July 20, 2022 admin
Protect Your Hand With The Right Gloves
Use the Correct Safety Gloves to Protect Your Hands:
When working in hazardous environments, you must be more cautious about your safety. PPE is required to keep you safe while working in such areas. Hands are injured more frequently than any other body part. This is due to the fact that you typically use your hands to hold and move things at work. Whether you work in a chemical factory, a restaurant, or a glass factory, your hands are exposed to a variety of hazardous tasks on a daily basis. Only a high-quality safety glove will keep your hands safe from burns and injuries. Potential hazards to hands and arms include chemical or thermal burns, electrical hazards, bruises, abrasions, cuts, punctures, fractures, or amputations. Gloves, finger guards, and arm coverings are examples of protective equipment.
How Hand Gloves Keep Your Hands Safe:
You might come across fashionable hand gloves worn as an accessory by bikers. People also wear hand gloves during the winter months to keep their hands warm, especially in hilly areas. Gloves included with the PPE kit, on the other hand, are designed and manufactured with more serious goals in mind. They are designed to protect your hands from common workplace injuries and burns.
From construction sites to chemical laboratories, and from the medical industry to machine manufacturing plants, these gloves are widely and routinely used in all of these industries.
These hand gloves are made of leather, rubber, metal, and wool. The material is chosen based on the type of work or industry pattern in which the product will be used. Metal gloves, for example, are commonly used in industries where people must deal with sharp objects. Rubber gloves, on the other hand, are used in chemical factories and labs depending on the chemicals.
Hand Protection Gloves and How to Choose the Best One:
Safety gloves are an essential piece of personal protective equipment (PPE) that workers in a variety of industries must wear to avoid injury on the job. Gloves are a kind of second skin for these workers, allowing them to handle hazardous materials, chemicals, and tools without sacrificing the dexterity required to perform their jobs skillfully.
Gloves, like all other safety equipment, are not a generic product. Workers must be equipped with the appropriate type of glove for the job they will be performing and the specific hazards they may encounter in order to be safe.
There are several factors to consider when choosing the best safety glove. But, arguably, the most important factor is the glove’s material and the protection it provides
Types of Hand Protection Gloves:
1. Fabric or cotton gloves:
These gloves provide a thin, breathable layer of protection between the worker’s skin and the tools and materials they are handling. Fabric gloves offer little protection against punctures, jagged objects, open flames, and hot surfaces. They are, however, useful for keeping hands clean and preventing minor scrapes and abrasions. Fabric gloves are sometimes worn as liners inside larger safety gloves to add warmth.
2. Coated Fabric Gloves:
These are general-purpose gloves that outperform standard fabric gloves in terms of puncture and cut resistance, protection from the alkalinity of concrete products, and chemical resistance.
Latex, nitrile, polyurethane, and PVC are some of the materials that can be used to make the coatings. A risk assessment can be used to determine the best coating for a given job.
Although this glove style is popular, some coatings are known to become less flexible in colder working temperatures. They are also less insulating than uncoated gloves.
Furthermore, while coated fabric gloves provide some chemical resistance, they should not be used in place of a dedicated chemical glove when one is required.
3. Latex and Nitrile Gloves:
Latex and nitrile gloves are commonly used in laboratories and healthcare settings to protect against:
These gloves are form-fitting (when the proper size is worn), allowing for greater dexterity when manipulating small items and performing precision work. However, latex and nitrile gloves do not offer adequate protection against punctures or sharp and abrasive surfaces.
4. Leather gloves:
Leather gloves provide a good grip, spark resistance, and protection from sharp or abrasive surfaces. They also shield the wearer from moderate levels of heat, such as welding heat or friction from a rope sliding across the palms.
When properly cared for, leather gloves are extremely durable, but they can harden or shrivel when exposed to excessive heat. When not worn with a liner, they can also dry out the hands.
5. Aluminized Gloves:
Aluminized gloves are designed to withstand heat. They are appropriate for welding operations, furnace and foundry work, and high-heat oven use in laboratories. Their insulating and reflective properties can withstand temperatures of up to 2,000 degrees Fahrenheit.
6. Kevlar Gloves:
Kevlar is a heat-resistant para-aramid synthetic fibre with a molecular structure that is made up of many inter-chain bonds, which gives it its strength. This material has had a significant impact on industrial hand protection because it enables the creation of lightweight, durable gloves with exceptional resistance to cuts and abrasions.Kevlar is also used to make cut-resistant liners for various glove styles.
7. Puncture-Resistant Gloves:
These gloves are specifically designed to prevent hand punctures. These can be woven Kevlar gloves or gloves designed to look like fish skin. The latter employs a scale- or flake-like structure to deflect needle, shard, and other puncture hazards.
8. Impact-Resistant and Vibration-Resistant Gloves:
While vibrations may appear to be harmless, prolonged exposure to them can be harmful. Hand-arm vibration syndrome (HAVS) and the need to protect workers from it are becoming increasingly important to safety professionals.
Personal protective equipment provides some of that protection. Gloves that absorb impact and reduce vibration exposure to the hand, in particular.
Vibration-resistant gloves are used in fabrication work, where workers may use grinders frequently throughout a shift. They’re also common in the construction and automotive industries, where jackhammers and other pneumatic tools are frequently used for extended periods of time.
9. Gloves for Chemical and Liquid Resistance:
Chemical absorption through the skin can have serious short- and long-term health consequences. The safety data sheet (SDS) of a product will assist you in determining the appropriate level of protection required to keep workers safe while handling chemical products.
The following are some examples of chemical- or liquid-resistant glove materials and their applications.
a) Butyl Rubber:
These are typically used when workers will be in close proximity to a chemical substance for an extended period of time. They are also impervious to water and steam permeation.Butyl rubber is also used to protect against substances such as:
o Alcohols, esters, and ketones
o Nitric acid alkali
o The acid sulfuric
o Peroxides of hydrochloric acid
b) Natural Latex and Rubber:
Natural latex and rubber gloves are designed for incidental contact situations. They are appropriate for biological hazards as well as water-based liquids.
This material is commonly used in extended contact situations with materials such as:
o Fluids used in hydraulics
o Organic acids derived from gasoline
d) Nitrile Rubber:
Nitrile rubber is used to make versatile, general-purpose gloves that can withstand incidental contact (such as disposable exam gloves). In situations where extended contact is expected, thicker nitrile gloves are used. Nitrile gloves can protect the wearer from the following:
o Petroleum oils are solvents.
o Several acids and bases
Criteria for Safety Glove Selection:
Choosing the right glove for the job begins with an assessment of the specific risks and hazards that the user is likely to face. This includes minor injuries – even a scrape or a cut can lead to an infection that necessitates medical attention and time away from work.
Other factors to consider include:
• Glove size and fit: small gloves may tear, whereas large gloves may impair dexterity.
• Protection versus dexterity: a trade-off between these two factors is sometimes unavoidable, and you must decide how to prioritise them.
• Protection levels: Gloves provide varying degrees of protection against a given hazard, and you must ensure that the glove meets the task’s requirements.
• Wear and tear: Always look for signs of physical damage, such as tears, discoloration, or swelling, in gloves.
• Expiration: Never use a safety glove after the expiration date has passed.