Summary: This class identifies the standard workholding devices used for both the mill and the lathe.
Summary: "Manual Mill Basics" provides an introduction to the manual milling machine. Manual mills are generally either vertical or horizontal, depending on their spindle orientation. This class introduces the machine components, cutting tools and workholding devices commonly used on milling machines. The class also provides an overview of the various controls on the mill that are used to adjust spindle rotation, speed, feed, and depth.Before learning to operate a manual mill, it is necessary to have a basic understanding of the machine tool components as well as the cutting tools and workholding devices that may be used on the machine. The manual mill is a complex machine with many controls and variables, and familiarity is key to becoming a successful operator.
Summary: “Engine Lathe Basics” provides an introduction to the components and controls used on a manual lathe. The lathe creates cylindrical parts by producing a round diameter on a part by rotating a workpiece against a stationary single-point cutting tool. The engine lathe, operated manually, is composed of a bed, ways, headstock, spindle, tailstock, carriage assembly, and leadscrew. Workholding devices are attached to the spindle to hold the workpiece as the carriage moves the cutting tool parallel or perpendicular to the workpiece. Cutting operations performed on the lathe include outer diameter (OD) operations and inner diameter (ID) operations.To produce parts on a manual lathe, the operator must first understand the lathe’s basic components and functions. After the class users should be able to describe the general machine components and controls of a manual engine lathe and their basic function.
Summary: "Cutting Processes" provides an introductory overview of the common metal cutting operations. To those new to manufacturing and machining, familiarity with the basic machines, tools, and principles of metal cutting is essential. The class focuses on the most common machining tools, the saw, lathe, and mill, and the common processes performed on each, such as band sawing, turning, end milling, and drilling. "Cutting Processes" also offers an introduction to holemaking and describes the differences between inner and outer diameter operations.A basic, foundational knowledge of metal cutting processes is essential to gain understanding of more advanced information such as cutting theory, tool and workpiece material, cutting variables, and tool geometries. After taking this class, students should be able to identify the most common cutting processes, as well as the machines used to perform them.
Summary: "Overview of Machine Tools" provides an overview of the basic machine tools used in metal cutting operations. The class describes the appearance, components, and uses of lathes, mills, drill presses, saws, and broaches. Lathes and mills are described in detail, including the various types of cutting operations performed and the different types of tools commonly used on both machines.This class provides new users with the foundational information about machine tools and their uses that is necessary for users to gain familiarity with common metal cutting machines and knowledge of metal cutting theory and processes. A basic understanding of the types of machine tools used in metal cutting operations will prepare users for becoming machine operators.
Summary: "Basic Cutting Theory" provides an introductory overview of metal cutting theory and chip formation. The most fundamental aspect of cutting theory is the use of a cutting tool to remove material in the form of chips. Cutting tools can be divided into single-point tools, commonly used on the lathe, and multi-point tools, commonly used in milling and holemaking. The shape and type of chip created by cutting indicates whether or not cutting conditions are optimized. Adjusting tool angles and cutting variables has the largest effect on chip creation and cutting conditions.Understanding how chips are formed and what factors change or optimize chip formation is essential to performing an effective metal cutting operation. Chip formation affects surface finish, part quality, and tool life, and thus has a large effect on manufacturing economy.
Summary: Application of the techniques presented in this program will improve your machining process efficiency by at least 20%. These techniques have delivered four-fold increases in tool life, elimination of scrap, and increases in profitability. It enhances manufacturing efforts in all Lean enterprises.
Summary: "Grinding Processes" provides a comprehensive overview of the various types of grinding used in modern manufacturing environments. Surface, cylindrical, centerless, and internal grinding processes are commonly used for workpieces of various shapes. Surface grinding is further distinguished by whether the table is rotary or reciprocating, and whether the spindle is vertically or horizontally oriented. Cylindrical grinding is distinguished by workholding, whether center-type or chucking-type. Centerless grinding can be either throughfeed or infeed, and internal grinding can be done on a cylindrical or centerless grinder.A foundational knowledge of the different types of grinding, including how they operate and what types of workpieces they are appropriate for, is necessary for any further learning or training in grinding. This class introduces students to the various types of grinding that they may encounter, describing both machine tools and movements.
Summary: “Intro to CNC Machines” provides a comprehensive introduction to computer numerical control (CNC), which uses numerical data to control a machine. CNC machines rely on a system of three linear and three rotational axes in order to calculate the motion and position of machine components and workpieces. A machine control unit controls and guides the movements of the machine tool. This class also describes PTP positioning, which moves to the end position before the tool begins to cut, and continuous path systems that can move a tool along two or more axes at once and cut during the movement. Additionally, closed-loop systems provide feedback, while open-loop systems do not.CNC machines are used to make a variety of products using a number of different processes. With proper training, a human operator can use CNC machines to make accurate parts with decreased risk of error. After taking this class users should be able to describe common components of CNC machine tools and controls.
Summary: “Basics of the CNC Lathe” explains the components and functions of both the chucker and bar machine CNC lathe varieties. CNC lathes have spindles that spin workpieces held in chucks or collets. A carriage and cross slide move along ways to position cutting tools against the spinning part. A cutting tool may remove metal from the inside or outside surface. Carbide inserts are the most common cutting tools used in turning operations. Turning centers are also capable of creating holes with the use of drills and reamers. The turret rotates to place the required tool in the cutting position.It is essential for a CNC lathe operator to be familiar with machine basics prior to executing any cutting operation. A trained operator can use a CNC lathe to create precise parts safely and consistently. After taking this class, users should be able to describe the basic functions and general machine components of a CNC lathe.
Summary: “Basics of the CNC Mill” explains the components and function of CNC mills. A CNC mill produces flat or curved surfaces on square or rectangular workpieces. CNC mills may have a vertical spindle or a horizontal spindle and either their table or cutting tool may move to execute a cutting operation. CNC mills use a variety of tools, which are kept in the toolchanger on a toolholder, to perform different cutting operations. The spindle grabs the toolholder and secures it. On the worktable, vises or fixtures may secure workpieces during machining. The CNC mill can perform multiple operations in the same setup.It is essential for a CNC mill operator to be familiar with machine basics prior to executing any cutting operation. A trained operator can use a CNC mill to create precise parts safely and consistently. After taking this class, users should be able to describe the general machine components of a CNC mill and their basic function.
Summary: "Coordinates for the CNC Lathe" provides an overview of the coordinates used to program cutting operations on CNC lathes or turning centers. It introduces the systems of both Cartesian and polar coordinates and describes how Cartesian axes are used on a CNC lathe. The class describes both how coordinates are used on blueprints and how they are applied as machine movements. This includes concepts such as incremental vs. absolute coordinates, linear and circular interpolation, machine zero, and program zero.Coordinates and axis movements are at the core of operations for a CNC machine. A foundational knowledge of these topics is necessary to understand how and why parts can be successfully made on the CNC lathe or turning center.
Summary: "Coordinates for the CNC Mill" provides an overview of the coordinates used to program cutting operations on CNC mills or machining centers. It introduces the systems of both Cartesian and polar coordinates and explains the Cartesian axes for vertical and horizontal CNC mills. The class describes how coordinates are used on blueprints and applied as machine movements. This includes concepts such as incremental vs. absolute coordinates, linear and circular interpolation, machine zero, and program zero.Coordinates and axis movements are at the core of operations for a CNC machine. A foundational knowledge of these topics is necessary to understand how and why parts can be successfully made on the CNC mill or machining center.
Summary: This introductory course presents the practical basics for learning how to use the latest CNC equipment. By incorporating a proven "key concepts" approach, it examines the techniques needed for programming and operating a variety of CNC machine tools with emphasis on CNC machining and turning centers. You will gain a firm understanding of the basics required to become proficient with this sophisticated and popular form of manufacturing equipment.
Summary: The class “Basic Measurement” offers an overview of common gaging and variable inspection tools and methods. Variable inspection takes a specific measurement using common devices such as calipers and micrometers. The sensitivity of the instrument must be greater than the measurement being taken. Both calipers and micrometers are read by finding the alignments in lines on the devices. Gages, such as gage blocks, plug gages, ring gages, and thread gages, reveal whether a dimension is acceptable or unacceptable without a specific quantity. All inspection devices should be properly mastered and maintained to retain accuracy.
One of the fundamental activities of any shop is the measurement of part features. Consistent measurement and inspection maintains standardization and ensures that out-of-tolerance parts do not reach customers. After taking this class, users should be able to describe the use and care of common inspection instruments and gages used in the production environment.
Summary: The class “Calibration Fundamentals” provides a basic introduction to the importance of calibrating measuring instruments. Calibration determines the accuracy of measuring instruments by comparing its value to a higher-level measurement standard, usually a working standard gage block. Measurement standards follow a hierarchy consisting of primary, secondary, and working standards. Traceability links these standards together. Measurement uncertainty estimates the accuracy of a measurement. It is the range in which the true value of a measurement is expected to lie.
High-accuracy parts require tight tolerances. Tighter tolerances require higher-accuracy measuring instruments. While uncertainty and error exists in every measurement, careful calibration can help to minimize inaccuracy when inspecting parts with measuring instruments. After taking this class, users should be able to explain how calibration and traceability impact the use and care of inspection devices.
Summary: "Intro to Mechanical Properties" provides a thorough introduction to key mechanical properties, such as tensile strength, hardness, ductility, and impact resistance. This class discusses how shear, compression, and tensile stress impact a material's properties, how force is shown on a stress-strain graph, and common methods manufacturers use to test a material's strength.
To make quality products, manufacturers must anticipate how a material responds to shaping and cutting forces and understand how that material will ultimately function once it reaches the customer. Evaluating a material's mechanical and physical properties is the first step to choosing reliable tooling and processing methods. After taking Intro to Mechanical Properties, users will know more about hardness, ductility, and strength, what materials exhibit these characteristics, and common methods a facility might use to test these qualities.
Summary: "Ferrous Metals" discusses the properties and applications of cast iron and steel, including an overview of plain carbon steel, stainless steel, and HSLA steels, along with an introduction to AISI-SAE designations. This course also describes gray, ductile, white, and malleable cast irons and their uses.
Ferrous metals have broad commercial and industrial applications due to their strength, versatility, and relatively low costs. Fasteners, automotive components, structural shapes, tooling, and even aircraft parts can be made with ferrous metals. Understanding the range of cast iron and steels available enables manufacturers to choose reliable raw materials and effective processing methods. After completing this course, users will be better equipped to evaluate materials and anticipate how ferrous metals will function in different environments.
Summary: "Intro to OSHA" provides an introduction to the purpose of OSHA and how its standards and guidelines affect employers and employees. Most U.S. workplaces are covered by OSHA, and its existence has greatly improved workplace safety. Some industries are not covered by OSHA, however, and some states have safety programs that take the place of OSHA. OSHA standards are enforceable by law. Compliance with OSHA standards is enforced by inspections and record keeping, which have specific steps and requirements. Employers and employees have different rights and responsibilities regarding OSHA standards.
Both employers and employees benefit from basic knowledge about OSHA's purpose, standards, and practices. Violations of OSHA standards are punishable by law and render the workplace unsafe for all personnel. A basic awareness of the standards, rights, and responsibilities will help employees to bolster workplace safety as well as keep the workplace legally compliant.
Summary: The class “Personal Protective Equipment” introduces the purpose and uses of personal protective equipment (PPE). As defined by the Occupational Safety and Health Administration (OSHA), PPE minimizes exposure to hazards and helps prevent injury. In order to select appropriate PPE, employers must first evaluate the workplace with a hazard assessment. PPE may be categorized by the area of the body it protects. PPE is available in several types, designs, and materials. Every employer is responsible for providing the appropriate PPE for workers who require it, and it is every employee's responsibility to properly wear and use PPE.
OSHA does not often specify which types of PPE should be worn, but requires that employers train each employee in proper use and retrain when PPE changes or if PPE is used improperly. After taking this class, users should be able to describe OSHA regulations regarding personal protective equipment and how they impact day-to-day operations in the workplace.
Summary: In the class "Noise Reduction and Hearing Conservation," students will learn about the effects of sound and noise on the body and how to protect themselves from related injuries. Occupational hearing loss is preventable through hearing conservation.The two main types of hearing loss are conductive hearing loss and sensorineural hearing loss. Hearing loss may be caused by excess noise, hereditary factors, certain drugs, or illnesses. When excessive noise is present, employees must be provided with hearing protection. Using proper hearing protection will help ensure that ears remain capable of detecting important and subtle sound changes.Students enrolled in this course will learn various ways to protect their hearing and why preventative measures should be taken to avoid hearing damage. They will be able to describe OSHA regulations regarding noise levels and hearing conservation and the impact had on daily operations in the workplace.
Summary: "Lockout/Tagout Procedures" details the OSHA requirements and best practices for preventing accidental startup during maintenance and repair. It addresses electrical power and the many other forms of energy that a machine or device may use. All forms of energy must be successfully restrained or dissipated in order for safe maintenance. "Lockout/Tagout Procedures" describes using a lockout device that prevents unauthorized access of the energy-isolating mechanism. OSHA has strict requirements for lockout and tagout devices, which must be standardized, easily recognized warning signs. Users will learn OSHA's specific steps for all parts of the control of hazardous energy, from shutdown to startup, including defining authorized vs. affected employees.Following proper lockout/tagout procedures is essential to preventing employee injuries and fatalities. All employees must be familiar with lockout/tagout in order to prevent the dangers of accidental machine startup.
Summary: "SDS and Hazard Communication" focuses on communication methods about hazardous workplace substances and how they increase employee awareness and safety. Education, labeling, data collection, testing, and other communication methods detail the dangers of specific chemicals and offer methods of protection from physical and health hazards. OSHA requires that employers establish a written hazard communication program to communicate employee responsibilities, standard implementation, chemical hazards, and safety measures. Hazard communication programs must include a chemical inventory, specific labeling, SDS for each individual chemical, and training.After taking this class, users will be able to describe OSHA regulations regarding hazardous materials and SDS and their impact on daily workplace operations. Understanding these regulations is critical in maintaining workplace safety and efficient operation.
Summary: "Walking and Working Surfaces" will inform employees of the ways they can decrease the risks of injury and death regarding walking and working surfaces by following the guidelines as provided by OSHA. Hazards exist when people or objects may fall from one level to another through various openings such as floor and wall openings, floor and wall holes, platforms, or runways. All openings must be guarded by devices such as railings, covers, and toeboards. Standards regarding the construction, dimension, and usage of stairs, ladders, scaffolding, and manually propelled ladder stands are also set by OSHA. Failing to use and maintain walking and working surfaces correctly can result in serious injury. After taking this course, employees will be able to describe OSHA regulations covering safe practices with walking and working surfaces and how following those regulations will positively impact daily operations in the workplace.
Summary: The class “Fire Safety and Prevention” examines common workplace fire safety procedures. Fires, no matter how small, should be reported immediately. Buildings are equipped with extinguishing systems that actuate an alarm and discharge an extinguishing agent to control advanced stage fires. Portable fire extinguishers are available for extinguishing incipient stage fires using the P.A.S.S. technique. Employees not authorized to fight the fire should evacuate immediately.
Employers should create an emergency action plan that dictates the procedures to be carried out in the event of an emergency. In the event of a fire, employees should stay calm, follow procedures, and go directly to assembly areas. Employers must account for all employees and provide first aid until medical services arrive. After taking this class, users will be able to describe OSHA regulations regarding fire safety and how they impact day-to-day operations in the workplace.
Summary: "Safety for Lifting Devices" covers the different pieces of lifting equipment that may be used in the workplace and the safest ways to work with those pieces of equipment. Overhead cranes and hoists are used for lifting heavy loads. Other lifting devices include slings, portable lifting stands, gantry cranes, and derricks. Extra equipment is necessary to secure loads to lifting devices. This equipment must be inspected daily for excessive wear and damage.
Understanding how to maintain and operate lifting devices will allow future operators and employers to work with lifting devices safely and effectively. After taking this class, students will be able to describe the proper steps necessary to safely lift and transport materials within the work environment.
Summary: "Powered Industrial Truck Safety" provides an overview of safety topics related to forklifts and other PITs. OSHA has many standards surrounding the use of PITs in the workplace for operators, non-operators, attended vehicles, and unattended vehicles. OSHA also has detailed training requirements for PIT operators. To safely operate a PIT, operators must understand basic principles of stability, including the concepts of a fulcrum and centers of gravity. Operators must also be aware of the weight and shape of loads and what individual vehicles are capable of handling.Powered industrial trucks are a common source of workplace accidents, so a strong knowledge of how to safely operate and work with PITs is crucial for any environment where they are used. PIT accidents can lead to property and inventory damage as well as employee injury. Operators should know how to avoid OSHA violations and how to handle a load without tipping the vehicle.
Summary: "Lean Manufacturing Overview" provides an introduction to the principles and terminology of lean strategies, including a discussion of the seven forms of waste, the definition of value-added, the difference between push and pull systems, and the importance of continuous improvement. This class also highlights other quality concepts, such as single minute exchange of dies (SMED), inventory reduction, and Five S.Lean manufacturing approaches help companies optimize their processes through organization and waste reduction. Although change can be a challenge, more efficient, streamlined processes will ultimately lead to improved customer satisfaction. This class outlines the foundational concepts and vocabulary that every practitioner needs when beginning, or continuing, a lean initiative.
Summary: "ISO 9000 Overview" provides an introduction to the key components and requirements of ISO 9001:2008. This class discusses the standard's eight sections, along with describing the role of a Quality Management System (QMS) and ISO 9001:2008's connection to other standards in the ISO 9000 series. "ISO 9000 Overview" also outlines the steps to registration, the auditing process, and the importance of continuous improvement.
ISO 9001:2008 is an internationally recognized standard that outlines the requirements of an effective, organized quality system. Many organizations are becoming ISO 9001:2008 certified to prove their commitment to product quality and customer service. Although streamlining documentation and implementing change can be a challenge, ISO 9001:2008 can create a more goal-oriented, connected, and efficient organization. This class helps new practitioners familiarize themselves with ISO 9001:2008's structure, content, and purpose in quality management.
Summary: "Five S Overview" provides a thorough introduction to the purpose and process of 5S quality initiatives. This class includes separate discussions on each of the five steps, along with information on challenges, advantages, and possible assessment tools.Many companies implement quality initiatives to improve operations and eliminate waste. 5S is a quality method that promotes organization, efficiency, and team work through several sequential steps. After completing this class, users will understand the value of each 5S step and be better equipped to execute and evaluate 5S.
Summary: This course is designed to teach the basic tools used in a lean culture when problem solving. The course is designed around a factory simulation where the participants will learn how to apply lean tools in a hands-on manner. Each participant will be responsible for tracking performance through visual factory methods. As the day progresses, lean tools are taught and applied to the process. This class is the first stage in an organization’s lean transformation. It is designed to bring all levels of the organization together in a fun and fast-pace exercise, where rank and file is left outside the room. This class should be used to help create a hunger and a passion for continuous improvement. Participants will leave excited to go to the next stage of the transformation.
Summary: Lean concepts have been adopted by many successful manufacturing companies as a way to reduce costs, satisfy customers, and increase profitability. The process of "becoming lean" may mean a company-wide transformation from current operating style. This course offers a methodology for linking the goals and metrics of a project or initiative to a company's strategic goals and metrics and provides the basis for tracking the effectiveness of lean initiatives.
Summary: Measurement, Inspection, and Gaging Level 1 provides fundamental lessons in proper interpretation of engineering drawings used in inspection of parts which have geometric controls applied per ANSI Y14.5. This course presents methods for developing and improving inspection skills. Through review of technical reports, examination of standards and evaluation, recommendation and incorporation of measurement equipment manufacturers practices, participants will learn how to optimize inspection equipment and reduce inappropriate measurement procedures.
Summary: The purpose of this course is to provide an overall introduction and review of manufacturing processes, equipment, and process capabilities, with a strong emphasis on product design, material, process, and equipment selection. Major issues in modern manufacturing and global competition will also be discussed. Non-engineers who work in a manufacturing environment will benefit from understanding how a product is manufactured.
All classes available in Spanish except CLASS 2.0 coursesAll classes ONLINE except where noted