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Line 1: {{inductioninfo}} Induction for the [[Tools/plasma\|CUT-50 Plasma Cutter]] {\| class="wikitable" \|- ! Topic !! Detailed Contents !! Rationale \|- ~~Groups of 5 or less~~ \| Proper Clothing \|\| Preferably workshop overalls and safety boots but if not :- ~~18+ only~~ * Stout leather shoes that you don’t mind getting messed up, no trainers, no open-toed shoes * Jeans or similar heavy cotton trousers, must completely cover legs, no holes * Cotton shirt, long-sleeved preferable but not essential * All clothing is going to get dirty, dusty and possibly burn marks ~~Clothing :-~~ * For fire-safety reasons - NO SYNTHETIC FABRICS \|\| Staying safe from the hot metal spray ~~Preferably workshop overalls and safety boots but if not :-~~ \|- \| PPE and why \|\| ~~Stout leather shoes that you don’t mind getting messed up, no trainers, no open-toed shoes~~ * Overalls (sparks, UV) * Boots (sparks, dropping things) ~~Jeans or similar heavy cotton trousers, must completely cover legs, no holes~~ * Welding Gloves (sparks, hot metal parts) * Ear protection (Loud noise/ultrasonics for long use) ~~Cotton shirt, long-sleeved preferable but not essential~~ * Goggles or welding mask (UV, flying sparks, grit, dust) * Dust mask (Dust, metal fume headaches) ~~All clothing is going to get dirty, dusty and possibly burn marks~~ \|\| Protection from the specific hazards \|- ~~For fire-safety reasons - NO SYNTHETIC FABRICS~~ \| Area Safety \|\| * Fire precautions Clearing area of flammables Getting fire extinguishers handy ~~If you have any metal you’d like to cut, or scrap to practice on, please bring it (Steel only, not stainless)~~ *** Everyone knows how to use one? * Sounds level warning to other people * Dust warning to other people especially if cutting anything other than carbon steel * Good ventilation because of Ozone/NOx/Metal fume \|\| Keeping other people safe around you \|- ~~Training~~ \| Electrical Safety \|\| * Avoiding wet areas (but mention industrial water-damped cutting) ~~Intro~~ * The plasma cutter plugs into one of the 16A sockets on the pillars. If you need an extension lead use only the high-current industrial ones from drawer B1B of the metal table * Main terminal on power supply is live all the time at 100V, ensure the guard is in place at all times ~~Who I am~~ * NO RINGS, NO WATCHES!! * If something does go wrong, shut off power before anything else ~~Why I’m teaching this~~ \|\| Let's not get anyone electrocuted \|- ~~Who are you and what are your levels of experience?~~ \| Metal fume/dust hazards \|\| * General hazards of fine dusts, tendency to respiratory issues and headaches, need for for dust masks ~~Safety~~ * Hazards of galvanised metal, properly preparing galv and cleaning it * Why are we restricted to carbon steels? (Cr2O3, Al2O3, NiO, CuO etc.) ~~Fire precautions~~ ** Is there interest in cutting other materials? (Will organise if wanted) \|\| Metal dust and fume are long term health risks ~~Clearing area of flammables~~ \|- \| Basics of plasma cutting \|\| ~~Getting fire extinguishers handy~~ * What is plasma, how and why does it cut through metal * What can be cut - Any metal, but safety issues on anything other than plain carbon steels ~~Everyone knows how to use one?~~ * Inspecting compressor and cut-50 Looking for any defects or damage ~~Proper safety Clothing~~ Are the shields and guards in place? Checking compressor oil level ~~Overalls (sparks, UV)~~ Venting the compressor Are the regulators all the way out? ~~Boots (sparks, dropping things)~~ Testing the compressor safety valve ** Are the hoses and cables in good condition? ~~Gloves (sparks, hot metal parts)~~ * Fitting the consumables, how to examine, check, what constitutes too much wear, show examples of excessive wear if we have any available. Consumables need changing quite often on these cheaper plasma cutters * Connecting up the equipment, noting that the air source needs to be reasonable clean and water-free, what will happen if it isn't ~~Ear protection (not using and why not)~~ * Torch safety, electrical hazards, air injection issues, firing out of grit and possibly parts of the head if damaged, must never be pointed at people \|\| Basics of how the process works and is used ~~UV safety~~ \|- \| Proper settings for the job \|\| ~~Goggles/Mask (UV, flying sparks, grit, dust)~~ * Selecting proper pressure and how to cascade the regulators to give smooth regulation. ** Pressures range from around 3 bar for thinner material up to around 8 bar for thicker material ~~Dust safety~~ * How to choose a suitable current for your job Theoretically you should use 10A + 5A per mm of material thickness for steels, more for aluminium or copper ~~Dust mask (Dust, metal fume headaches)~~ But this cutter's gauge reads "Chinese amps" so use about double that ** But the breaker will trip if you select over about 42A so that's your upper limit ~~Good ventilation (Heat, NOx, CO)~~ \|\| Getting the settings right for a smooth cut \|- ~~Why are we restricted to carbon steels? (Cr2O3, Al2O3, NiO, CuO etc.)~~ \| Cutting \|\| * Preparing material using angle grinder/wire wheel ~~Is there interest in cutting other materials? (Will organize if wanted)~~ Consider contaminants Getting good ground contact ~~Electrical safety~~ Using guides, both metal and wood, possibility of laser cut guides Clamping work consider what’s underneath and on the underside ~~Avoiding wet areas (but mention industrial water-damped cutting)~~ Torch perpendicular and slow even movement OK to brace on the material ~~No Extension leads!~~ \|\| The main procedure for actually cutting into things. \|- ~~Basics~~ \|How to recognise problems\|\| * Demo on thin sheet ~~What is plasma, why does it cut~~ Show a good cut, too much current, too little current, too little air Practice on thin sheet till it's working well ~~What can be cut~~ ** Piercing through thin sheets \|\| So you can recognise issues when they happen ~~Inspecting compressor and cut-50~~ \|- \|Cutting on thicker materials\|\| ~~Fitting consumables (examine, check, what constitutes too much wear, show examples)~~ * Cutting speed and watching spark angle (15-20 deg) if possible * Flick-finishing ~~Connecting up the equipment (air cleanliness & water)~~ * Piercing thicker sheet at an angle * Descaling use ~~Torch safety (airflow/electrical)~~ * Demo & Practice * Maximum thicknesses that can be cut ~~Starting up~~ \|\| Cutting thicker materials at lower speeds \|- ~~Compressor~~ \| Other topics \|\| * Piercing into enclosed spaces and blow-back hazard ~~Setting pressure (3-6 bar)~~ \|\| Miscellaneous other topics \|} ~~CUT-50~~ ~~Setting current (10A+5A/mm)~~ ~~Cutting~~ ~~Basic how-to~~ ~~Preparing material (consider contaminants, good ground contact, consider what’s underneath and on the underside)~~ ~~Torch perpendicular and slow even movement~~ ~~OK to brace on the material~~ ~~How to recognise problems~~ ~~Demo on thin sheet~~ ~~Practice on thin sheet~~ ~~Piercing~~ ~~Guides (metal and wood, the differences)~~ ~~Proper settings and how to choose them~~ ~~Cutting on thicker materials~~ ~~Cutting speed/spark angle (15-20 deg)~~ ~~Flick-finishing~~ ~~Piercing~~ ~~Descaling~~ ~~Demo & Practice~~ ~~Other topics~~ ~~Piercing into enclosed spaces~~ [[Category:inductions]]