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ASSESSING THE NEED FOR PERSONAL PROTECTIVE EQUIPMENT (PPE) OSHA OFFICE OF TRAINING AND EDUCATION

These materials were developed by OSHA’s Office of Training and Education and are intended to assist employers, workers, and others as they strive to improve workplace health and safety. While we attempt to thoroughly address specific topics, it is not possible to include discussion of everything necessary to ensure a healthy and safe working environment in a presentation of this nature. Thus, this information must be understood as a tool for addressing workplace hazards, rather than an exhaustive statement of an employer’s legal obligations, which are defined by statute, regulations, and standards. Likewise, to the extent that this information references practices or procedures that may enhance health or safety, but which are not required by a statute, regulation, or standard, it cannot, and does not, create additional legal obligations. Finally, over time, OSHA may modify rules and interpretations in light of new technology, information, or circumstances; to keep apprised of such developments, or to review information on a wide range of occupational safety and health topics, you can visit OSHA’s website at www.osha.gov. Protecting Employees from Workplace Hazards Eye and Face Protection Head Protection Foot and Leg Protection Hand and Arm Protection Body Protection Hearing Protection Assessing the Need for Personal Protective Equipment (PPE) OSHA standard 29 CFR 1910.132 requires employers to assess the workplace to determine if hazards are present, or are likely to be present, which necessitate the use of PPE Although not specifically directed to construction industry operations, this discussion will help you comply with OSHA’s general PPE requirements for the construction industry (see 29 CFR 1926.28) Consult the OSHA standards for specific requirements concerning selection and use of PPE Protecting Employees from Workplace Hazards OSHA regulations require employers to protect their employees from workplace hazards such as machines, work procedures, and hazardous substances that can cause injury Employers must institute all feasible engineering and work practice controls to eliminate and reduce hazards before using PPE to protect against hazards Engineering Controls If . . . You can physically change the machine or work environment to prevent employee exposure to the potential hazard, Then . . . You have eliminated the hazard with an engineering control. Examples . . . Initial design specifications Ventilation Substitution with less harmful material Enclosure of process Isolation of process Change the process Work Practice Controls If . . . You can remove your employees from exposure to the potential hazard by changing the way they do their jobs, Then . . . You have eliminated the hazard with a work practice control. Examples . . . Job rotation of workers Wet methods Personal hygiene Housekeeping and maintenance Examples of PPE Eyes - safety glasses, goggles Faces - face shields Heads - hard hats Feet - safety shoes Hands and arms - gloves Bodies - vests Hearing - ear plugs, earmuffs NOTE: Respirators and rubber insulating equipment (gloves, sleeves, blankets, etc.) are also considered PPE. However, because OSHA has specific requirements for them, they are not discussed in this general guide.   Checklist for Establishing a PPE Program   Identify steps taken to assess potential hazards in every employee’s work space and in workplace operating procedures.   􀂆 Identify appropriate PPE selection criteria.   􀂆 Identify how you will train employees on the use of PPE, including:   􀂆   What PPE is necessary   􀂆   When PPE is necessary   􀂆   How to properly inspect PPE for wear or damage   􀂆   How to properly put on and adjust the fit of PPE   􀂆   How to properly take off PPE   􀂆   The limitations of the PPE   􀂆   How to properly care for and store PPE.   􀂆 Identify how you will assess employee understanding of PPE training.   􀂆 Identify how you will enforce proper PPE use.   􀂆 Identify how you will provide for any required medical examinations.   􀂆 Identify how and when to evaluate the PPE program. 􀂆   CHECKLIST ON NEED FOR PPE SUGGESTED QUESTIONS TYPICAL OPERATIONS OF CONCERN YES NO EYES Do your employees perform tasks, or work near employees who perform tasks, that might produce airborne dust or flying particles? Sawing, cutting, drilling, sanding, grinding, hammering, chopping, abrasive blasting, punch press operations, etc.     Do your employees handle, or work near employees who handle, hazardous liquid chemicals or encounter blood splashes? Pouring, mixing, painting, cleaning, syphoning, dip tank operations, dental and health care services, etc.     Are your employees’ eyes exposed to other potential physical or chemical irritants? Battery charging, installing fiberglass insulation, compressed air or gas operations, etc.     Are your employees exposed to intense light or lasers? Welding, cutting, laser operations, etc.     FACE Do your employees handle, or work near employees who handle, hazardous liquid chemicals? Pouring, mixing, painting, cleaning, syphoning, dip tank operations, etc.     Are your employees’ faces exposed to extreme heat? Welding, pouring molten metal, smithing, baking, cooking, drying, etc.     Are your employees’ faces exposed to other potential irritants? Cutting, sanding, grinding, hammering, chopping, pouring, mixing, painting, cleaning, syphoning, etc.     HEAD Might tools or other objects fall from above and strike your employees on the head? Work stations or traffic routes located under catwalks or conveyor belts, construction, trenching, utility work, etc.     Are your employees’ heads, when they stand or bend, near exposed beams, machine parts, pipes, etc.? Construction, confined space operations, building maintenance, etc.     Do your employees work with or near exposed electrical wiring or components? Building maintenance; utility work; construction; wiring; work on or near communications, computer, or other high tech equipment; arc or resistance welding; etc.     FEET Might tools, heavy equipment, or other objects roll, fall onto, or strike your employees’ feet? Construction, plumbing, smithing, building maintenance, trenching, utility work, grass cutting, etc.     Do your employees work with or near exposed electrical wiring or components? Building maintenance; utility work; construction; wiring; work on or near communications, computer, or other high tech equipment; arc or resistance welding; etc.     Do your employees handle, or work near employees who handle, molten metal? Welding, foundry work, casting, smithing, etc.     Do your employees work with explosives or in explosive atmospheres? Demolition, explosives manufacturing, grain milling, spray painting, abrasive blasting, work with highly flammable materials, etc.     HANDS Do your employees’ hands come into contact with tools or materials that might scrape, bruise, or cut? Grinding, sanding, sawing, hammering, material handling, etc.     Do your employees handle chemicals that might irritate skin, or come into contact with blood? Pouring, mixing, painting, cleaning, syphoning, dip tank operations, health care and dental services, etc.     Do work procedures require your employees to place their hands and arms near extreme heat? Welding, pouring molten metal, smithing, baking, cooking, drying, etc.     Are your employees’ hands and arms placed near exposed electrical wiring or components? Building maintenance; utility work; construction; wiring; work on or near communications, computer, or other high tech equipment; arc or resistance welding; etc.     BODY Are your employees’ bodies exposed to irritating dust or chemical splashes? Pouring, mixing, painting, cleaning, syphoning, dip tank operations, machining, sawing, battery charging, installing fiberglass insulation, compressed air or gas operations, etc.     Are your employees’ bodies exposed to sharp or rough surfaces? Cutting, grinding, sanding, sawing, glazing, material handling, etc.     Are your employees’ bodies exposed to extreme heat? Welding, pouring molten metal, smithing, baking, cooking, drying, etc.     Are your employees’ bodies exposed to acids or other hazardous substances? Pouring, mixing, painting, cleaning, syphoning, dip tank operations, etc.     HEARING Are your employees exposed to loud noise from machines, tools, music systems, etc.? Machining, grinding, sanding, work near conveyors, pneumatic equipment, generators, ventilation fans, motors, punch and brake presses, etc.     Eye and Face Protection Criteria Protect against specific hazard(s) encountered by employees Comfortable to wear Must not restrict vision or movement Durable and easy to clean and disinfect Must not interfere with the function of other required PPE Meet requirements of ANSI Z87.1-1989 for devices purchased after July 5, 1994, and ANSI Z87.1-1968 for devices purchased before that date Eye Protection for Employees Who Wear Eyeglasses Prescription spectacles, with side shields and protective lenses meeting requirements of ANSI Z87.1 Goggles that can fit comfortably over corrective eyeglasses without disturbing their alignment Goggles that incorporate corrective lenses mounted behind protective lenses Face Shields Do not protect employees from impact hazards Use face shields in combination with goggles or safety spectacles when you must protect your employees from impact hazards, even in the absence of dust or potential splashes   Figure 1. Recommended Eye and Face Protectors Source: 29 CFR 1926.102 (a)(5) Table E-1 Eye and face protectors are identified below by number and type. Refer to Table 1 for recommended usage applications. 1. GOGGLES, Flexible Fitting, Regular Ventilation 2. GOGGLES, Flexible Fitting, Hooded Ventilation 3. GOGGLES, Cushioned Fitting, Rigid Body 4. SPECTACLES, Metal Frame, With Sideshields* 5. SPECTACLES, Plastic Frame, With Sideshields* 6. SPECTACLES, Metal-Plastic Frame, With Flat-Fold Side shields* 7. WELDING GOGGLES, Eyecup type, Tinted Lenses** 7A. CHIPPING GOGGLES, Eyecup Type, Clear Safety Lenses (not illustrated) 8. WELDING GOGGLES, Eyecup type, Tinted Plate Lens** 8A. CHIPPING GOGGLES, Coverspec Type, Clear Safety Lenses (not illustrated) 9. WELDING GOGGLES, Coverspec Type, Tinted Plate Lens** 10. FACE SHIELD (Available With Plastic or Mesh Window, Tinted/Transparent) 11. WELDING HELMETS** *These are also available without side shields for limited use requiring only frontal protection. ** See Table 2, Filter Lens Shade Numbers for Protection Against Radiant Energy.   Table 1. Eye and Face Protector Selection Guide Source: 29 CFR 1926.102(a)(5)   Operation Hazards Recommended protectors: (see Figure 1) Acetylene-burning, Acetylene-cutting, Acetylenewelding Sparks, harmful rays, molten metal, flying particles 7,8,9 Chemical handling Splash, acid burns, fumes 2,10 (for severe exposure add 10 over 2) Chipping Flying particles 1,3,4,5,6,7A,8A Electric (arc) welding Sparks, intense rays, molten metal 9,11 (11 in combination with 4,5,6 in tinted lenses advisable) Furnace operations Glare, heat, molten metal 7,8,9 (for severe exposure add 10) Grinding - light Flying particles 1,3,4,5,6,10 Grinding - heavy Flying particles 1,3,7A,8A (for sever exposure add 10) Laboratory Chemical splash, glass 2 (10 when in breakage combination with 4,5,6) Machining Flying particles 1,3,4,5,6,10 Molten metals Heat, glare, sparks, splash 7,8 (10 in combination with 4,5,6 in tinted lenses) Spot welding Flying particles, sparks 1,3,4,5,6,10 How dark do lenses on welding helmets and goggles need to be? The intensity of light or radiant energy produced by welding, cutting, or brazing operations varies according to a number of factors including the task producing the light, the electrode size, and the arc current. Table 2, Filter Lens Shade Numbers for Protection Against Radiant Energy, shows the minimum protective shade for a variety of welding, cutting, and brazing operations. To protect employees who are exposed to intense radiant energy, begin by selecting a shade too dark to see the welding zone. Then try lighter shades until you find one that allows a sufficient view of the welding zone without going below the minimum protective shade.   Table 2. Filter Lens Shade Numbers For Protection Against Radiant Energy Source: 29 CFR 1926.102(b)(1)   Welding operation Shade Number Shielded metal-arc welding 1/18-,3/32-,1/8-,5/32-inch-diameter electrodes 10 Gas-shielded arc welding (nonferrous) 1/16-,3/32-,1/8-,5/32-inch diameter electrodes 11 Gas-shielded arc welding (ferrous) 1/16-,3/32-,1/8-,5/32-inch diameter electrodes 12 Shielded metal-arc welding 3/16-,7/32-,1/4-inch diameter electrodes 12 5/16-,3/8-inch diameter electrodes 12 Atomic hydrogen welding 10-14 Carbon-arc welding 14 Soldering 2 Torch brazing 3 or 4 Light cutting, up to 1 inch 3 or 4 Medium cutting, 1 inch to 6 inches 4 or 5 Heavy cutting, over 6 inches 5 or 6 Gas welding (light), up to 1/8 inch 4 or 5 Gas welding (medium), 1/8 inch to ½ inch 5 or 6 Gas welding (heavy), over ½ inch 6 or 8   Checklist for Training Employees to Use and Care for Eye and Face Protection   Train your employees to know . . .   Why eye protection is necessary, i.e., the workplace hazards that threaten their eyes.   􀂆 How the eye protection will protect them.   􀂆 The limitations of the eye protection.   􀂆 When they must wear the eye protectors.   􀂆 How to put the protective eyewear on properly.   􀂆 How to adjust straps and other parts for a comfortable and effective fit.   􀂆 How the protective eyewear fits over or contains an employee’s corrective lenses.   􀂆 How to identify signs of wear such as:     Chipped, scratched, or scraped lenses; 􀂆 Loss of elasticity or fraying of head bands. 􀂆 How to clean and disinfect the safety eyewear. 􀂆 Head Protection You must provide head protection for your employees if: Objects might fall from above and strike them on the head They might bump their heads against fixed objects, such as exposed pipes or beams They work near exposed electrical conductors Head Protection Criteria In general, protective helmets, or hard hats, should: Resist penetration by objects, Absorb the shock of a blow, Be water resistant and slow burning, Come with instructions explaining proper adjustment and replacement of the suspension and head band, and Comply with ANSI Z89.1-1986 (if purchased after July 5, 1994) or ANSI Z89.1-1969 (if purchased before this date). Classes of Hard Hats Class A Used for general service (e.g., mining, building construction, shipbuilding, lumbering, manufacturing) Provide good impact protection but limited voltage protection Class B Used for electrical work Protect against falling objects and high-voltage shock and burns Class C Designed for comfort, offer limited protection Protect heads that might bump against fixed objects, but do not protect against falling objects or electrical shock Note: The terminology and designations used in ANSI Z89.1-1986 are different from those used in later editions of ANSI Z89.1.   Checklist for Training Employees to Use and Care for Head Protection   Train your employees to know . . .   Why head protection is necessary, i.e., the workplace hazards that threaten their heads.   􀂆 How the head protection will protect them.   􀂆 The limitations of the head protection.   􀂆 When they must wear the head protection.   􀂆 How to wear the protective head gear properly.   􀂆 How to adjust straps and other parts for a comfortable and effective fit.   􀂆 How to identify signs of wear such as:     Cracked, torn, frayed, or otherwise deteriorated suspension systems; 􀂆 Deformed, cracked, or perforated brims or shells; and 􀂆 Flaking, chalking, or loss of surface gloss. 􀂆 How to clean and disinfect the hard hats you provide for them. 􀂆 Foot and Leg Protection Some of the potential hazards that would require foot and leg protection include: Heavy objects such as barrels or tools that might roll onto or fall on employees’ feet Sharp objects such as nails or spikes that might pierce the soles or uppers of ordinary shoes Molten metal that might splash on feet or legs Hot or wet surfaces Slippery surfaces Foot Protection Requirements Protective footwear purchased after July 5, 1994 must meet the requirements of ANSI Z41-1991 Protective footwear purchased before that date must comply with ANSI Z41-1967 Foot and Leg Protection Choices Leggings. Protect lower legs and feet from heat hazards, like molten metal or welding sparks. Safety snaps allow leggings to be removed quickly. Metatarsal Guards. Strapped to outside of shoes to protect instep area from impact and compression. Made of aluminum, steel, fiber or plastic. Toe Guards. Fit over the toes of regular shoes to protect only the toes from impact and compression. Made of steel, aluminum, or plastic. Combination Foot and Shin Guards. May be used in combination with toe guards when greater protection is needed. Safety Shoes. These have impact-resistant toes and heat-resistant soles that protect against hot work surfaces common in roofing, paving, and hot metal industries. May have metal insoles to protect against puncture wounds May be designed to be electrically conductive for use in explosive atmospheres May be designed to be electrically nonconductive to protect from workplace electrical hazards   Checklist for Training Employees to Use and Care for Foot and Leg Protection   Train your employees to know . . .   Why foot or leg protection is necessary, i.e., the workplace hazards that threaten their feet or legs.   􀂆 How the equipment you provide will protect them.   􀂆 The limitations of the foot or leg protection.   􀂆 When they must wear the protective leggings, guards, or shoes.   􀂆 How to properly put on the protective equipment.   􀂆 How to adjust straps, laces, and other parts for a comfortable and effective fit.   􀂆 How to identify signs of wear such as:     Scuffed, cracked, or lacerated uppers; 􀂆 Signs of separation between soles and uppers, 􀂆 Holes or cracks in soles or heels, or 􀂆 Metal embedded in heels or soles of electrical hazard, safety-toe shoes. 􀂆 How to clean and maintain the leg and foot protection you provide for them. 􀂆 Hand and Arm Protection When engineering and work practice controls fail to eliminate the risk of injury to your employees’ hands or arms, protective gloves are the primary means of protecting their hands When the risk of injury includes the arm, protective sleeves, often attached to the gloves, may be appropriate Nature of the hazard(s) and the operation to be performed will determine your selection of gloves Types of Gloves Durable work gloves made of metal mesh, leather or canvas Fabric and coated fabric gloves Chemical and liquid resistant gloves Insulating rubber gloves* Asbestos gloves and asbestos linings are prohibited. * Detailed requirements for selection and use of insulating rubber gloves for use against electrical hazards are provided in 29 CFR 1910.137, and are therefore not included in this discussion. Metal Mesh, Leather, or Canvas Gloves Sturdy gloves made from metal mesh, leather, or canvas provide protection from cuts, burns, and sustained heat. Leather Gloves Protect against sparks, moderate heat, blows, chips, and rough objects Welders in particular need the durability of higher-quality leather gloves Aluminized Gloves Provide reflective and insulating protection against heat Usually used for welding, furnace, and foundry work Require an insert made of synthetic materials that protect against heat and cold Asbestos inserts are prohibited Aramid Fiber Gloves Aramid is a synthetic material that protects against heat and cold Many glove manufacturers use aramid fiber to make gloves that are cut- and abrasive-resistant and wear well Other Synthetic Materials Several manufacturers make gloves with other synthetic fabrics that offer protection against heat and cold Cut- and abrasive-resistant and may withstand some diluted acids Do not stand up well against alkalis and solvents Fabric and Coated Fabric Gloves Gloves made of cotton or other fabric protect against dirt, slivers, chafing, and abrasion but do not provide sufficient protection to be used with rough, sharp or heavy materials Cotton flannel gloves coated with plastic transform fabric gloves into general-purpose hand protection offering slip-resistant qualities Coated fabric gloves are used for tasks ranging from handling bricks and wire rope to handling chemical containers in laboratory operations For protection against chemical exposure hazards, always check with the manufacturer to determine the gloves’ effectiveness against the specific chemicals and conditions in the workplace Chemical and Liquid-Resistant Gloves Gloves made of rubber (latex, nitrile, or butyl), plastic, or synthetic rubber-like material such as neoprene protect workers from burns, irritation, and dermatitis caused by contact with oils, greases, solvents, and other chemicals Use of rubber gloves also reduces the risk of exposure to blood and other potentially infectious substances Common Gloves Used for Chemical Protection Butyl Rubber Gloves Protect against nitric acid, sulfuric acid, hydrofluoric acid, red fuming nitric acid, rocket fuels, and peroxide Resist oxidation and ozone corrosion. Resist abrasion and remain flexible at low temperatures. Natural Latex or Rubber Gloves Comfortable wear and pliability along with their protective qualities make them a popular general purpose glove Resist abrasions caused by sandblasting, grinding, and polishing and protect workers’ hands from most water solutions of acids, alkalis, salts, and ketones Hypoallergenic gloves, glove liners, and powderless gloves possible alternatives for those allergic to latex Neoprene Gloves Good pliability, finger dexterity, high density, and tear resistance Provide protection from hydraulic fluids, gasoline, alcohols, organic acids, and alkalis Nitrile Rubber Gloves Provide protection from chlorinated solvents such as trichloroethylene and perchloroethylene Intended for jobs requiring dexterity and sensitivity, yet stand up to heavy use even after prolonged exposure that cause other gloves to deteriorate Resist abrasion, puncturing, snagging, and tearing   Checklist for Training Employees to Use and Care for Hand and Arm Protection   Train your employees to know . . .   Why hand and arm protection is necessary, i.e., the workplace hazards that threaten their hands and arms.   􀂆 How the protective gloves and sleeves will protect them.   􀂆 The limitations of the protective equipment you’ve supplied.   􀂆 When they must wear the gloves and sleeves.   􀂆 How to properly put on the gloves and sleeves.   􀂆 How to ensure a comfortable and effective fit.   􀂆 How to identify signs of wear, such as:     Cracks, scrapes, or lacerations, 􀂆 Thinning or discoloration, and 􀂆 Break through to the skin. 􀂆 How to clean and disinfect the nondisposable protective gloves and sleeves. 􀂆 Body Protection Workplace hazards that could injure your employees’ bodies include the following: Intense heat Splashes of hot metals and other hot liquids Impacts from tools, machinery, and materials Cuts Hazardous chemicals Contact with potentially infectious materials, like blood Radiation Types of Body Protection Vests Jackets Aprons Coveralls Surgical gowns Full body suits Materials for Protective Clothing Paper-Like Fiber. Disposable suits made of this material provide protection against dust and splashes. Treated Wool and Cotton. Adapts well to changing workplace temperatures. Comfortable and fire resistant. Protects against dust, abrasions, and rough and irritating surfaces. Duck. Protects employees against cuts and bruises while they handle heavy, sharp, or rough materials. Leather. Often used against dry heat and flame. Rubber, Rubberized Fabrics, Neoprene, and Plastics. Provides protection against certain acids and other chemicals.   Checklist for Training Employees to Use and Care for Body Protection   Train your employees to know . . .   Why protective clothing is necessary, i.e., the workplace hazards that threaten their bodies.   􀂆 How the protective clothing will protect them.   􀂆 The limitations of the body protection.   􀂆 When they must wear the protective clothing.   􀂆 How to properly put on the protective clothing.   􀂆 How to adjust parts for a comfortable and effective fit.   􀂆 How to identify signs of wear, such as:     Rips, tears, scuffs, and 􀂆 Loss of elasticity in tight fitting parts. 􀂆 How to clean and disinfect the protective clothing you provide for them. 􀂆 Hearing Protection Noise exposure depends on: Level of sound, measured in decibels on the A-scale (dBA) Duration of employee’s exposure to sound of various levels throughout the work day Measured with noise dosimeter, which indicates daily noise dose in percent When is Hearing Protection Required? As with other types of hazards, you must implement feasible engineering and work practice controls before resorting to PPE, in this case hearing protection OSHA’s noise standard (29 CFR 1910.95) requires the use of hearing protection when the employee’s noise exposure exceeds an 8-hour time-weighted average sound level (TWA) of 90 dBA (dose of 100 percent) Employees who are exposed to an 8-hour TWA of 85 dBA (dose of 50 percent) and who have measured hearing loss (as prescribed by the OSHA standard) are also required to wear hearing protection Hearing Conservation Program (HCP) All employees whose noise exposures equal or exceed an 8-hour TWA of 85 dBA must be included in a HCP HCP is comprised of five basic elements: Exposure monitoring Audiometric testing Hearing protection Employee training Recordkeeping Monitoring Required to identify employees who are subjected to noise exposures of 85 dBA or more Must be repeated whenever change in production, process, equipment or controls increases noise exposures to extent that: additional employees may be over-exposed, or hearing protectors being used may be rendered inadequate Audiometric Testing Program Monitors employee hearing acuity over time Includes baseline and annual audiograms and initiates training and follow-up procedures Tests must be conducted by a professional or trained technician in an appropriate test environment Hearing Protection Must be made available to all employees exposed to an 8-hour TWA of 85 dBA or more Mandatory for those who have experienced hearing loss, defined as a “Standard Threshold Shift” in the OSHA standard Common types include ear plugs and earmuffs Hearing protector’s attenuation capacity shown by its Noise Reduction Rating (NRR) on package Proper fit very important Training Annual training required in: Effects of noise Purpose, advantages, disadvantages, and attenuation characteristics of various types of hearing protectors Selection, fitting and care of protectors Purposes and procedures of audiometric testing Recordkeeping Noise exposure records must be kept for 2 years Records of audiometric test results must be maintained for duration of affected employee’s employment   Checklist for Training Employees to Use and Care for Hearing Protection   Train your employees to know . . .   Why hearing protection is necessary, i.e., the workplace hazards that threaten their hearing.   􀂆 How the ear plugs or earmuffs will protect them.   􀂆 The limitations of the hearing protection.   􀂆 When they must insert or wear the hearing protectors.   􀂆 How to adjust earmuff parts for a comfortable and effective fit, or form the ear plugs to fit their ears.   􀂆 How special earmuffs fit over an employee’s corrective lenses.   􀂆 How to clean and disinfect the hearing protection you provide for them. 􀂆 Summary OSHA requires that you implement a PPE program to help you systematically assess the hazards in the workplace and select the appropriate PPE that will protect workers from those hazards As part of this PPE program, you must do the following: Assess the workplace for hazards Implement engineering controls and work practices to control or eliminate these hazards to the extent feasible Select appropriate PPE to protect employees from hazards that cannot be eliminated or controlled through engineering controls and work practices Inform your employees why the PPE is necessary and when it must be worn Train your employees how to use and care for the selected PPE and how to recognize PPE deterioration and failure Require your employees to wear the selected PPE in the workplace

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