What is the definition of "retraction"?
The movement of a single-acting cylinder characterized by fluid exiting the cylinder and the rod moving into the cylinder housing. In a double-acting cylinder, retraction occurs on each stroke and alternates between ends of the cylinder.

Learn more about retraction in the class Hydraulic Principles and System Design 340 below.

Hydraulics and Pneumatics Training

Class Information
 Tooling U classes are offered at the beginner, intermediate, and advanced levels. The typical class consists of 12 to 25 lessons and will take approximately one hour to complete.
 Class Name: Hydraulic Principles and System Design 340 Description: This class provides an overview of common mathematical calculations used to size fluid components in the design phase of circuit creation. Includes an Interactive Lab. Prerequisites: 570200  570210 Difficulty: Advanced Number of Lessons: 12 Language: English, Spanish

Below are all the competencies and job programs that contain the class Hydraulic Principles and System Design 340. Job programs are our traditional class lists organized according to common job functions. Competencies are our latest job-specific curricula that help tie online learning to practical, hands-on tasks.

Click on any title to view its details.

Competencies

Class Outline
• Objectives
• Mathematics and System Design
• Pascal's Law
• Flow Rate for a Target Speed
• Hydraulic Cylinder Speed for a Target Flow
• Hydraulic Cylinder Bore Diameter and Gauge Pressure
• Hydraulic Cylinder Extension and Retraction Force
• Pneumatic Cylinder Extension and Retraction Force
• Prime Mover Horsepower
• Motor Torque
• Burst Pressure, Safety Factor, and Working Pressure
• Summary

Class Objectives
• Describe the process of fluid system design.
• Use Pascal's Law to determine output force.
• Calculate the flow rate of a pump for a target speed.
• Calculate the cylinder speed for a target flow.
• Calculate bore diameter and gauge pressure.
• Calculate extension and retraction forces for a hydraulic cylinder.
• Calculate extension and retraction forces for a pneumatic cylinder.
• Calculate prime mover horsepower.
• Calculate the torque of a motor.
• Calculate the burst pressure and working pressure of a conductor.

Class Vocabulary

Vocabulary TermDefinition
A safety factor of a fluid component indicating the burst pressure is four times the working pressure.
A safety factor of a fluid component indicating the burst pressure is five times the working pressure.
A constant used for determing torque when torque is measured in pound-feet.
A safety factor of a fluid component indicating the burst pressure is six times the working pressure.
A constant used for determing torque when torque is measured in pound-inches.
A component such as a cylinder, motor, or rotary device that directly helps convert fluid energy into mechanical energy.
Ring-shaped. The annular area of a piston is the area on the rod side of a cylinder not occupied by the rod.
The amount of space, or number of square units, inside a closed figure.
The weight of the atmosphere. Atmospheric pressure refers to the amount of pressure exerted by the air.
The interior diameter of a cylinder.
The size of a cylinder's piston housing measured from two points located directly opposite each other.
The pressure rating that indicates the pressure at which a conductor will fail.
The side of the piston that is opposite the rod. The cap end is also called the blind end.
A mathematical constant used to convert one unit of measurement into another.
An association in which the value of one variable increases while the value of the other variable increases as well, and vice versa. A direct relationship is also called a positive relationship.
A constant relationship between two values. If value A increases, value B also increases. If value A decreases, then value B also decreases.
A fluid power variable that indicates how much fluid is moved by a hydraulic pump in one cycle. Displacement is measured in cubic inches per revolution or cubic centimeters per revolution.
The amount of power output by a fluid power system compared to the amount of power input.
The movement of a single-acting cylinder characterized by fluid pushing on the piston and moving the rod outside of the cylinder housing. In a double-acting cylinder, extension occurs on each stroke and alternates between ends of the cylinder.
A safety factor that indicates a burst pressure that is 5 times the working pressure.
A fluid power variable that describes how much fluid is being moved and how much work is being performed. Flow rate is usually measured in gallons per minute (gpm) or liters per minute (lpm).
The push or pull that gives energy to an object.
A safety factor that indicates a burst pressure that is 4 times the working pressure.
Psig. The pressure of a system measured by a gauge, above atmospheric pressure.
A unit of power used to describe the strength of a fluid component. One horsepower equals 746 watts.
A device that converts the energy from liquid flow into mechanical motion. A hydraulic motor is a type of fluid motor that is capable of continuous mechanical motion.
A mechanical device used to move liquids. The hydraulic pump introduces flow and pressure into the system.
Incapable of being compressed by pressure and maintaining a relatively fixed volume. Gases are compressible, while liquids are relatively incompressible.
An association in which the value of one variable increases while the value of the other variable decreases, and vice versa. An inverse relationship is also called a negative relationship.
A constant relationship between two values. If value A increases, then value B decreases. If value A decreases, then value B increases.
The amount of force or pressure placed on a component or system.
The unique configuration of a fluid circuit that involves placing components to perform work.
A hydrostatic principle that states when pressure is applied to a contained fluid, the force is transmitted equally in all directions.
A special constant value that relates the diameter of a circle to its circumference. Pi is roughly 3.14 and is used to find the circumference and area of a circle.
The amount of force applied upon an object. Pressure is calculated by dividing force by an area.
The component of a hydraulic or pneumatic system that powers the main pump or compressor. Common prime movers for hydraulic systems include electric or diesel-powered motors.
The pressure of a system measured by a gauge, above atmospheric pressure.
The movement of a single-acting cylinder characterized by fluid exiting the cylinder and the rod moving into the cylinder housing. In a double-acting cylinder, retraction occurs on each stroke and alternates between ends of the cylinder.
The side of the piston that is attached to the rod.
Revolutions per minute. The speed of a fluid component may be measured by how many revolutions the component completes in one minute.
The ratio of burst strength to working strength. A conductor with a safety factor of 5:1 has a burst pressure that is 5 times the working pressure.
A common pipe designation that indicates the thickness of pipe wall and how much pressure a pipe can withstand. Other schedules include 40 and 80, among others.
A safety factor that indicates a burst pressure that is 6 times the working pressure.
A measurement of the thermal energy in a substance. Molecular activity determines temperature.
The maximum stress, or tension, a material can endure before it breaks. Tensile strength is usually expressed in pounds per square inch.
A force that produces rotation. Torque is measured in pound-feet in the English system and Newton-meters in the metric system.
The state of negative pressure. A hydraulic pump works by creating a vacuum in the closed hydraulic system.
The amount of three-dimensional space occupied by an object.
The pressure rating that indicates the maximum pressure a conductor should experience in service. Working pressure is often called maximum allowable working pressure (MAWP).