- Created: 11-08-21
- Last Login: 11-08-21
Description: Food additives are chemicals added to foods to keep them fresh or to enhance their colour, flavour or texture. They may include food colourings (such as tartrazine or cochineal), flavour enhancers (such as MSG) or a range of preservatives. Safety tests for food additives Food Standards Australia New Zealand (FSANZ) is responsible for the approval of which food additives are allowed in Australian foods. All food additives used in Australia undergo a safety assessment, which includes rigorous testing before they are approved. Toxicological tests on animals are used to determine the amount of the additive that is expected to be safe when consumed by humans. This is usually an amount 100 times less than the maximum daily dose at which ‘no observable effects’ are produced by an additive consumed over the test animal’s lifetime. If there is any doubt over the safety of an additive, approval is not given. If new scientific information becomes available suggesting that a food additive is no longer safe, the approval to use the food additive would be withdrawn. Most food additives are tested in isolation, rather than in combination with other additives. The long-term effects of consuming a combination of different additives are currently unknown. Plant Extracts: The Original Food Additives Plant and herb extracts have long been used to enhance the healthfulness, color, and even taste and flavor of foods, beverages and supplements. With an often “natural” positioning, their popularity is assured. Ginny Bank, Contributing Editor October 2011/NutraSolutions -- In 399 BC, the Greek philosopher Socrates was executed by drinking an infusion of the poisonous hemlock plant. In ancient Egypt, Cleopatra used henbane extract to dilate her eyes and make her appear more alluring. Also in Egypt, red fabric found in the tomb of King Tut contained alizarin, a pigment extracted from the roots of the madder plant. While such historical accounts documenting human use of plant-based extracts can be traced back over 3,000 years, their use is possibly as old as civilization itself. From the very first Chinese dynasties, Mesopotamia and ancient Greece, and westward to the empires of Mesoamerica, early civilizations had a surprisingly sophisticated understanding of botanicals and their extracts, especially for use as medicine. Flowers, fruits, roots, bark and leaves of plant material were extracted by various techniques to concentrate not only their therapeutic properties, but also their pigments, aromas and flavors. The simplest method of extraction, used for plants that have high oil content, was the expression of the essential oils. Other techniques included steeping the plant part in water to make an infusion (also known as a tisane) or mashing them and boiling in water to make a decoction. This method was also used to make natural dyes, sometimes boiling the decoction for days to concentrate the pigments further. Elixirs were produced by extracting the plant parts in alcoholic beverages to dissolve the active components. Today, the use of plant extracts to flavor, color and improve health are not that different from ancient times. Even the extraction methods are fundamentally the same. And, with hundreds, if not thousands, of years of traditional use behind many plant extracts, their safety (and often their efficacy) has been well-documented. Even so, when one takes into account the massive number of plant-based extracts used in traditional medicinal systems, such as Ayurveda and traditional Chinese medicine, very few are approved for use in foods or have Generally Recognized as Safe (GRAS) status. This may be changing, as self-affirmation of GRAS status for such ingredients is steadily increasing. Within the last 18 months alone, a number of extracts received GRAS status through self-affirmation, with or without FDA notification Pharmaceutical manufacturing is a strictly regulated, process-driven industry. A mistake in manufacturing can be costly in the best-case scenario and at worst, it can be life-threatening, particularly if a product has reached consumers. The industry must adhere to numerous guidelines that are laid out by the Food & Drug Administration (FDA), for example, the Current Good Manufacturing Practices (cGMP). Product quality is at the center of cGMP, which assures the correct monitoring, design, and control of manufacturing facilities and processes. cGMP also supplies guidance for how to attain quality raw materials, in addition to the preferred management processes and systems for maintaining optimum laboratory testing procedures. All factors play a key part in the effectiveness and safety of pharmaceutical raw materials. For manufacturers, adherence to cGMP is a necessity, and while quality and safety are top priorities in the pharmaceutical industry, these guidelines do introduce more challenges in the manufacturing process. Medical apparatus and instruments refer to instruments, instruments, implants, extracorporeal reagents or similar or related items used to diagnose, prevent or treat diseases or other medical conditions, and are not achieved by chemical effects (such as drugs) in the body or in the body Its purpose. The main goal of any medical device is to improve the patient’s daily quality of life or well-being during diagnosis, treatment, and/or medication. Over the last decade, the medical device industry is a fast-growing and demanding industry. Advances in design, materials, and technologies have increased the potential to develop improved solutions for all medical applications. These advances have managed to supply the clinicians with new products, tools, and procedures, supporting them in their work by making surgery, diagnosis, or treatment processes easier than ever before. These advances have also aimed to reduce both lead times and costs in the production of existing medical devices, reducing global healthcare costs. Due to this fact, medical devices are a hot topic among the industrial and academic domains regarding issues such as design, materials, prototypes, or manufacturing processes. Fine and specialty chemicals are a not sharply defined chemical substances that are usually produced in small quantities and on special customer request. Fine chemicals are chemical substances that are obtained by means of complex syntheses and have a guaranteed degree of purity. Specialty chemicals is the broader term and generally includes chemical substances for special applications where the effect is what counts most. You can use disposable protective gloves to protect your hands from any kind of hazard. There are three main types of disposable safety gloves. There are latex gloves, which are manufactured from natural rubber. Nitrile gloves are produced from synthetic nitrile rubber. And vinyl gloves are made from synthetic plastic polymer. Whichever type of glove you decide to use, you should always ensure that it is suitable for your kind of industrial application. Disposable gloves are usually manufactured with a service grading. The service grade of a disposable glove indicates the type of industry that it should be used. This article looks at the various uses of disposable gloves according to industry. Medical Usage Disposable safety gloves are some of the most commonly used safety products in the healthcare industry. These gloves are worn to prevent cross-contamination between patients and medical staff. They are also used for general hand protection when handling various sensitive things in a medical setting. Disposable gloves that are used in the healthcare industry are referred to as medical gloves. Medical disposable gloves are tested and approved by the U.S. Food and Drug Administration (FDA). These gloves are worn by surgeons, doctors, laboratory technicians, nurses, caregivers, dentists and all other medical personnel. Blue disposable gloves are most popular for healthcare use, but you can also get medical safety gloves in various shades of pink, purple, and even grey. These gloves undergo several rounds of testing including leak and puncture testing, and visual defect examination. The FDA allows only premium grade medical safety gloves to be marketed. Food Service Usage There are special disposable gloves for use in the food service industry and restaurants. These gloves are also tested and approved by the FDA. Food service gloves are worn by chefs, waiters, and various hospitality personnel. Food service gloves are used to prevent cross-contaminating during food preparation and service. Like the medical disposable gloves discussed above, food service gloves undergo serious testing before they can hit the market. Food service gloves are usually white in color to Accenture the cleanliness or sterility of the hospitality industry.
Publish Date: 11-08-21
Description: Remember the feeling when you picked up your first iPhone? Taking off the plastic seal and feeling the sleek white box? By touching the box for the very first time you already felt the importance, quality & significance of this device. This is no coincidence! We meticulously strategized how they were going to package their product to align with their branding of providing top of the line product innovation & consumer experience! 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 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! 1. Cardboard boxes Paperboard 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 are 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. 2. 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 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. 3. PVC boxes Plastic is used in a wide range of products, from spaceships to paper clips. A number of traditional materials, such as wood, leather, glass, ceramic, and so on, have already been replaced by plastic. PVC box packaging has many advantages in which they can be recycled, and generally they are much more durable than paperboard boxes. Airtight plastic packaging containers can help to preserve the quality of food and eliminate any contamination issues. Plastic packaging also does not break easily and can be stored with food under extreme conditions. Another reason why plastic is a popular choice for packing material is because of its ability to showcase the product at any angle without necessarily opening the packaging. It is also flexible, lightweight and can be applied with films or coating to enhance packaging appearance. Contrary to popular belief, plastic is in fact recyclable, in the sense that it takes less energy to produce new plastic, compared to glass, and other materials. Best of all, it is very cost effective! 4. Paper tube packaging Paper tube packaging is becoming popular globally. It provides a unique packaging alternative. Paper tube packaging is lightweight that makes it easier to transport. They also provide good protection to the packaged product from damage and contamination. It is also eco-friendly and thus contributes to conserving the environment. Paper tube packaging is being widely used in different industries like cosmetics, food products, etc. The packaging industry has seen a move towards sustainable packaging. Product packaging that is not eco-friendly creates unnecessary junk that ends up either in landfills or into ocean beds. Such packaging is harmful to the environment. Customers are becoming more aware of the dangers of non-degradable packaging and are preferring products using eco-friendly packaging. Paper tube packaging is 100% eco-friendly. It is biodegradable and does not leave behind harmful packaging waste. Paper tube packaging can be easily recycled which saves a lot of energy and resources that would have gone into preparing fresh packaging. Using paper tube packaging helps you to position your brand and product as eco-friendly. This will provide you a competitive edge in the market and attract more customers into buying your product. 5. Paper bags Paper bags have been part of trade and commerce for more than centuries. Traditionally cloth and jute bags were used to pack goods in larger quantities during its transfer from manufacturer or farms to retailers and shopkeepers then used the paper bags to distribute smaller quantity goods to end customers. In fact, paper bags are still used by small food retailers like – sweetshop owners, street food vendors, bakers and by small vegetable sellers. On the other hand, a waterproof paper gift bag’s structural firmness and surface feature made it ideal to print high-quality images, logo, designs better as compared to a plastic bag, and that made paper bags a hit for fashion, luxury and premium gift packaging industry. This trend has gained popularity owing to the people and businesses becoming more aware of the ecological surroundings. Also, several individuals want to use paper bags because they are easy to carry, clean and can hold items for a good duration of time.
Publish Date: 11-08-21
Description: As you can imagine, there are several ways to move, stack, carry, store and prep material when deciding upon the correct material handling equipment. This may seem a bit more simplistic than it is but, in general, it takes a lot of consideration when creating the specific product material flow. Additionally, there are a lot of choices when it comes to the equipment used to move material, store it and potentially assemble it. Material handling equipment can be any apparatus that helps move, store, protect and even control material. The options seem limitless. Categories of Material Handling Equipment There are four generalized categories of material handling equipment. The first is wire container. Generally, it consists of the JP wire containers and EU mesh containers. The next category of material handling equipment is any roll container. The third category of material handling equipment consists of pallet containers. The last material handling equipment category refers to storage racking systems. Determining the Right Container for Material Handling When companies purchase containers for material handling, they tend to shop based on container type, size and availability. The size of the container depends on required holding capacity and the footprint of shop storage space. This is generally the starting point for many purchasing departments who receive specifications from their shop personnel for container use. Pallet racks have played an essential role in maximizing storage capacity at warehouses and distribution centers for decades. An important part of industrial pallet racking design is the selection of rack decking, which acts as a base for storing cases or non-palletized items in conjunction with palletized products. By increasing the number of contact points between the product being stored and the storage media, decking reduces the chance of products falling – increasing overall warehouse safety. Naturally, not all decking solutions are created equal. One of the most versatile and popular choices, and the topic of this article, is wire decking. If you’ve decided wire decking is the best option for your warehouse or distribution center, you still need to decide which options will work best. Below are 4 things to consider when selecting the best wire decking for your application. 1. What are you storing? The most important factors when selecting wire decking are the weights and overall dimensions of the products that will be stored on it. Unless specifically designed to do so, wire decking is not intended to support the full weight of a pallet (point load) and can warp or collapse under the pressure. This creates a significant safety risk and is one of the most common mistakes we see in the field. 2. How will you be using your wire decking? Will you be storing full pallets, individual pieces of equipment, or loose cases? Pallet racking can accommodate all the above, but it is important you consider the overall use of decking in your design. One very common use of wire decking is the storage of individual cases. Some companies refer to this as “hand stack”. If this is your intended use, you should consider increasing the density of the wire mesh grid. Standard grid densities are typically 2”x4”, 2.4”x4” or 2.5”x4.5”. When “hand stacking,” consider selecting a grid size of 1”x2” or 1”x4”. There are also design enhancements that can be incorporated into wire decking to help with your specific application. For example, the 90-degree turn at the front and rear edges of the wire deck, called waterfalls, can be configured upwards to help prevent products from sliding off the deck. There are also different accessories like dividers that clip onto the wire deck itself to help with organization. If your intended use is order picking, you could also consider sloping the wire decking to make it easier to access products. 3. In what type of storage media will the wire decking be going? Are these wire decks for bulk shelving or pallet box? If the answer is pallet racking, is it roll-formed or structural? Manufacturers can differ slightly on the overall dimensions of their beams (horizontal members) and uprights (vertical members), so it’s important to check the sizing to ensure a good fit. Bastian Solutions has many years of experience working with all pallet racking manufacturers and can help in this selection process. 4. In what environment will the wire decking be going? Is the wire decking going into a freezer or cooler? Will it be stored outside or in a facility where food is present? In most applications, a standard paint finish of backed on or powder coated enamel is fine. However, in environments where moisture or oxidation are concerns, galvanized or stainless steel should be considered. Another consideration is whether wire deck channels should be inverted or flipped upside down. By inverting the wire decking channel, you can help mitigate the buildup of moisture, dust, dirt and other debris. This practice is commonly found in the food storage industry to promote a cleaner environment.
Publish Date: 11-08-21