Transportation & Manufacturing Intro to Manufacturing

1. Transportation & ManufacturingIntro to Manufacturing

2. Presenters • Daron Fuglsang - Automotive Design Process • Justin Ashton - Body and Assembly • Cory Larson - Engine and Assembly • Evan Rortvedt - Electronics and Assembly • Ben Schlappi - Management Techniques

3. Main Points • Automotive Design Process • Processing Techniques • Manufacturing Management Techniques • Transportation of Manufactured Products

4. Automotive Design Process Automotive Design is the first process of manufacturing a vehicle.

5. Road Vehicles That Undergo The Design Process • Automobiles • Motorcycles • Trucks • Buses • Coaches • Vans

6. Topics Addressed By Design team and Automotive Engineers • Safety Engineering • Fuel Economy/Emissions • Vehicle Dynamics • NVH Engineering • Performance • Shift Quality • Durability / Corrosion Engineering • Package / Ergonomics Engineering • Climate Control • Drivability • Cost • Program timing • Assembly Feasibility

7. The Four Main Aspects of The Designing Process • Exterior Design • Interior Design • Color and Trim Design • Graphic Design

8. Exterior and Interior Design Process • Drawings • Drawings get approved • Clay and or digital models are designed (3D software such as AutoCAD, and Solidworks) • Full sized version is created using CNC Milling Machines and clay

9. Topics Addressed for Exterior Design • Proportions • Shape • Surfaces of the vehicle

10. Topics Addressed for Interior Design • Proportions • Shape • Placement • Surfaces for the instrument panel • Seats • Door trim panels

11. Color and Trim Design • The designer is responsible for the research, design, and development of all interior and exterior colors and materials used on a vehicle. • Designers draw inspiration from other design disciplines such as: industrial design, fashion, home furnishing, and architecture in order to address the consumers level of comfort.

12. Topics Addressed by Color and Trim Designer • Paints • Plastics • Fabric designs • Leather • Grains • Carpet • Headliner • Wood trim

13. Graphic Design • The process of advertising or communication using text and images to present information. • The design team is also responsible for creating graphics for items such as: badges, decals, dials, switches, kick or tread strips, flames, racing stripes, etc

14. Clay Models • Since the 1930’s automotive engineers and design teams have been using clay to show the design of a new automobile. • Sculpting the clay to an exact replica of the new automotive design is guided by the CNC Milling machine. • The CNC Milling Machine is a computer guided router that sculpts the detailed design into the clay model to the exact measurements put into the computer. http://www.youtube.com/watch?v=7lKg3uC0mqw&NR=1

15. Conclusion Automotive Design • Designs will continue to meet consumer’s needs • Safety • Entertainment • Designs will be beneficial to the environment • Pollution • Materials • Design process will become even more computer aided • CNC Milling Machine • Computer Software

16. Processing Techniques • Body and Assembly • Engine and Assembly • Transmission and Axle Assembly • Brake and Assembly • Suspension and Assembly • Electronics and Assembly

17. Body

18. Body Bodies are constructed of Sheet metal and Hydro formed Metal tubes The tubes give the body extra rigidity and strength In higher stress areas These areas include, rooflines, mounting points, and frame rails

19. Body continued Body panels and tubes are welded together via robotic welders.

20. Body continued • This is a crucial step because many cars on the road today are of a uni-body construction, meaning the frame and body are one piece. • Human error can cause flaws and stress the integrity of the construction

21. Body Continued • After the body has been manufactured it is primed then painted to protect the metal against the elements and it also gives vehicles their desirable look.

22. Body Continued • After Paint, the rest of the vehicle is assembled and manufactured. The interior is installed along with other body panels. • Body panels can be made out of several things, from sheet metal to plastics.

23. Body/Interior • After all the body panels are installed, assembly line workers install pre-manufactured interior parts, form other providers. • This allows for quicker assembly time

24. Conclusion Manufacturing of Body • As robotics become more advanced the less human contact will be needed, therefore cutting down on human error. • Different materials are being discovered and created allowing the bodies and frames of vehicle to be lighter, stronger, safer and environmentally friendly. • New processes and techniques are being developed to cut down on time and up quality.

25. Engine Parts like the connecting rods are made through sintering Sintering is a process where metal powder is place into a die and put under pressure. The die is then heated and the metal powders come together to form a solid. Other parts such as the intake manifold are casted. After the parts are made inspection and finally assembly take place http://www.youtube.com/watch?v=oY2O-u0hJFk ( Ferrari Engine Production Video)

26. Transmission Connects the vehicle’s engine to the drive train, uses multiple gear ratios to obtain optimum engine power under varying loads. Housing- Is cast with Aluminum, then machined to specifications. Oil pan and covers- Made from stamping sheet metal. The combination of these two processes Lowers the cost of these exterior parts.

27. Internal Gears & Differential Internal Gears are used in Automatic and Manual Transmissions. They change the direction of the output shaft and create different ratios. Gears are manufactured by “cutting” Or grinding a gear blank on a CNC mill Specialized or short production runs increase the cost of these parts dramatically. Another factor to consider is the number of operations needed to produce the part. Ex. GM Ring and Pinion Gears 3  2 cuts

28. Axle Shaft-made from Chrome-Moly tube Splines- Machined with CNC mill, Then heat treated for strength. Bearing Surface- Polished for easy Installation.

29. Brakes Rotors & Drums- Start with a steel blank, then machined to specification. From top Left to Bottom Right: Brake drums being casted with “Lost Foam Technique”

30. Brakes Continued Pads- Backing-made from stamped steel. Lining Material-Ceramic or Metal fibers enclosed in a matrix. These two are then bonded together. Shoes- Only major difference is lining is riveted to the backing.

31. Brakes Continued Wheel cylinders and Calipers Are made from cast Aluminum and Then bored to accept pistons, seals, Springs.

32. The suspension of a vehicle can vary. It can have coil spring, strut, torsion bar or leaf spring, and each have their pros and cons. Each style of these are manufactured to each specific vehicle style. This includes the type of material and ‘spring rate’ or softness of the spring. Suspension

33. Conclusions toEngine, Transmission, and Suspension Manufacturing • #1-CNC Mills will become more complex • #2-Less skilled labor to operate needed • #3-This will be a “continuous process” • #4-Create unique ways to eliminate the number of operations

34. Electronics The electrical systems base components are the battery and the alternator. The alternator recharges the battery, which (battery) is used to power anything electric in the car, including starters, radios, and spark plugs. One of the more important electrical components is the ECU Alternators Automotive fuses Automotive air conditioning parts Automotive battery terminals Automotive wire Automotive relays Automotive switches Battery isolators Car air conditioners Car batteries Car heaters Ignition coils Ignition switches Power door locks Power windows Regulators Spark plugs Starter motors Vehicle DC motors

35. Sparks plugs are made up of a shell, side electrode, insulator, and center electrode. Shell- steel is heated and extruded through a die Side electrode-made of nickel alloy and is welded to the shell Insulator- made of ceramic material casted in rubber molds Center electrode- made of nickel alloy and is electric welded along the center of the insulator. Parts are made through a continuous in-line assembly process

36. Manufacturing of Electronics Conclusion • As the world is looking for petroleum alternatives, electricity is going to be playing a big role. • More and more hybrid cars are reaching the market, and automotive electrical components are becoming more complex • Auto makers are going to have to adjust for the new car make ups

37. Manufacturing Management Techniques • Lean Manufacturing- • People are broadly trained rather than specialized • Communication is informal and horizontal among line workers • Equipment is general purpose • Work is organized in terms, or cells, that produce a group of similar products. • Supplier relationships are long-term and cooperative. • Product development is concurrent, not sequential, and is done by cross-functional teams

38. Just-In-Time Manufacturing Manufacturing of parts as they are needed. • Elimination of Waste • High Quality • Value-added manufacturing • Discovery of problems and preventing them • Large Warehouses are not necessary

39. Kaizen(continuous improvement) • Base around 5 fundamentals • Teamwork • Personal Discipline • Improved Morale • Quality Circles • Suggestions for Improvement

40. ConclusionManufacturing Management • Just-in-Time Manufacturing will continue to gain popularity. • Helps cut waste material and wasted time. • Helps cut large amounts of over head. • Helps reduce the amount of raw material on hand.

41. Transportation of Products • Truck Freight • Air Freight • Sea Freight • Rail Freight

42. Brief History of Trucking • First started by a Frenchman in 1769 who used his tractor to haul artillery around. • By the 1890’s many new more road worthy haulers were developed. • After 1910 was when the common tractor trailer look appeared. • The 1920’s brought the interstate rage which led to bigger better trucks allowing for more freight movement and this really gave the manufacturing industry its big jump start. • The rest is history

43. Brief History of Railroad • The U.S. system was based off of England’s developing system as it competed against the canal system. • In the 1860’s the first Transcontinental Railroad was built across America allowing freight and manufactured parts to be moved from coast to coast again giving the manufacturing industry a jump start.

44. Brief History of Sea Freight • The idea to use ships at sea to move and transport goods has been around since man has discovered that wood floats and was able to create the first crude rafts. • The sea created almost no limitations, for water came into contact with all major cities and their industries.

45. Brief History of Air Freight • Ever since long distance flight was capable, the promoters of aviation looked for practical uses for the airplane. • They came up with the idea to use them to carry freight. • The first couple of tries were only somewhat successful but after some modifications in the 1920’s, it opened up a new door in merchandise and manufactured goods transportation. It allowed businesses to be more efficient. • The rest is history

46. Rail Freight Most economical for large and heavy freight. And if you are close to a rail head at pick up and drop off points.

47. Truck Freight No restrictions on size, location or destination. Typical price range is $100 to $250. Average lead-time is 1 to 3 weeks.

48. Air Freight C - 17 -The transportation of manufactured goods through air is an economical way for fast over seas shipment. Air Freight cost can be $250 or more. -It has no limitations, due to road, rail or land. That is needed is a big flat area to land and take off. MRAP being loaded on C-17

49. Sea Freight • Shipping manufactured goods by sea is very cheap for transporting large amounts of freight at one time to the same location over seas.

50. Petroleum Alternatives • Currently our country is in a big Go Green trend • Engineering new environmentally friendly ways to power vehicles. • Current alternative include • Alcohols - ethanol and methanol. • Compressed natural gas (CNG) - natural gas under high pressure. • Electricity - stored in batteries. • Hydrogen - a very special type of gas. • Liquefied natural gas (LNG) - natural gas that is very, very cold. • Liquefied petroleum gas (LPG) (also called propane) - hydrocarbon gases under low pressure. • Liquids made from coal - gasoline and diesel fuel that doesn't come from petroleum. • Biodiesel - a lot like diesel fuel, but made from plant oil or animal fat. • Change the manufacturing process of vehicles • Need to accommodate new assembly machines and the like