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Welding Safety

Welding Safety. WY MSHA State Grant Program. Welding. Welding joins two pieces of metal by the use of heat, pressure, or both Brazing or soldering involves a filler metal which has a lower melting point than the metal pieces to be joined

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Welding Safety

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  1. Welding Safety WY MSHA State Grant Program

  2. Welding • Welding joins two pieces of metal by the use of heat, pressure, or both • Brazing or soldering involves a filler metal which has a lower melting point than the metal pieces to be joined • Metal cutting is done by heating the metal with a flame and directing a stream of pure oxygen along the line to be cut

  3. Welding • Arc Welding • Shielded Metal Arc Welding (SMAW) • Metal Inert Gas (MIG) • Tungsten Inert Gas (TIG) • Plaza Arc Welding (PAW) • Submerged Arc Welding (SAW) • And Many More…..more than 80 in all

  4. Health Hazards • Gases and Fumes… • Welding “Smoke” is a mixture of very fine particles called fumes and gases • Welding “Smoke” contains fumes and gases including… • Chromium, nickel, arsenic, asbestos, manganese, silica, beryllium, cadmium, nitrogen oxides, phosgene, acrolein, flourine compounds, carbon monoxide, cobalt, copper, lead, ozone, selenium, and zinc

  5. Health Hazards…Gases & Fumes • Generally, gases and fumes come from… • Base material & filler material • Coatings & paints • Shielding gases & chemical reactions • Process & consumables used • Contaminants in the air

  6. Health Hazards • It is difficult to list all the health effects of welding exposures because the fumes may contain so many different substances that are known to be harmful • The individual components of welding “smoke” can affect just about any part of the body, including the lungs, heart, kidneys, & central nervous system

  7. Health Hazards • Exposure to welding “smoke” may have… • Short-term effects… • Effects happen at or very soon after exposure • Long-term effects • Effects may happen after repeated overexposures or an extended time after the exposure

  8. Short-term exposures • Exposure to zinc, magnesium, copper and copper oxide can cause metal fume fever • Symptoms of metal fume fevere may occur 4 to 12 hours after exposure • Symptoms include… • Chills, thirst, fever, muscle ache, chest soreness, coughing, wheezing, fatigue, nausea, and metallic taste in mouth

  9. Short-term exposures • Welding “smoke” can irritate the eyes, nose, chest and respiratory tract • Welding “smoke” can cause coughing, wheezing, shortness of breath, bronchitis, pulmonary edema, and pneumontis • Welding “smoke” can cause nausea, loss of appetite, vomiting, cramps, and slow digestion

  10. Short-term exposures • Exposure to cadmium can be fatal in a short time • Ultraviolet radiation can react with oxygen and nitrogen to form ozone and nitrogen oxides • These gases are deadly at high concentrations and can also cause irritation of nose and throat and cause serious lung disease

  11. Short-term exposures • Ultraviolet rays given off by welding can react with hydrocarbon solvents such as… • Trichloroethylene; 1,1,1-trichloroethane; methylene chloride; & perchloroethylene to form phosgene gas • Even a very small amount of phosgene gas may be deadly • Early symptoms include dizziness, chills, and cough and usually take 5 – 6 hours to appear

  12. Short-term exposures • Arc welding should never be performed within 200 feet of degreasing equipment or solvents

  13. Long-term exposures • Studies of welders, flame cutters, and burners have shown that welders have an increased risk of lung cancer… • and…possibly cancer of the larnyx and urinary tract • Remember… welding “smoke” can include cancer causing agents such as…cadmium, nickel, beryllium, chromium, and arsenic

  14. Long-term exposures • Welders may experience a variety of chronic respiratory problems, including… • Bronchitis, asthma, pneumonia, emphysema, pneumoconiosis, decreased lung capacity, silicosis, and siderosis

  15. Long-term exposures • Other health problems… • Heart disease, skin diseases, hearing loss, chronic gastritis, gastroduodentis, and ulcers of the stomach and small intestine • Reproductive risks

  16. Other Health Risks… • Heat exposure… • Heat stress, heat stroke • burns, eye injuries from hot slag, metal chips, sparks, and hot electrodes

  17. Other Health Risks… • Visible light, and ultraviolet and infrared radiation • Intense light can cause damage to retina • Infrared radiation may damage the cornea and result in cataracts • Invisible UV light can cause “arc eye” or “welders’ flash” • May include sandy or gritty eye, blurred vision, intense pain, tearing, burning and headache

  18. Other Health Risks… • Permanent eye damage • Skin burns • Skin cancer • Noise • Can result in stress, increased blood pressure, may contribute to heart disease, tiredness, nervousness, and irratability

  19. Musculoskeletal Injuries • Back injuries, shoulder pain, tendonitis, reduced muscle strength, carpal tunnel syndrome, white finger, and knee joint diseases • Injuries may be caused by overhead work, vibration and heavy lifting

  20. Electrical Hazards • Even though welding generally uses low voltage, there is still a danger of electric shock • Wet work areas, Cramped work spaces • Falls, fractures and other accidents can result from electrical exposure • Even small shock can cause brain damage • Death can occur from large shocks

  21. Electrical Hazards • Always use dry gloves • Always wear rubber soled shoes • Always use insulating layers • Protect yourself from surfaces that conduct electricity • When working on electrically powered machinery, make sure the frame is grounded • Keep insulation on all welding equipment and components dry and in good condition • Don’t change electrodes with bare hands, wet gloves or while standing on wet or ungrounded surfaces

  22. Fire and Explosion Hazards • Intense heat and sparks can cause fires or explosions if in the vicinity of combustible or flammable materials • Welding and cutting should only be performed in areas free of combustible materials such as trash, wood, paper, textiles, plastics, chemicals, and flammable dusts, liquids and gases

  23. Fire and Explosion Hazards • Never weld or cut on containers that have held a flammable or combustible material unless the container is thoroughly cleaned or filled with an inert gas • A fire inspection should be performed prior to leaving a work area and for at least 30 minutes after the operation is completed • Fire extinguishers should be nearby, of proper size, type and number for the hazards involved

  24. Dangerous Machinery • All machines in the area with moving parts must be guarded to prevent worker’s contact • Hair, clothing, fingers, etc. • When repairing machinery by brazing and welding, power must be disconnected, locked out, and tagged so the machinery cannot be started up accidentently

  25. Trips and Falls • To prevent trips and falls… • keep work areas clear of equipment, machines, cables, and hoses • Always properly maintain and use handrails • Always use and maintain safety lines, harnesses and lanyards • Always make sure that scaffolds are properly assembled and used

  26. Welding Hazards in Confined Space • A work area with limited access, little or no airflow, not intended for continuous occupation • May also have dangerous atmospheres, hazardous configurations, or other hazards • All employees working in or around confined space must be trained

  27. Welding Hazards in Confined Space • Never weld or cut in explosive, flammable, combustible or other dangerous environments • Always use all necessary Personal Protective Equipment (PPE), including, harness and lanyard, respiratory protection, eye protection, etc. • Never work in confined space without a trained attendant

  28. Welding Hazards in Confined Space • Always leave gas cylinders and welding power sources outside the confined space… • Only take hoses or welding leads into confined space • Always removed hoses and/or leads when leaving confined space for breaks, shift or crew changes, etc.

  29. Welding Hazards in Confined Space • No worker should work in an area with less than 19.5% or more than 23.5% oxygen content • Never ventilate with oxygen • Use continuous mechanical ventilation and proper respiratory protection • All pipes, ducts, power lines, etc. that are not necessary for the work should be disconnected/locked out/tagged out

  30. Compressed Gas Hazards • Gas welding and cutting use a fuel gas and oxygen which are stored in high pressure cylinders • Most fuel gases are explosive • Pure oxygen will increase the flammability of any combustible/flammable material

  31. Compressed Gas Hazards • All cylinders should have caps or regulators • Pressure regulators must be designed for gas in use • Check all equipment and components prior to use • Cylinders must be stored upright and secured • Oxygen and fuel gas cylinders must be stored separately • Be aware of flashbacks and backfires?? • Close cylinder valves when work is completed or left unattended during breaks, etc.

  32. Reducing Noise Hazards • Identify hazards and potential hazards prior to beginning hot work • Read the MSDS sheet to identify the hazardous material used in welding and cutting products, and the fumes that may be generated • Make sure that you know what you are welding before beginning • Cadmium exposure can be fatal in a very short time

  33. Compressed Gas Hazards • After a specific hazard(s) has been identified… • you can implement appropriate control method(s) • You can use appropriate PPE

  34. Engineering Controls and Work Practices • Substitute less hazardous materials for hazardous materials • Use cadmium-free silver solders • Use asbestos- free electrodes, gloves, and hot pads • Use ventilation to move away or dilute hazards • Use work area barriers to protect others working in the same general area

  35. Engineering Controls and Work Practices • Welding booths should be painted with dull finishes so they don’t reflect UV light • Acoustic shields between the worker and noise sources can reduce exposures • Noisy machinery can be totally enclosed

  36. Engineering Controls and Work Practices • Modify the process or follow safe work practices so that hazards are eliminated or reduced to the minimum… • Don’t weld on painted surfaces; use water table under plasma arc cutting to reduce noise; Grind instead of air-arcing; use sub arc; position yourself away from fumes; remove nearby flammables/combustibles; properly maintain equipment; proper housekeeping; use lowest possible amperage; hold electrode perpendicular and close to work surface • Never weld or cut within 200 feet of degreasing equipment or solvents

  37. Personal Protective Equipment (PPE) • PPE must be used in conjunction with engineering controls and safe work practices • Use of one does not eliminate the need for the other • Eye protection should be used in all welding operations • Wear face shields or helmets and goggles or safety glasses • Use appropriate filters on eye protection

  38. Filter Lens Shade Numbers • SMAW – 1/16 - 5/32 = #10 • Gas SAW - 1/16 - 5/32 = #11 (nonferrous) • Gas SAW – 1/16 – 5/32 = #12 (ferrous) • SMAW – 3/16 – ¼ - = #12 • 5/16 & 3/8 electrodes = #14 • Atomic Hydrogen Welding = #10 - #14 • Carbon Arc Welding CAW = #14

  39. Filter Lens Shade Numbers • 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 = #4 or #6 • Light gas welding up to 1/8” = #4 or #5 • Medium gas welding 1/8” to ½ “ = #5 or #6 • Heavy Gas Welding over ½ “ = #6 or #8

  40. Protective Clothing • Fire resistant gauntlet gloves • Headcap • High top hard toed shoes • Leather apron • Faceshield • Flame retardant clothing • Safety Glasses • Safety helmet

  41. Hearing Protectors • Ear plugs and/or muffs should be worn during noisy operations such as air arcing or grinding • Most welding operations are noisy

  42. Respirators • Must be specific to the hazard • Must be fitted, cleaned, stored and maintained in accordance to regulation and manufacturers specs • NIOSH recommends respirators whenever a carcinogen is present

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