Manufacturing

1. Manufacturing Modern manufacturing technologies and processes can produce quality products that enhance the quality of life while having a minimal negative impact on the environment

2. Manufacturing processes have been changed by improved tools and techniques based on more thorough scientific understanding, increases in the forces that can be applied and the temperatures that can be reached, and the availability of electronic controls that make operations occur more rapidly and consistently Manufacturing

3. Prior to the 19th Century manufacturing referred to hand-made products • Artisans were considered the premier manufacturers Manufacturing History

4. The Industrial Revolution • Lasted from roughly 1760 – 1840, and it is technically still going… • Machines began to take over hand-made production • Chemical manufacturing • Iron and steel production processes • Water and steam power • Machine tools • Bio-fuels Manufacturing History

5. Impacts of the Industrial Revolution • Average income and population have sustained growth • Standard of living increases • Economic growth • Social classes begin to come closer together Manufacturing History

6. It is the process that changed!! • The key to the Industrial Revolution and continued change is efficiency with regard to waste, cost, and the environment Manufacturing History

7. Six areas that drive manufacturing • Cost • Quality • Efficiency • Production, waste, environment, resources • Delivery • Intermodalism – the use of multiple and appropriate forms or transportation in combinations or individually • Safety • Morale • Of employees and industry • Customer satisfaction and demand Focus of Manufacturing

8. In the mid 1900s the Jervis B. Webb Co. patented and created the first electronically coordinated conveyor system It is the algorithm under which a system works that defines and shapes it Manufacturing Fun Fact that Changed Everything

9. An algorithm is a logical arithmetical or computational procedure, that if correctly applied, ensures the solution of a problem. In manufacturing this means the recurring production of a product(s). A Flow Chart is how we represent this in manufacturing

10. Parts of a Flow Chart Start/end Input/output Process Arrows Display Decision

11. Shape is a rounded rectangle • Start is required of all flow charts • Some flow charts may not have an END Start/End

12. Shape is rectangular • Process involves the action or the “verb” part of the flowchart • Examples include • Add 1 • Turn the motor on • Turn the light off • Rotate the part Process

13. Shape is a parallelogram • Indicates that manual operation is needed • Examples include • Type in the weight • Check the balance • Time the operation Input/Output

14. Shape is a rhombus • Outcome is either yes or no • Examples include • Is this number larger than 10? • Does the weight meet specifications? • Has the count been reached? Decision

15. Arrows indicate the flow of the chart. • Arrows are drawn from the output of one block to the input of another. • Only one arrow can represent outputs. • Multiple arrows may represent inputs. Arrows

16. Count from 1 to 9 by odd numbers. • Before attempting to draw the flowchart, determine what you want the output to be. • What is the first block (always)? COUNT... Example

17. The output will be 1, 3, 5, 7, 9. • The Start block is always first. START Step 1

18. The program begins with the number 1. START INPUT 1 Step 2

19. Now that there is a number, the program will state the number. START INPUT 1 Step 4 SAY NUMBER

20. The number 2 will be added to 1 so that the program will continue to count by odd numbers. START INPUT 1 SAY NUMBER Step 3 ADD 2

21. Manufacturing accounts for 20% of the US Gross Domestic Product • Manufacturing employs 17% of the US work Force • When adding in all of the jobs that manufacturing creates, or requires for operation, it accounts for 25% of the total US workforce Why is Manufacturing Important

22. (ASRS) Automatic Storage and Retrieval System • Moves material vertically or horizontally between storage compartment and transfer station or within a process • (AGV) Automated Guided Vehicles • Computer-controlled system using pallets to transport work pieces to machine tools and other equipment in a flexible manufacturing system What Does Manufacturing Look Like Today

23. (AI) Artificial Intelligence • Machines learn from experience and begin to problem solve on their own when things go wrong • (CIM) Computer Integrated Manufacturing • A management philosophy for planning, integration, and implementation of automation What Does Manufacturing Look Like Today

24. (FMS) Flexible Manufacturing Systems • Systems that can adapt and change quickly and efficiently as design specifications are altered • These systems have increased productivity by an average of 50% overall • This type of system was adopted/adapted from Japanese systems built off of Kaizen • Kaizen – Japanese word for improvment What Does Manufacturing Look Like today

25. (JIT) Just-in-Time Manufacturing • A manufacturing system directed towards eliminating waste. A management system where all aspects of the system depend heavily on one another for efficient operation • This system is capable of producing mixed products as changes can occur rapidly • Utilizes and trains workers for multiple functions What Does Manufacturing Look Like Today

26. (TPS) Toyota Production System • Specifically applied to automotive manufacturing. Is a very specific manufacturing system centered around CIM, JIT, and Lean Manufacturing Processes • Is one of the most efficient mass production systems What Does Manufacturing Look Like Today

27. Lean Manufacturing • Systematic elimination of waste • Entire system must participate and work together to produce effectively • Rapid Prototyping • Prototyping made directly from a computer model • Technologies involved • Stereolithography, 3D Printing, Selective Laser Sintering, Fused Deposition Modeling What Does Manufacturing Look Like Today

28. Primary Manufacturing Processes • Turning raw materials into useable goods • These materials can be renewable or exhaustible • Secondary Manufacturing Processes • Create Products through the use of primary manufacturing end materials Manufacturing Processes

29. Inputs Processes Feedback Outputs The Processes

30. Separating • Involves the removal of material to expose another • Also referred to as the subtractive process Processes

31. Forming • Uses varying forces to cause a material to permanently take a shape • Changes material properties Processes

32. Finishing • May be completed before or after final assembly • Used primarily to protect a product from various conditions • Also used to enhance a product’s apperance Processes

33. Finishing / Cleaning • Techniques • Alkaline Cleaning • Electrolitic Cleaning • Solvent Cleaning • Vapor Degreasing • Acid Cleaning • Abrasive Blasting • Abrasive Wheels Processes

34. Finishing • Other possible Finishing Techniques • Coating • Deburring • Conditioning Processes

35. Manufacturing Enterprises • A complex system centered around a shared mission to satisfy customer need in a manner in relation to a given product or service, or set of products or services. • Professional employment ranges through all aspects of educational background • Management • Design • Finance • Production • Marketing • Distribution • Etc. etc. etc… Production Companies