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1 ) Explain linear and rotary motion as it relates to industrial systems. |
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2 ) Define the mechanics of motion, including work, energy, and power as related to industrial systems. Explaining mechanical advantages, including the use of levers and incline planes
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3 ) Explain Occupational Safety and Health Administration (OSHA) standards, Material Safety Data Sheets (MSDS) requirements, and the Environmental Protection Agency (EPA) regulations. |
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4 ) Explain properties of grease and oil related to industrial systems. |
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5 ) Explain how to select lubricants related to industrial systems. |
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6 ) Demonstrate use of lubrication equipment to apply lubricants to gears, bearings, and chains. |
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7 ) Identify ball, roller, thrust, guide, flanged, and take-up bearings. Explaining applications for selected bearings
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8 ) Identify types and sizes of plastic, copper, and ferrous metal pipes. |
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9 ) Explain precautions to be taken when installing piping. |
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10 ) Demonstrate cutting, bending, joining, and insulating copper and plastic piping according to specifications provided. |
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11 ) Demonstrate safety precautions for the installation, operation, and maintenance of refrigeration and air-conditioning equipment. |
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12 ) Demonstrate manual and machine pipe threading techniques to join lengths of metal pipe. |
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13 ) Describe methods used to join piping systems. |
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14 ) Identify types and uses of piping systems, including the system of color-coding. |
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15 ) Explain thermal expansion related to piping systems. |
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16 ) Identify coupling types. Examples: rigid, flexible |
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17 ) Describe applications for selected rigid and flexible couplings. Demonstrating installation and removal of couplings
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18 ) Explain various applications for selecting belts and chain drive types relative to industrial systems. |
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19 ) Describe various types, actuation methods, and application methods for selected clutches and brakes. |
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20 ) Explain procedures for mounting and lubrication of open and closed gears. Describing factors that contribute to failure of open and closed gears.
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21 ) Explain applications for open and closed gears. |
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22 ) Explain compressed air theory relative to industrial maintenance. Defining units of pressure and volume
Defining the properties of gases, including isothermic, isobaric, isochoric, and standard volume
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23 ) Explain pressure and flow including Bernoulli's principle. |
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24 ) Identify types of air compressors and compressor accessories. Examples: reciprocating, rotary, air receivers, inlet filter |
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25 ) Explain air humidity and air dehydration, including aftercoolers and air dryers. |
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26 ) Describe the operation and function of various actuators. |
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27 ) Describe various valve functions, types, and operations involved in industrial manufacturing. |
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28 ) Demonstrate concepts of circuit design, including cylinder controls. |