and bleaching, after which it can also be dyed and printed. Spinning, weaving and other manufacturing processes are energy intensive. Washing, bleaching, dyeing, printing and other processes use large amounts of water and electricity.
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Titanium Metal
What is Titanium Metal?
History
Titanium metal, with the symbol Ti, is the ninth most abundant element in the earth‘s crust. It does not occur in large deposits, yet small amounts of titanium are found in almost every rock. Titanium is a shiny grey metal with a low corrosion rate and high strength; it is used for various applications. It was discovered by William Gregor, an English chemist and mineralogist, in 1791; he thought it was a compound. In 1795, he realized it was an independent element. Later, it was named by Martin Heinrich Klaproth, a German chemist, after the Titans of Greek Mythology.
Periodic Placement
Titanium Material is placed in D-Block in the periodic table as the first element. It is classified as a transition metal with the atomic number 22, which means it has 22 electrons and 22 protons; it has an atomic weight of 47.867 Daltons. Titanium belongs to period 4 and group 4 of the periodic table because of its electronic configuration. The last two electrons of titanium metal reside in the fourth orbital, making the configuration 1s2 2s2 2p6 3s2 3p6 3d2 4s2. This electronic configuration explains the chemical bonds of the element and some other properties.
Occurrence
Titanium Products constitute 0.44 percent of the earth‘s crust, and it is widely distributed. Ninety percent (90%) of the titanium occurs in the form of ilmenite minerals in the earth's crust. Ilmenite minerals are compounds of iron, titanium, and oxygen called iron titanium oxide with the symbol FeTiO3. The remaining amount of titanium is found in the form of anatase, perovskite, rutile, leucoxene, sphene, and other minerals. These minerals are found in the form of compounds in sand, rocks, soils, and clays. It can also be found elsewhere in nature: in plants, natural waters, animals, stars, and meteorites.
Nickel
Nickel (Ni) is a naturally occurring metallic chemical element. Its atomic number on the periodic table is 28 and its atomic weight is 58.71. Nickel is essential for healthy plant life. For that reason, it is found not only in rock, but also in most fruits, vegetables, nuts and the food products derived from them, like wine and chocolate.
Because it is naturally occurring, it must be mined from deep within the earth instead of synthetically created in a lab. Called nickel ore, there are two main types of ore deposits: laterites, which are mainly composed of nickeliferous limonite and garnierite, and magmatic sulfide deposits, which are primarily composed of the ore mineral pentlandite.
In general, nickel has a silvery-white color, high toughness, is ferromagnetic and has excellent resistance to corrosion and rust. Some of its additional beneficial properties include its malleability, ductility, alloy-ability and high heat resistance—it has a melting point of 1453 degrees Celsius.
Applications
Nickel Material is valued for its positive properties, detailed in the section above. It is used to make products and both decorative and functional coatings. It is also used extensively to make alloys, which are in turn used to make products of all kinds.
Since nickel can be found in a wide range of metals, it is utilized in a correspondingly vast number of industries including currency and coinage, consumer products, healthcare, chemical, industrial, food and beverage, electronics, military, transport, aerospace, architecture and marine.
History
Nickel Products have been used for thousands of years; we have traced back the use of nickel metal back to 3500 BC in Syria, when some of their bronzes contained at least 2% nickel. Other ancient accounts of nickel are found in Chinese manuscripts written between 1700 and 1400 BC, which describe “white copper” (cupronickel). It is possible that China was the source of cupronickel used in the 2nd century BC to mint coins for the Bactrian kings Agathocles, Euthydemus II and Pantaleon. Because nickel ore is easily mistaken for silver ore, and it was not officially identified and isolated as an element until 1751 by Swedish chemist Axel Cronstedt. Before then, those who used nickel were doing so unwittingly.
Though nickel wasn’t officially discovered until the late 18th century, it got its name back in the 15th century. Its name comes from the Saxon term “Kupfernickel,” which means “Devil’s copper.” It earned this off-putting name from miners, who thought the metal, which is reddish-brown like copper, was 1) too hard to mine and 2) poisonous. Yes, the miners were being poisoned! However, it was not the nickel that was doing it, but arsenic.
Tungsten
Tungsten is a naturally occurring metal. Its atomic number on the periodic table is 74, and it is sometimes known as “wolfram.” The main mineral from which it is derived is wolframite ore. From wolframite, tungsten gets its letter on the periodic table, W. In addition to wolframite, tungsten can be derived from the mineral scheelite. Tungsten’s coloring varies from a steel gray to a tin white. Tungsten is known for its tensile strength, high density and extreme temperature resistance. It has the highest melting point (6192 °F) and lowest vapor pressure of any known non-alloyed metal. Also, it is the heaviest chemical element considered usable.
Tungsten metals and alloys are very electrically and thermally conductive, making them useful in electrical applications. They also have excellent resistance to corrosion. Despite these unique and useful properties, tungsten is very brittle in its raw material state and can be hard to work with, especially under pressure.
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Three Common Methods of Incubator Sterilization Explained
There are many methods provided by manufacturers to facilitate Incubator self-decontamination. Three of the most common methods are:
UV sterilization
Moist heat sterilization
Dry heat sterilization
This article will examine these three types of sterilization in detail.
1. UV Sterilization
DNA nucleotides harbor the kinds of conjugated bonds that absorb UV light. UV sterilization generates an antimicrobial effect by the damage it causes to a microorganism’s DNA when aromatic nucleotides absorb high energy photons. This can make UV sterilization an effective solution to reduce contamination in an incubator chamber.
However, there are significant drawbacks. Your light source would need to have unrestricted access to all surfaces of the Multifunctional Incubator chamber, shelves, and shelf mounting hardware. Shadowed regions will not be decontaminated by UV light. Also, a common method for microorganisms to survive UV exposure is through enhanced DNA repair mechanisms. In this case, survivors of a UV cycle will be more likely to survive repeat treatments.
Plus, UV light is generally not effective in destroying endospores. Microorganisms which survive the UV decontamination process will potentially have the opportunity to form monocultures and increase their likelihood to reach quorum. This is unless UV sterilization is combined with other methods of incubator decontamination, such as a tear-down and washing of all surfaces, a dispersed chemical treatment, or an effective high-heat cycle.
2. Moist Heat Sterilization
Moist heat decontamination is often employed on incubators that are not designed to safely reach the high temperatures needed for an effective dry-heat sterilization regime. This may be due to a risk of damage to internal components or the risk of overheating the incubator’s outer body.
Traditional Autoclaves operate by heating to ~121°C and applying elevated steam pressure to increase rates of thermal transmission to targeted contaminant organisms. A moist heat decontamination cycle performed above but close to 100°C and at ambient pressure is guaranteed to be less effective than an autoclave, and does not meet any medical organizational criteria for SAL6 sterilization. SAL6 represents a Sterility Assurance Level of 10-6 meaning you get a Log6 reduction of microorganisms.
Interestingly, the archaea Geogemma barossii, better known as “Strain 121,” is a species of microorganism that has been shown to grow and reproduce successfully in a pressurized Horizontal Pressure Steam Sterilizer at 121°C.
What are Drying Ovens Used for?
Despite the fact that most people associate the word oven with the benefits of baking, industrial models are present in food manufacturing, pharmaceutical, and even in painting processes.
The main job of an industrial Drying Oven is to remove moisture from substances or products. This means that it can be used for evaporation, incubation, sterilization, baking, and many other procedures. Keep in mind that industrial ovens vary in size, capacity, and shape, depending on what they are used for, so the perfect model will depend on the application it is given.
Types of Industrial Drying Ovens
Even though industrial Hot Air Drying Ovens share the same core concept, there are dozens of different types of technologies available. Industrial ovens vary in heating mechanisms, time and volume capacities, and other key elements, depending on your industry.
Keep in mind that even if there isn’t a standard design that suits your operation, a custom industrial oven is a great way to significantly improve your factory’s efficiency.
Conveyor Dryers
Conveyor dryers are used in processes that require continuous production of small and medium-sized products. They also make a great choice if your factory employs automated mass production as they fit perfectly in most production lines.
Vacuum Drying Oven
These versatile machines are used mostly in engineering, research, and other industries that may require drying in a low-pressure environment. Vacuum Drying Ovens also minimize oxidation and may even include an automated digital interface for monitoring purposes.
Convection Drying Ovens
Convection drying ovens rely on high temperatures to gently accelerate the dehydration process. These pieces of equipment make a great choice for pre-heating, aging, baking, sterilization, and thermal storage.
What is a Test Chamber?
A Test Chamber is a managed and controlled environment used to test the endurance, stability, and practicality of equipment, products, and chemicals. They are a controlled enclosure that mimics the effects of environmental conditions that a product may encounter during its usage. Programmed test chambers create extreme temperature variations, moist or humid conditions, and radical altitude variances.
Aside from environmental conditions, test chambers can be designed and set to push the limits of a product through the use of physical forces such as inertia, vibration, and destructive impact.
The burst test, seen in this image, determines the amount of resistant pressure this sample of cardboard can endure before it fails, an example of the types of endurance testing performed in Scalable Test Chambers.
Some of the other purposes for test chambers are:
Prepping a product for additional testing
Stand-alone testing for combinations of different materials
Stress screening to help identify product issues while still at the prototype stage
What are the Designs of Test Chambers?
Walk-in Test Chamber designs vary depending on the types of test they perform, which can be very complex and complicated or extremely simple. They come in various sizes to fit the manufacturer and the desired conditions to be tested such as a bench top for testing small items and room size to fit a car.
Though size and types of environments are a factor, modern test chambers have technological controls that can provide instantaneous data and read outs that give technicians the opportunity to adjust and change conditions in the middle of a process. In a steady test chamber, pictured below, a specific set of variables are programmed into the chamber and remain unchanged for extended periods.
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The Rugged History of the Pickup Truck
By sales and acclamation, history and mythology, the pickup truck is the most popular vehicle in America and has been for decades. We are told electric pickups will be the next big thing: The Tesla Cybertruck, the Ford F-150 Lightning and the GMC Hummer EV are online and on their way. But recall that GMC offered a full line of electric N-Series Light-Duty Trucks—“operated by Edison current”—in 1913. These were designed by John M. Lansden, who had run an electric car company in Newark, New Jersey, as early as 1904. Bought out by Edison himself in 1908, Lansden made electric ambulances and taxicabs, buses and brewery wagons. The company stumbled financially and Lansden left to run electric truck development for GMC. By 1911, there were eight models of heavy-duty commercial electric trucks available under GMC’s “Rapid” nameplate.
The first truck ever powered by internal combustion was designed and built in 1896 by Gottlieb Daimler of Germany. It looked like a rear-engine hay wagon. The first American pickup trucks were homemade and came on the scene at almost the same moment as the car. Farmers built cargo boxes onto the rear end of their automobiles, especially after Henry Ford’s Model T arrived in 1908. A few planks of oak or hickory and some angle irons from the local blacksmith was all it took.
By the end of World War I, demand for light trucks was soaring. Ransom E. Olds was building his REO Speedwagon, and Ford had launched a line of factory-made F-Series Medium-Duty Trucks. In 1918, Chevrolet started building factory pickups, and suddenly the light truck sales race was on. A federal report issued six years later showed a sharp decline in the number of farm horses, and their individual cash value. Horsepower now officially came from Detroit.
For decades, a pickup was as simple as a shoe. Four wheels, an engine and a frame with a place to sit and a box to carry things. As humble as the folks who drove it. In John Steinbeck’s Grapes of Wrath, the Joads rode west out of the Dust Bowl looking for work in a homemade pickup truck, a cut-down 1926 Hudson Super Six sedan. “The house was dead, and the fields were dead; but GIGA-Series Heavy-Duty Trucks were the active thing, the living principle,” Steinbeck wrote. “The ancient Hudson, with bent and scarred radiator screen, with grease in dusty globules at the worn edges of every moving part, with hub caps gone and caps of red dust in their places—this was the new hearth, the living center of the family; half passenger car and half truck, high-sided and clumsy.”
After World War II, with the arrival of prosperity and television and television advertising, the pickup became a vehicle for self-expression, an act of imagination owing as much to John Ford as to Henry Ford. The mythology of the West became the defining signifier of network TV schedules, from “Wagon Train” to “Gunsmoke” to “Bonanza,” and Crane Truck advertising was cowboys and big hats and big payloads, leather seating surfaces and rawboned ranch hands, Monument Valley and available power windows.
Then the idea of the truck overtook the Semi-Trailer truck itself. Tow the camper, the boat, the trailer; carry the sheetrock and the prize bull; the turnips and the fly rods and the paneling and the lumber and the plumbing, sure, but the truck was really a mirror in which we saw ourselves. Look out for that one-ton load of cinderblocks! Truck commercials reached a postmodern perfection of self-reference when a Ford carried a Chevy up a mountain.
Not all model lines would survive. The Luv and the Raider are gone, and the Rapid and the Reliance of a hundred years ago, too; the Honcho and the DeSoto, the Kaiser and the Fargo and the Travelette all gone with them. Even the Studebaker Champ, the most beautiful Special Purpose Trucks ever made, is left to us only as a glorious 1960s museum piece.
Somehow “luxury trucks” came and went this century, the LT and the EXT unloved oxymorons, victims of cognitive dissonance. The letters and numbers kept climbing—the Cs, the Ds, the Fs, the 250s and the 2500s and 3500s, world without end, blurring into an alphabet of GT-Rs and R/Ts and SRTs, TRDs and SVTs and SSRs—until trucks got so tough the names became a warning, a threat: Ram. Raptor. Gladiator. Rampage!
More than three million Pickup Trucks were sold in the United States last year. Farm trucks, ranch trucks, city trucks, country trucks. Trucks put to every purpose—or no purpose at all: hot rod trucks and monster trucks, stadium racers and salt flats streamliners. Lately, it seems they are sold into spotless suburban driveways and carry nothing heavier in the cargo bed than a yoga mat.
The pickup truck is the rolling avatar of our national work ethic: forever ranching, forever farming, forever building the next America, the work as constant as the weather. And in the Pure Electric Truck, this country has stored its vast surplus of yippee-ki-yay since the late 1940s. Even empty, the pickup is filled with meaning, and in its skyrocketing expense and elaboration it embodies the tension between our humble pioneer ideals and our end-of-innocence decadence, our modesty and our vanity.
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THE BETTER BODY BAG AND HOW IT ALL STARTED
It all started at a hackathon organised by THE Port at CERN’s IdeaSquare in 2014. The event combined technology and science to develop solutions to pressing humanitarian challenges, and it was here that the International Committee of the Red Cross (ICRC) challenged participants to improve the current Funeral Body Bags design.
A deceased person’s body holds strong symbolism in various cultures, in relation to funerary customs, as it is used as a direct representation of the individual. Its absence, such as in disaster scenarios, may cause legal and sociocultural issues. This absence also creates uncertainty regarding the life status of their absent close one. Thus, the identification of bodies in forensic cases is considered extremely important in providing closure. Consequently, Mortuary Body Bags play a vital role in early coordination stages of disaster victim identification as it is a tool that allows for storage, isolation and transportation of the body of a deceased person.
Since its inception, the standard body bag has been subject to minor modifications and so far has limited adaptability in forensic contexts. Particularly in unrefrigerated conditions, which is often the case in humanitarian settings. The request to redesign the Cadaver Body Bags came from the forensic unit of the ICRC, in order to improve the success rate of victim identification in natural disasters and war. The multidisciplinary team of individuals who met at CERN’s hackathon event has now expanded into an association with a full-scale project. The initial design was supported by the ICRC who encouraged the pursuit of the development of an improved prototype, working towards its industrial manufacturing.
The design is a new forensic technology that improves the current standard body bag, while remaining affordable and functional, termed the Better Body Bag (BBB). The primary goal of the Better Body Bag is to delay decomposition and improve visual identification by influencing three key variables:
Firstly, the better Emergency Body Bags can hold a vacuum. The mechanism that is used limits the body from interacting with an exterior environment, including oxygen, restricting aerobic bacterial proliferation or insects. This vacuum is easily created with the help of a standard hand pump that does not require electrical infrastructure.
Secondly, it controls the temperature inside the bag by having an outer light-deflecting layer.
Thirdly, it controls bodily fluids associated with decomposition by using a superabsorber pad, preventing any leaking in the rare event of a puncture.
Additionally, it aims to improve the working conditions of humanitarian actors that manage the dead after catastrophes or armed conflicts. The bag has a closing mechanism that provides a hermetic seal, barrier to gases, odours and organisms that can emanate from inside the bag. An additional improvement of the BBB can be seen in its practicality in forensic procedures by supporting the handling, documentation, and identification of the deceased. A patented foil makes the bag 30% lighter than the existing model. Furthermore, this design decreases the likelihood of ruptures and punctures.
Preliminary biological and load testing, undertaken by the forensic department of the International Committee of the Red Cross who have been financially supportive and to whom the first 100 prototype bags were provided, demonstrates that the bag successfully held a vacuum and slowed decomposition. A peer-reviewed research study is underway, in association with the Taphonomic Research in Anthropology: Centre for Experimental Studies of the University of Central Lancashire, to verify results and explore the full potential of the better body bag. The Taphonomic research will focus on molecular as well as whole body preservation in the new Medical Body Bags using three time interval points in two separate locations across two continents with differing temperature points (United Kingdom and Thailand). A future blogpost from us will provide further details on the process.
Through this HIF-funded project, SSRa will now focus on industrial manufacturing of the Better Body Bag, where the first 10,000 bags deployed in the field will be specifically monitored by ICRC. Regular feedback and improvement circles will ensure optimal performance and usability in the real deployment conditions.
We look forward to advancing in this project and sharing with you, in the form of blog posts, the reflections we make along the way.
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Some Packaging Types to Consider
It is clear that packaging plays a large role in the perceived value of a product and as a whole, the packaging industry really hasn’t changed too much in the past years, compared to the constant innovations made in portable technology. With all the packaging and Color Box choices available in today’s market, it often becomes difficult to select the most appropriate packaging solution for your product. Let’s take a look at some of the different types of packaging options you can use to enhance your product & customer experience!
Paperboard boxes
Paperboard Gift Box is a paper-based material that is lightweight, yet strong. It can be easily cut and manipulated to create custom shapes and structures. These characteristics make it ideal to be used in personalized packaging. It is made by turning fibrous materials that come from wood or from recycled waste paper into pulp, and then bleaching it. Paperboard packaging comes in various grades, each suitable for different packaging requirements.
SBS (or solid bleached sulfate) paperboard can be used for packing cosmetics, medicines, milk and juice, cosmetics, frozen food and more. Choosing kraft, or CUK (coated unbleached kraft) paperboard packaging is for those who prefer the natural and environmentally-friendly look of recycled paper, which can be used for similar packaging applications. Kraft is often seen to be less resistant to moisture, making it less suitable for food-related products, or frozen-goods packaging. With the right combination of design options, paperboard packaging can look high-end, without high-end pricing.
Corrugated boxes
Corrugated boxes simply refer to what is commonly known as: Cardboard. Corrugated boxes are the ones many probably consider as ‘cardboard’ as it produces the large shipping, shoe & storage boxes. What a lot of people do not realize is that corrugated boxes also come in different types depending on the durability and strength of the Food Packaging Box. Identifying a certain corrugated material, however, is easy. How do you determine the material? Through its corrugated medium (also known as fluting). Identifying a corrugated material is easy. It consists of 3 layers of paper, an outside liner, an inside liner and a corrugated medium (also known as fluting). The corrugated medium that gives it strength and rigidity.
Rigid boxes
I’m sure you’ve always wondered the type of box they used to package iPhones or those luxury retail products such as Rolex, Tiffany & Co and Marc Jacobs. You have a sense that it’s a type of cardboard but still wasn’t sure because of its durable and premium appearance. This type of cardboard material is called a rigid box.
A rigid box is made out of a highly condensed paperboard that is 4 times thicker than the paperboard used in the construction of a standard folding carton. The easiest real-world example of rigid boxes are the Scodix Craft Boxes which holds Apple’s iPhones and iPads, which are 2 piece setup rigid boxes.
Compared to paperboard and corrugated boxes, rigid boxes are definitely among the most expensive box styles. The rigid boxes usually do not require dies that are expensive or massive machinery and are often hand-made. Their non-collapsible nature also gives them a higher volume during shipping, which easily incurs higher shipping fees.
Poly bags
A poly bag, also known as a pouch or a plastic bag, is manufactured out of flexible, thin, plastic film fabric. It is one of the common types of packaging and can carry a wide range of products including food items, flowers, waste, chemicals, magazines, and so on.
Poly bags are durable yet lightweight, reusable and flexible same with Paper Bags. Since poly bags are structurally simple to make, it can be fully customized in design, style & sizes but still remain cost-effective. Plastic recycling is also possible with poly bags, depending on the construction. Most of the poly bags are made with security features, tape attachments, hanging holes, and carrying handles to make sure the products are well secured and visually appealing to the customer.
Young designers might be so focused on the shape, color, and cut of their dress, they may not give much thought to clothing Garments Tags that are added after production. The same goes for consumers; how an item of clothing looks and what it costs tend to be the main concerns for buyers, but clothing labels shouldn’t be ignored so easily. Clothing labels offer important information about the product, information which might just be the difference between an item being purchased or put back on the rack.
One of the most important aspects of clothing labels is the description of the materials the item is made from. Today’s consumers are more environmentally conscious than they’ve ever been, and not all materials are made the same way. With so many materials made from plastic (lycra, polyester, nylon for example), consumers now have a real ethical choice about which clothes to buy.
The world of digital content is changing so rapidly with the rise of mobile, video, AR, VR, big data, little data, that many publishers may forget that print content is evolving too. New technologies in the Book Printing industry are creating opportunities for publishers to streamline their operations, distribute their books faster, and develop new revenue streams. Digital book printing, which encompasses both inkjet and toner applications, allows publishers to take the pulse of the market and adjust their strategy as demand wanes or surges for individual titles. This responsive approach is something that is not possible with offset printing alone, a model where publishers must guess how a book might perform and take on greater risk.
Yet despite the benefits of digital book printing, many publishers, particularly large trade publishers that rely on bestsellers for their income, have been hesitant to adopt. The reasons for this hesitation range from concerns over the quality and cost of digital printing to challenges related to adjusting workflows and infrastructure. While all of these objections have some validity—publishers cannot yet print large, four-color runs affordably on inkjet presses, for example—significant strides have been made in all of these areas. Book manufacturers continue to invest in faster and higher-quality digital printing presses as well as the backend technology that enables publishers to send PDF files to manufacturers who can print the same day—or even immediately.
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Do different hair brushes make a difference?
Everyone who has hair, brushes their hair, though you may never have given much thought to the kind of brush you use. Using the right Hair Brush for your hair and your styling needs can make a difference in your hair’s health and appearance.
The appropriate brush for someone with long, curly hair will be drastically different than the best brush for fine or thinning hair.
Some brushes, like the round or vented kind, are best for styling, while others work to detangle, and some may even remedy static and frizz. Here we’ll cover different types of brushes and what they can do for your hair.
Types of hairbrushes and combs
There are so many different kinds of hairbrushes and combs available, it can be overwhelming to know which one is right for you. Depending on the type of hair you have, you may want to use a specialized brush.
Wet hairbrush
The original Wet and Dry Hair Brush is an affordable option. Its fine, soft bristles are strong enough to work through the toughest knots, and soft enough not to cause damage to wet hair. The American Academy of Dermatology Association warns against brushing wet hair because it’s more prone to breakage. However, if you have very textured or curly hair, brushing when wet is a good idea. They typically have heat-resistant bristles that won’t melt or break when blow-drying hair.
Paddle brush
The wide base of Paddle Hair Brush enables them to cover a lot of ground quickly while smoothing hair. They’re a great choice for people with long, straight hair.
Vented brush
A Vented Hair Brush is the best choice for quick blow drying soaking-wet hair. The vents allow hot air to flow through, reaching all layers of hair.
Round brush
Round Hair Brush is a good choice for blow-drying hair and styling loose waves. They’re fully circular, which makes it easier to blow the hair under, resulting in curls or waves (depending on the size of the brush).
Rat tail brush
Rat tail brushes and combs are teasing brushes with a long, thin stem that can be used for separating and lifting sections of hair to tease and create more volume. Curly-haired people may prefer to use a sturdy, wide-toothed Hair Comb while in the shower. This can help prevent frizz and breakage that can come with combing dry curly hair. Detangling brushes with stiff bristles also work well.
If you are wondering about the best way to exfoliate and rejuvenate your skin, Body Brush is an option that offers many benefits. But before you grab a brush and start going to town on your skin, it is important to know how to do it correctly and which areas should be avoided during the process.
What is dry brushing?
If you are not sure what dry brushing your skin is, it is a daily body massage with a dry, stiff-bristled brush that is said to help get rid of flaky skin, increase circulation, detoxify, help digestion – and even improve the appearance of cellulite.
But are these claims true?
“Some are true, but definitely not all,” says dermatologist Shilpi Khetarpal, MD. Keep reading to discover some helpful dry brushing tips and watch-outs for working on sensitive skin.
For so many of us, life was once spent in several other locations besides our residences: the office, the car, a neighborhood restaurant, a family or friend’s place. But the pandemic shut everything down, rendering us homebound. Suddenly, we were, quite literally and constantly, staring at our walls for months on end. And their blankness began to bug us.
So how to fill them? Art, sure—but art can be intimidating to pick out, and expensive. Mirrors, however, are a simple yet effective way to fill the void. “Mirrors are an accessible and foolproof way to fill in wall space without having to put too much creative energy behind it,” CB2’s product development lead, Andrea Erman, tells Vogue.
Accordingly, it’s not the plain-framed, rectangular wall mirrors that are trending. Rather, it’s more decorative ones that double as aesthetic accents. “They’re statement pieces,” Erman explains. Emily B. Collins, the director of New York Design Center’s The Gallery at 200 Lex, agrees: “Most people that shop The Gallery at 200 Lex aren’t necessarily looking for mirrors to check their reflection or do their makeup in, but to instead act as an alternative to art.”
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Benefits of Cordless Tools
Since 2005, significant leaps forward in motors and tool electronics, coupled with advancements in lithium-ion, have pushed the industry to a point few would have considered possible 10 years ago. Today’s Cordless Tools deliver massive amounts of power and performance in a more compact package, and can even outperform their corded predecessors. The run times are getting longer, and the charge times are getting shorter.
Even so, there are still tradesmen who have resisted the shift from corded to cordless. For these users, there’s just far too much work to be done to let productivity be hindered by potential battery run-time, and overall power and performance concerns. While these may have been valid concerns even five years ago, the industry is now at a point where Cordless Car Washer is quickly taking over as the leading technology in numerous ways. Here are three trends to consider when it comes to the adoption of cordless solutions on the job site.
Reduction in Work-Related Injuries Due to Cords
The Occupational Health and Safety Administration (OSHA) has long reported that slips, trips and falls are a prevalent concern on job sites, accounting for more than one-third of all reported injuries. Trips occur when an obstruction catches a worker’s foot and causes him/her to stumble. One of the most common offenders of trips is cords from power tools. Cordless tools have the benefit of freeing job sites from the nuisances of having to sweep cords to the side or string extension cables across the floor, vastly improving the hazards associated with trips, but also freeing up more space for equipment.
You Won’t Need to Charge as Much as You Think
Run-time isn’t much of a concern anymore when it comes to Cordless Drill, rendering the age-old fight for the security of the cord a thing of the past. The move to more energy-dense battery packs means that professional users who use the tools extensively now rely on fewer battery packs to get through a work day. Pro users had six or eight batteries on-site for their Ni-Cd tools and traded them out as needed throughout the day. With the newer lithium-ion batteries now available, heavy-duty users need just one or two for the day, then recharge overnight.
Technology is More Capable Than Ever Before
Lithium-ion technology isn’t solely responsible for the enhanced features today’s users are seeing in their tools. A tool’s motor and electronics infrastructure are also key factors that can offer increased run-time and performance. Just because a voltage number may be higher, doesn’t mean it has more power. Because of many technological advances, Cordless Wrench power tool manufacturers have been able to meet and surpass higher voltage performance with that of their cordless solutions. By tying brushless motors to the world’s most capable electronics packages and most advanced lithium-ion batteries, users can truly push the boundaries of cordless tool performance and experience the enhanced productivity it provides.
Cordless: Safety and Process Improvements Inherent
The innovations surrounding Cordless Polisher has also led to opportunities that allow manufacturers to enhance other aspects of the tools, and impact the safety and efficiency of an overall process. Take the following two cordless tools for example.
By utilizing their M18 FUEL technology, Milwaukee Tools introduced the first-ever, 18-volt cordless magnetic drill press. The tool utilizes permanent magnets so that the magnetic base operates without electricity; ensuring that the magnet does not deactivate if the battery is drained. Equipped with Auto-Stop lift-off detection, power to the motor is automatically cut if excess rotational motion is detected while drilling.
Milwaukee’s M18 FUEL Grinder was the first cordless braking grinder on the market with corded performance. Its RAPID STOP brake stops accessories in under two seconds, while an electronic clutch reduces kick-back during bind-up. These types of new-to-the-world innovation wouldn’t have been possible without the complex interworking of lithium-ion, motor technologies and electronics.
Managers specifying Power Tools for technicians might assume that tools are similar and likely to function about the same. There are major differences among power tools, and one important difference lies in their features and functions. These elements make a major difference in achieving productivity goals: quality, quantity, safety, timeliness, and cost.
Spotlight on saws
Portable Angle Grinders have become workhorses of many maintenance departments. They perform a variety of tasks and come in a number of different styles: circular, reciprocating, miter, band, and chain.
Managers first should take a close look at saws’ shared features — power capacity, weight, corded or cordless, ergonomics, and safety. If all of a department’s power tools are the same make and powered by a common battery pack, technicians will need only one charger and a few battery packs to power all tools.
Making a match
Before specification managers should perform a survey of recently completed jobs that involved Electric Drills in order to identify the power, versatility, and durability factors that technicians need for high-productivity performance.
Did the tools used perform well? What were the shortfalls, if any? What characteristics would have enabled the technician to improve job quantity and quality and lower cost while still working safely? Three factors – job preparation, setup and tool change at the job site, and tool use during the job — are important considerations.
The more multi-tasking capability an Electric Router offers, the better tool utilization will be and the fewer tools technicians will require. In the wood screw assembly example above, one driver performs both drilling and driving. Coupled with quick chuck rotation from one driver to the other, the result is a high-productivity system that gets a quality job done fast with less labor at a lower cost. By using a predetermined time system, managers and technicians can make a side-by-side comparison of several method times to identify the best time before making a purchase.
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Keep things tidy in industrial companies with tool cabinets
Employees in workshops and industrial companies have to use a vast array of tools and small parts as part of their day-to-day work. Tool Cabinets and shelving units can provide invaluable help by enabling you to organise workflows more effectively. They allow the various items to be clearly sorted so that they are quick to find when needed. As a result, your employees do not have to waste time looking for the tool they need. The tools and devices are also securely stored away, and are unaffected by dirt or contamination.
The following criteria should be considered when selecting a tool cabinet:
Door selection
Traditional Combination Tool Cabinets are equipped with drawers. Different heights are available for the drawer fronts, enabling you to choose the perfect configuration for your needs. Standard tool storage cabinets and machine auxiliary cabinets are usually equipped with swing doors. However, you can also opt for sliding doors or roller shutters, particularly if space is at a premium. Doors with viewing windows make life easier for employees by letting them see what is inside the cabinet.
Fully equipped or self-configured tool cabinets
Many manufacturers let you choose between two types of drawer cabinets. Fully equipped Workshop Tool Trolley comes pre-assembled with specific drawers and storage shelves. The other option is self-configured steel cabinets, where you choose an appropriately sized casing and the drawers and storage shelves you need. Please note the distinction between the casing height and the usable height here (casing height – 100 mm = usable height).
Drawer cabinet, universal cabinet or special cabinet
The purpose for which you need the cabinet is also crucial to making sure you make the right choice. When it comes to storing tools, drawer cabinets are mainly used. If you need to store lots of different items, a universal cabinet with swing or sliding doors and storage shelves is the best solution. These cabinets are also available with open storage bins, which are ideal for storing large numbers of small parts. When it comes to machining, special CNC cabinets are available that can securely and clearly store your expensive CNC tools. If you need to protect your tools against damage from electrostatic discharge, then conductive ESD tool cabinets are the ideal choice.
If there's one constant in woodworking benches of today and of yore, it's their very diversity, but simply put, a good bench is one that perfectly suits its user's needs.
In ancient times, the woodworker’s bench consisted of a plank or split log with four splayed legs. Descendants of those benches are manufactured today, usually with a top of hardwood slabs glued together. The norm nowadays is four straight legs supporting the bulk above, often with braces and a shelf below. Despite the improvements, the linkage to Greek and Roman antecedents is still evident. Workshop Workbenches have flat tops, though sometimes at the rear there is a cavity called a tool well that contains tools and components (and prevents them from falling off). One advantage of having the well set into the top of the bench is that, even with a variety of objects in the well, a large sheet of material can still be laid flat over the entire surface of the bench; the contents of the tool well offer no interference.
Not all laboratories are alike. Some have basic requirements. Some have Electro Static Dissipative (ESD) requirements. Some have cleanroom requirements. And, still other laboratories require sterilization processes or microbial protection for the work they do. These labs call for specialized laboratory furniture. In these lab environments, stainless steel cabinets and furniture are the “go to” option.
Why? Because stainless steel has unique properties that make it a perfect fit.
Stainless Steel Cabinets offer a sleek, modern look to any workspace. Because they are easy to clean and maintain, they can keep that shiny look with a simple all purpose cleaner and quick polish. Stainless steel also includes an invisible layer of chromium oxide. This protects the stainless steel material from stains and corrosion, allowing the material to retain its sleek, new appearance. It’s no surprise that because of the high-end look that stainless steel provides, it is one of the most popular materials in homes and several types of work environments.
Warehouse racking, also known as storage or pallet racking, is a material handling system suitable for mass storage of goods unitized on skids or pallets. It allows efficient utilization of space while providing easy access to stockpiled items for better inventory control. Shelve Racks are used by manufacturers for mass storage of mostly non-perishable products when storage space is not enough. Palletized products are usually stacked up to not more than three layers before it becomes unsafe and prone to collapse. A racking system enables the manufacturer to store palletized products up to five to seven stacks high, depending on the available height.
Deciding on which is better, cardboard boxes or Folding Plastic Boxes, really does come down to what you are looking to do with the box – and perhaps what you might want to do with the box after you have used it.
And you may be surprised by how environmentally friendly each is when considered across its lifetime.
For starters, let’s look at cardboard storage boxes with lids. These offer protection for goods and items and, to a limited extent, can be stacked up securely. They are easy to label and, can be extremely cost efficient.
Cardboard storage boxes can be used for a wide range of uses. They can be used for sending fragile items through the post, be it books, mugs, DVDs and more. They can, with the right inserts, also be used to ship and store wine bottles, leveraging the natural protective qualities of strong cardboard to protect the contents.
In fact, cardboard boxes come in such a large variety of shapes and sizes – and with a cornucopia of opens and flaps – that they can be used for almost any storage or shipping purpose. There are long boxes, flat boxes, pallet boxes for stacking on pallets, as well as boxes for shipping and even specialist uses. You can even tailor your box to your product with our adjustable and telescopic cardboard boxes.
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